阅读说明：本技术 一种新型轮式做功装置 (A kind of novel wheel-type acting device ) 是由 于魁江 于 2019-07-12 设计创作，主要内容包括：本发明提供了一种新型轮式做功装置技术方案,该方案包括有壳体、叶轮构成,所述叶轮由轮体、轮轴和叶片构成,所述叶片固定在轮体上,所述轮体固定在轮轴上安装在壳体内轮腔中,所述轮轴上壳体内装有轴承,所述叶片顶边逆时针侧装有跟叶片同宽的舌片,舌片以连接轴为轴心另一个边沿相邻另一叶片的叶面可上下滑动,所述壳体内轮腔进气口跟排气口相距最远的半圆上跟叶轮叶片相对应的轮腔外围有副腔并跟轮腔相通,所述进气口上有控制阀,所述进气口跟进气道相通,排气口跟排气道相通。(The present invention provides a kind of novel wheel-type acting device technique schemes, the program includes shell, impeller is constituted, the impeller is by wheel body, wheel shaft and blade are constituted, the blade is fixed on wheel body, the wheel body, which is fixed on wheel shaft, to be mounted in shell lubrication groove chamber, the wheel shaft upper housing is provided with bearing, the blade top margin side counterclockwise is equipped with blade with wide tongue piece, tongue piece can be slided up and down by the blade face of the adjacent another blade in another edge of axle center of connecting shaft, the shell lubrication groove chamber air inlet with impeller blade with being with secondary chamber and communicating with wheel chamber outside corresponding wheel chamber on the semicircle of exhaust outlet lie farthest away, there is control valve on the air inlet, the air inlet is communicated with air intake duct, exhaust outlet is communicated with exhaust duct.)

The device 1. a kind of novel wheel-type does work, is mainly made of shell, impeller, the impeller is constituted and installed by wheel body and blade In shell inner impeller wheel chamber, the wheel body center is equipped with wheel shaft, it is characterized in that: the impeller keeps small airtight with wheel cavity wall Gap is not contacted with wheel cavity wall, and work doing impeller wheel chamber outer circle is with the same of the corresponding impeller wheel chamber of impeller blade on the shell There is air inlet with exhaust outlet on a semicircle, the air inlet is with corresponding with impeller blade on the semicircle of exhaust outlet lie farthest away It is with secondary chamber outside impeller wheel chamber and is communicated with impeller wheel chamber.

2. a kind of novel wheel-type does work device according to claim 1, it is characterized in that: the impeller wheel body from wheel shaft outer circle extremely It is the turbine shape wheel body being made of multiple wheel body hinges in wheel body circumference, it is corresponding with turbine shape wheel body hinge on the shell There is ventilating duct in part.

3. a kind of novel wheel-type acting device according to claim 1, it is characterized in that: there is multiple impellers to distinguish in the shell It is mounted in respectively wheel chamber, each wheel chamber of the multiple impeller has gas outlet independent with air inlet.

4. a kind of novel wheel-type acting device according to claim 1, it is characterized in that: there is multiple impellers to distinguish in the shell It is mounted in respectively wheel chamber, the preceding impeller wheel chamber gas outlet in the multiple impeller wheel chamber is communicated with rear impeller wheel chamber air inlet.

5. a kind of novel wheel-type acting device according to claim 1, it is characterized in that: the pair chamber is arc-shaped, the circle Arc pair chamber is on the circumference periphery of impeller wheel chamber, and the inner circle radian of the arc-shaped secondary chamber is with impeller wheel chamber outer circle radian phase Together, the arc-shaped pair is intracavitary multiple partitions, and arc-shaped secondary chamber has been separated into multistage by the partition, and every section of pair is intracavitary There is secondary chamber air inlet to communicate with impeller wheel chamber in impeller wheel chamber air inlet side, impeller wheel chamber exhaust side has secondary chamber puff prot with leaf Wheel wheel chamber communicates.

6. a kind of novel wheel-type acting device according to claim 1, it is characterized in that: the pair chamber is semi-circular shape, it is described The cross section of semi-circular shape pair chamber is C-shaped be wrapped in impeller wheel chamber air inlet with exhaust outlet lie farthest away semicircle with impeller blade On corresponding impeller wheel chamber, the semi-circular shape it is secondary it is intracavitary have multiple C-shaped partitions, the C-shaped partition is from impeller wheel chamber air inlet Semi-circular pair chamber has been separated into the skewed C-shaped pair chamber of multistage, the skewed C-shaped by the lateral impeller wheel chamber exhaust side inclination of mouth Secondary chamber is rolled along impeller direction of rotation from impeller wheel chamber air inlet side to impeller wheel chamber exhaust outlet using C-shaped both ends line as axle center Tiltedly, the C-shaped medial surface both ends of the skewed C-shaped pair chamber have air inlet corresponding in impeller blade bottom with impeller wheel chamber two sides Position communicate, have puff prot on impeller wheel chamber periphery with impeller wheel among the C-shaped medial surface of the skewed C-shaped pair chamber Chamber communicates.

7. a kind of novel wheel-type acting device according to claim 1, it is characterized in that: the pair chamber is arc-shaped, the circle For arc pair chamber on the circumference periphery of impeller wheel chamber, the inner circle radian of the arc-shaped secondary chamber is less than impeller wheel chamber external arc Degree, the arc-shaped secondary chamber air inlet are communicated in impeller wheel chamber air inlet side with impeller wheel chamber, the arc-shaped secondary chamber puff prot It is communicated in impeller wheel chamber exhaust side with impeller wheel chamber.

8. a kind of novel wheel-type acting device according to claim 1, it is characterized in that: the pair chamber is spiral type, the whirlpool Shape pair chamber is revolved on the circumference periphery of impeller wheel chamber, and the secondary intracavitary vortex sheet of the spiral type is communicated with impeller wheel chamber periphery, institute Spiral type pair chamber most narrow end is stated in impeller wheel chamber air inlet side, the spiral type pair chamber most wide end is in impeller wheel chamber exhaust side.

9. a kind of novel wheel-type acting device according to claim 1, it is characterized in that: the pair chamber is screw type pair chamber.

10. a kind of novel wheel-type acting device according to claim 9, it is characterized in that: the air inlet of the screw type pair chamber It is communicated other than impeller wheel body periphery with impeller blade on the corresponding intracavitary periphery of wheel and with impeller wheel chamber, the spiral Type pair chamber is since helically type is rotated to impeller wheel to impeller wheel chamber circumference outer circle surface impeller wheel chamber exhaust outlet direction air inlet It is communicated through screw type pair chamber puff prot with impeller wheel chamber above the circumference periphery of chamber.

11. a kind of novel wheel-type acting device according to claim 9, it is characterized in that: the air inlet of the screw type pair chamber It is communicated other than impeller wheel body periphery with impeller blade on corresponding wheel chamber circumference side and with wheel chamber, the screw type pair Chamber is since helically type is rotated to impeller wheel chamber to impeller wheel chamber circumference outer circle surface impeller wheel chamber exhaust outlet direction air inlet It is communicated through screw type pair chamber puff prot with impeller wheel chamber above circumference periphery.

12. a kind of novel wheel-type acting device according to claim 9, it is characterized in that: the impeller wheel chamber circumference periphery There is arc-shaped secondary chamber between upper two screw types pair chamber puff prot.

13. according to claim 1,2,3,4,5,6,7,8,9,10,11,12 any novel wheel-types acting device, special Sign is: the pair chamber be it is multiple, have between adjacent two blade on the impeller with blade with wide tongue piece, one of the tongue piece While its is another using connecting shaft as axle center for the tongue piece with a blade top margin in adjacent two blade through movable axis Viability connection The blade face of the adjacent another blade in a edge slides up and down, and top dead centre is no more than the blade top margin of corresponding sliding, the tongue piece Its radian of blade face camber and the sliding radian of tongue piece sliding edge corresponding to sliding edge match, the impeller wheel chamber air inlet There is control valve at mouthful, there is bearing on the wheel shaft, has cooling fin on the shell, have insulating layer on the pair chamber enclosure body, institute Stating has heat-insulating material in insulating layer.

Technical field

The present invention relates to a kind of machine for doing work, especially a kind of wheeled acting device.

Background technique

In the prior art, the technology closest with the application be on January 9th, 2013 number of applying for a patent be A kind of 2013100075126 Novel pneumatic impeller patent, in the patented technology, high energy gas effect doing on the impeller vanes Function number is weekly, that is to say, that impeller often rotates a circle middle high energy gas only to each blade acting one of impeller It is secondary, belong to typical single-stage work doing impeller, single-stage do work turbine energy conversion efficiency it is relatively low, especially tick-over when Efficiency is lower, oil consumption is higher, and outputting torsion is small, in order to improve energy conversion efficiency, reduce oil consumption, raising outputting torsion, existing The Typical Representative for having wheeled acting device in technology is exactly turbogenerator, is all to be installed in series using multiple single-stage impellers same Multistage work doing impeller structure is constituted on a piece wheel shaft, allows high energy gas to do work step by step to each work doing impeller, this multistage is done Although function blade wheel structure improves energy conversion efficiency, but several times increase the individual amount of acting device simultaneously, so that entirely Acting device becomes than cumbersome, while also several times increase its manufacturing cost, single-stage work doing impeller inefficiency, multistage acting Impeller is dramatically increased than cumbersome and cost again, and wheeled acting apparatus structure is complicated, manufacturing cost is high, oil consumption when tick-over It is high, the thermal efficiency is low, outputting torsion is small etc. this several be always the global problem for perplexing prime mover industry so that being sent out with turbine Motivation is that the wheeled acting device of representative cannot be widely applied and popularize on land route so far, and that is where the question arises.

Summary of the invention

The technical problems to be solved by the invention, one kind is provided aiming at deficiency of the prior art can be with The identical novel wheel-type of multistage work doing impeller acting effect does work device, and the wheeled acting device of the utility model is in impeller rotates a circle High energy gas repeatedly does work to impeller blade, that is, allows same high energy gas to impeller blade on single work doing impeller It realizes repeatedly acting, reaches the acting effect that multistage work doing impeller mechanism is just able to achieve, improve high energy gas in individually acting leaf Energy conversion efficiency on wheel improves the low problem of single work doing impeller energy conversion efficiency, in identical energy transfer efficiency In the case where reduce the individual amount of work doing impeller, reduce volume and mitigate weight, reduce its manufacturing cost, make wheeled acting dress Setting can be widely used and popularize on land route.

This wheeled acting device is achieved by the following technical measures: being mainly made of shell, impeller etc., the leaf There are wheel body, wheel shaft, blade, tongue piece on wheel, the blade is mounted on wheel body, and the wheel body center is equipped with wheel shaft, the wheel shaft On spring bearing can be housed, the tongue piece be mounted on blade top margin, and the impeller is mounted in shell lubrication groove chamber, the shell It can be separately mounted to respectively take turns in chamber there are two impeller in vivo, intracorporal two impellers of shell may be mounted at the same wheel On axis, intracorporal two impellers of shell be may be mounted on different wheel shafts, can also have multiple impellers to distinguish in the shell It is mounted in respectively wheel chamber, multiple impellers may be mounted on the same wheel shaft in the shell, also may be mounted at different wheels On axis, the impeller wheel chamber size matches with impeller, and impeller keeps small airtight gap with taking turns intracavitary cavity wall, as far as possible sealing but Not with taking turns intracavitary cavity wall contact, work doing impeller wheel chamber outer circle is with the same of the corresponding impeller wheel chamber of impeller blade on the shell There is air inlet with exhaust outlet on a semicircle, the air inlet and exhaust outlet are communicated with air intake duct and exhaust duct respectively, the shell When inside there are multiple impellers, independent porting and entering and exhaust channel can be on each impeller wheel chamber, i.e., acting structure in parallel can also Exhaust outlet to be previous impeller wheel chamber is connected to the air inlet of the latter impeller wheel chamber, constitutes series connection acting structure, described Shell lubrication groove chamber air inlet be with outside corresponding wheel chamber on the semicircle of exhaust outlet lie farthest away with impeller blade secondary chamber and with Wheel chamber communicates, and the pair chamber is either one or more to be sequentially distributed in wheel chamber air inlet with exhaust outlet lie farthest away On semicircle with impeller blade in corresponding wheel chamber periphery, the multiple pair chamber can be an equal amount of secondary chamber, can also To be the secondary chamber to become larger one by one since the secondary chamber of wheel chamber air inlet side first, the pair chamber can be arc-shaped secondary chamber can also be with Semicircular arc pair chamber, it is described pair chamber on the circumference periphery of impeller wheel chamber, the inner arc surface of the semicircular arc pair chamber Radian can be identical with taking turns the radian of chamber periphery, and the intrados radian of the arc-shaped secondary chamber can be less than impeller wheel chamber outer circle The radian in face, when the inner circle radian of the semicircular arc pair chamber is identical with impeller wheel chamber outer circle radian, semicircular arc pair chamber is from leaf Wheel wheel chamber air inlet side starts to wheel chamber exhaust side in amplification shape, the semicircular arc it is secondary it is intracavitary have multiple partitions, it is described every Arc-shaped secondary chamber has been separated into multistage by piece, and every section of pair is intracavitary to have secondary chamber air inlet with impeller in impeller wheel chamber air inlet side Wheel chamber communicates, and has secondary chamber puff prot to communicate with impeller wheel chamber in impeller wheel chamber exhaust side, and the pair chamber puff prot is less than secondary chamber Air inlet, when the radian of the arc-shaped intracavitary arc surface of pair is less than the radian of wheel chamber periphery, arc-shaped pair chamber is in convergence shape, I.e. arc-shaped secondary chamber is gradually restrained since impeller wheel chamber air inlet side to impeller wheel chamber exhaust side, the arc-shaped secondary chamber into Port is communicated in impeller wheel chamber air inlet side with impeller wheel chamber, the arc-shaped secondary chamber puff prot impeller wheel chamber exhaust side with Impeller wheel chamber communicates, and the arc-shaped secondary chamber can be in convergence shape or identical, the impeller wheel from air inlet to puff prot There can be multiple arc-shaped secondary chambers being arranged successively on the circumference periphery of chamber, the multiple arc-shaped secondary chamber being arranged successively can To be that the identical arc-shaped secondary chamber of size is also possible to become larger one by one since chamber air inlet side first, wheel arc-shaped secondary chamber Arc-shaped pair chamber, the pair chamber can be semi-circular shape, and the cross section of the semi-circular shape pair chamber is C-shaped to be wrapped in impeller wheel chamber Air inlet with exhaust outlet lie farthest away semicircle with impeller blade on corresponding impeller wheel chamber, the semi-circular shape is secondary intracavitary to be had Multiple C-shaped partitions, the skewed C-shaped pair chamber using C-shaped both ends line as axle center along impeller direction of rotation from impeller wheel chamber air inlet The lateral impeller wheel chamber exhaust side inclination of mouth, the skewed C-shaped partition are vented from impeller wheel chamber air inlet side to impeller wheel chamber Semi-circular pair chamber has been separated into the skewed C-shaped pair chamber of multistage by mouth side, and the C-shaped medial surface both ends of the skewed C-shaped pair chamber have Air inlet is communicated with impeller wheel chamber two sides in the corresponding position in impeller blade bottom, on the inside of the C-shaped of the skewed C-shaped pair chamber There is puff prot to communicate on impeller wheel chamber periphery with impeller wheel chamber among face, the pair chamber puff prot is less than secondary chamber air inlet. The pair chamber can also be that spiral type, the secondary intracavitary vortex sheet of the spiral type are communicated with wheel chamber periphery, the spiral type pair chamber edge Swirl direction is vortexed in convergence shape, the convergence shape spiral type pair chamber most narrow end in impeller wheel chamber air inlet side, the convergence shape Shape pair chamber most wide end can have arc in impeller wheel chamber exhaust side, the impeller blade outer end face opposite with direction of rotation Water conservancy diversion re-entrant angle, can there is multiple spiral type pair chambers being arranged successively on the impeller wheel chamber circumference periphery, it is the multiple successively The spiral type pair chamber of arrangement can be the identical spiral type pair chamber of size and can also be from wheel first spiral type of chamber air inlet side Secondary chamber starts the spiral type pair chamber to become larger one by one, and the pair chamber can also be screw type pair chamber, the air inlet of the screw type pair chamber Mouth communicates on corresponding wheel chamber circumference side with wheel chamber other than impeller wheel body periphery with impeller blade, the screw type pair Chamber is since helically type is rotated to the circumference periphery of impeller wheel chamber to impeller wheel chamber outer circle exhaust outlet direction air inlet It is communicated through screw type pair chamber puff prot with impeller wheel chamber, the screw type pair chamber is in convergence shape from air inlet to puff prot, described There can be multiple spiral shells being arranged successively on the corresponding wheel single side of chamber circumference with impeller blade other than impeller wheel body periphery Rotation type pair chamber, the multiple screw type pair chamber being arranged successively can be the identical screw type pair chamber of size and can also be from wheel chamber First screw type pair chamber of air inlet side starts the screw type pair chamber to become larger one by one, and the impeller wheel body periphery is in addition with impeller Can there are multiple screw type pair chambers being arranged successively, the wheel cavity circle on two sides of the corresponding wheel chamber circumference of blade respectively The multiple screw type pair chambers being arranged successively on a two sides in week can be the identical screw type pair chamber of size and be also possible to take turns certainly First screw type pair chamber that chamber circumference two sides are taken turns at chamber air inlet starts the screw type pair chamber to become larger one by one, described two sides There can also be the multiple vortexs being arranged successively on the upper wheel chamber circumference periphery for there are multiple screw type pair chambers being arranged successively respectively Shape pair chamber, the multiple spiral type pair chambers being arranged successively on the wheel cavity circumference periphery can be the identical spiral type pair chamber of size It is also possible to the spiral type pair chamber to become larger one by one since wheel first spiral type pair chamber of chamber air inlet side, the screw type pair chamber Air inlet can be communicated with impeller blade on the intracavitary periphery of corresponding wheel and with wheel chamber other than impeller wheel body periphery, It takes turns to can be side on intracavitary periphery and there is screw type pair chamber to be also possible to two sides and has screw type pair chamber, the screw type pair chamber Since helically type is rotated to the circle of impeller wheel chamber to impeller wheel chamber circumference outer circle surface impeller wheel chamber exhaust outlet direction air inlet It is communicated through screw type pair chamber puff prot with impeller wheel chamber above all peripheries, can have control at the impeller wheel chamber air inlet Valve, the control valve can be the autocontrol valve equipped with pressure inductor, be also possible to the semiautomatic control valve that can regulate and control, also Can be other forms in the prior art can close and open the aperture of wheel chamber air inlet and adjustable wheel chamber air inlet Size and control enter the high energy gas flow of wheel chamber and the control valve in direction, can have insulating layer outside the shell, described There is heat-insulating material in insulating layer, the impeller wheel body is can be from wheel shaft outer circle to wheel body circumference by multiple wheel body hinges The Scroll-type wheel body of composition, with wheel body hinge, there are ventilating duct, shell side ventilating duct in corresponding part on the shell The interior support flow deflector that can have heat transmission, the shell other side can have fan, and the fan may be mounted on wheel shaft, The fan is also possible to be connected on wheel shaft through silicon oil clutch, can also be any in the prior art and is applicable to this technology The fan of scheme, can there is cooling fin on the shell, and the impeller can be blade with wheel body with wide unshrouded impeller structure, It is also possible to the semi-closed type impeller structure that blade is blocked by wheel piece on one side, can also be the enclosed that blade both sides are all blocked by wheel piece Blade wheel structure can have between adjacent two blade of the impeller with blade with wide and can be up and down tongue piece, the tongue One side of piece carries out active connection with movable axis with a blade top margin in adjacent two blade, and the movable axis can be in blade Side top margin counterclockwise on can also on the side top margin clockwise of blade, the tongue piece using movable axis as axle center another The blade face of the adjacent another blade in edge slides up and down, and top dead centre is no more than corresponding blade top margin, the tongue piece active edges The sliding radian of corresponding its radian of blade face camber and tongue piece sliding edge matches, and is guaranteeing tongue piece feelings free to slide It is sealed as far as possible under condition, the impeller can be impeller blade with impeller wheel body with wide blade wheel structure, and the impeller is also possible to Impeller blade width is greater than the blade wheel structure of impeller wheel body width, and the impeller can also be and be blocked among impeller blade by wheel piece Blade wheel structure, the impeller can also be the impeller blade half-closed blade construction that is blocked by wheel piece on one side, and the impeller is also It can be the enclosed blade construction that impeller blade both sides are blocked by wheel piece, the impeller cavity bottom wheel on piece has stomata with impeller The secondary chamber air inlet taken turns on chamber side wall is corresponding, in the unshrouded impeller structure when tongue piece sliding edge is to top dead centre adjacent two Blade, wheel body, tongue piece and wheel chamber two sidewalls between formed an opposing seal impeller cavity, the impeller blade both sides by It takes turns in the double shrouded wheel structure that piece blocks, adjacent two blade, tongue piece, wheel body and blade both sides when tongue piece active edges are to top dead centre The impeller cavity that an opposing seal is formed between piece is taken turns, impeller cavity bottom wheel on piece has stomata with the secondary chamber on wheel chamber side wall Air inlet is corresponding simultaneously to be communicated, and the impeller blade is in the half-closed blade construction blocked on one side by wheel piece, when tongue piece active edges Shape between adjacent two blade, tongue piece, wheel body and the wheel piece on blade one side and the wheel chamber side wall of blade another side when to top dead centre At the impeller cavity of an opposing seal.

This wheeled acting device can be adapted for various high-energy fluids and do work, below only with certain temperature and pressure High energy gas is representative to briefly explain its working principle, and when acting, high energy gas is through shell lubrication groove chamber air intake duct, wheel chamber air inlet Mouth, control valve spray into wheel chamber, the high energy when not having movable tongue on the impeller blade of novel wheel-type acting device, at air inlet Gas be referred to herein as the first high energy gas initially enter wheel chamber air inlet at impeller cavity in here for the time being be known as the first leaf Cavity is taken turns, the first high energy gas hits the front vane of the first impeller cavity, releases energy and push away to the front vane of the first impeller cavity Dynamic front vane makes wheel rotation, and at this time since impeller has just started, the load acted on impeller is larger, and wheel rotation is slower, First high energy gas is reduced by the blocking flow velocity of the first impeller cavity front vane, is taken turns the first high energy gas at chamber air inlet and is continued Spray into the first impeller cavity, pressure increases rapidly in the first impeller cavity, when secondary chamber be intrados radian with impeller wheel chamber outside When the identical semicircular arc pair chamber of round cambered surface radian, first segment semicircular arc pair chamber is turned in the first impeller cavity front vane When abbreviated here as the first secondary chamber air inlet, the first high energy gas in the first impeller cavity is sprayed through the first secondary chamber air inlet high speed It is intracavitary to enter lower first pair of pressure, the first high energy gas pressure reduction in the first impeller cavity, the first secondary cavity pressure liter Height, the first high energy gas is after the first preceding first impeller cavity of secondary intracavitary leap forward is referred to herein as negative one impeller cavity Impeller wheel chamber is sprayed into through the first secondary chamber puff prot and hits preceding second impeller cavity referred to here as two impeller cavities that are negative Front vane releases energy to preceding minus two impeller cavities front vane and pushes impeller rotation acting, the first high energy gas after acting Body enters in minus two impeller cavity, with the rotation of impeller, when minus two impeller cavities front vane turns to second segment semicircular arc When secondary chamber is abbreviated here as the second secondary chamber, the first high energy gas in minus two impeller cavity is sprayed into through the second secondary chamber air inlet again Pressure lower second is secondary intracavitary, and the high energy gas pressure in minus two impeller cavity reduces, and the second secondary cavity pressure increases, and first High energy gas is secondary intracavitary forward across negative trilobed wheel cavity through the second secondary chamber puff prot penetrating lower minus four leaf of pressure second It makes a turn intracavitary and hits minus four impeller cavities front vane, release energy to preceding minus four impeller cavities front vane and impeller is pushed to revolve Turn acting, when the first impeller cavity rear blade turns over impeller wheel chamber air inlet, the high energy gas at impeller wheel chamber air inlet is not It enters back into the first impeller cavity, the first high energy gas in the first impeller cavity sprays into the first secondary chamber through the first secondary chamber air inlet Pressure relative reduction after interior, with the rotation of impeller, the first high energy gas in the first impeller cavity is by multiple disengaging circular arc Shape pair chamber is reduced to time energy gas and as impeller cavity is rotated to impeller wheel chamber exhaust outlet, through leaf after releasing energy to impeller blade Wheel wheel chamber exhaust outlet enters exhaust duct discharge, equally, when the first impeller cavity rear blade turns over impeller wheel chamber air inlet, impeller We will be referred to as the second high energy gas at this time for high energy gas at wheel chamber air inlet, and the second high energy gas will continue to spray into pressure In lower second impeller cavity, continue to hit the second impeller cavity front vane for just having turned over impeller wheel chamber air inlet namely First impeller cavity rear blade, the second high energy gas releases energy to the second impeller cavity front vane to be pushed impeller persistently to rotate to do Function, the second high energy gas warp when the second impeller cavity front vane turns to the first secondary chamber air inlet, in the second impeller cavity First secondary chamber air inlet high speed sprays into first relatively low secondary intracavitary, the second high energy gas pressure in the second impeller cavity of pressure Power decline, the first secondary cavity pressure increase again, and the second high energy gas is secondary intracavitary forward across the first impeller cavity warp first First secondary chamber fumarole, which sprays to form high-speed flow beam and hit preceding second impeller cavity, is referred to herein as negative one impeller sky The front vane of chamber releases energy to preceding negative one impeller cavity front vane and pushes impeller rotation acting, when the second impeller cavity When rear blade continues to revolve through impeller wheel chamber air inlet, the high energy gas at impeller wheel chamber air inlet does not enter back into the second impeller equally In cavity, the second high energy gas in the second impeller cavity spray into first it is secondary it is intracavitary after pressure decline, the second high energy gas with The rotation of impeller, which also passes through repeatedly to pass in and out, is reduced to time energy gas and with leaf after secondary chamber releases energy to preceding impeller blade Wheel cavity is rotated to impeller wheel chamber exhaust outlet, enters exhaust duct discharge through impeller wheel chamber exhaust outlet, with the lasting rotation of impeller, High energy gas at impeller wheel chamber air inlet will sequentially enter in each impeller cavity passed through below, behind each impeller cavity Interior high energy gas with the high energy gas in the first, second impeller cavity equally constantly disengaging semicircular arc pair chamber do it is identical Acting movement just enters exhaust duct row through impeller wheel chamber exhaust outlet when rotating with impeller cavity to impeller wheel chamber exhaust outlet Out.When secondary chamber is semi-circular pair chamber, the skewed C-shaped pair chamber of first segment is turned to here referred to as in the first impeller cavity front vane For the first secondary chamber air inlet when, the first high energy gas in the first impeller cavity is from first the first secondary chamber of impeller cavity two sides Two air inlets high speed spray into first secondary intracavitary, the first high energy gas pressure in the first impeller cavity reduces, the first secondary chamber Interior pressure rise, the first high energy gas secondary intracavitary are rotated to impeller wheel chamber periphery along impeller first along C-shaped both ends air inlet Direction is crossed over forward preceding second skewed C pair chamber and is referred to herein as after the second secondary chamber air inlet among through the first secondary chamber C-shaped Puff prot spray into preceding second impeller cavity of impeller cavity inner impact referred to here as two impeller cavities that are negative front vane, to Preceding minus two impeller cavities front vane, which releases energy, pushes impeller rotation acting, and the first high energy gas after acting enters minus two In impeller cavity, minus two impeller cavities front vane has been pivoted into the skewed C-shaped pair chamber of third section abbreviated here as third at this time Secondary chamber air inlet, the first high energy gas in minus two impeller cavity again from minus two impeller cavity two sides through third pair chamber both ends into Port penetrating third pair is intracavitary, and the high energy gas pressure in minus two impeller cavity reduces again, and third pair cavity pressure increases, the One high energy gas is sprayed in the secondary intracavitary puff prot forward across fourth officer chamber air inlet through third pair chamber in C-shaped middle position of third Enter the preceding minus four impeller cavities front vane of impeller cavity inner impact, releases energy and push away to preceding minus four impeller cavities front vane The rotation acting of movable vane wheel, the height when the first impeller cavity rear blade turns over impeller wheel chamber air inlet, at impeller wheel chamber air inlet Can gas do not enter back into the first impeller cavity, the first high energy gas in the first impeller cavity through the first secondary chamber C-shaped both ends into Port sprays into the first secondary intracavitary rear pressure reduction, and with the rotation of impeller, the first high energy gas is repeatedly passed in and out skewed C-shaped pair Chamber is reduced to time energy gas and as impeller cavity is rotated to impeller wheel chamber exhaust outlet, through impeller wheel after releasing energy to impeller blade Chamber exhaust outlet enters exhaust duct discharge, equally, when the first impeller cavity rear blade turns over impeller wheel chamber air inlet, impeller wheel chamber We will be referred to as the second high energy gas at this time for high energy gas at air inlet, and the second high energy gas will continue to spray into the second impeller In cavity, continue after hitting the second impeller cavity front vane namely the first impeller cavity for just having turned over impeller wheel chamber air inlet Blade, the second high energy gas releases energy to the second impeller cavity front vane pushes impeller persistently to rotate acting, when the second impeller When cavity front vane turns to the first secondary two air inlet of chamber, the second high energy gas in the second impeller cavity through the first secondary chamber two into Port high speed sprays into first secondary intracavitary, the second high energy gas pressure reduction in the second impeller cavity, the first secondary cavity pressure liter Height, the second high energy gas secondary intracavitary cross over forward the second secondary chamber air inlet along impeller direction of rotation to impeller wheel chamber periphery first Mouth sprays into preceding second impeller cavity of impeller cavity inner impact through the first secondary chamber puff prot and is referred to herein as negative one impeller cavity Front vane, release energy to preceding negative one impeller cavity front vane push impeller rotation acting, after the second impeller cavity When blade continues to revolve through impeller wheel chamber air inlet, the high energy gas at impeller wheel chamber air inlet does not enter back into the second impeller sky equally Intracavitary, the second high energy gas in the second impeller cavity sprays into the first secondary intracavitary rear pressure reduction, and the second high energy gas is with leaf The rotation of wheel, which is equally repeatedly passed in and out, is reduced to time energy gas after secondary chamber releases energy to impeller blade and as impeller cavity rotates To impeller wheel chamber exhaust outlet, enter exhaust duct discharge through impeller wheel chamber exhaust outlet, with the lasting rotation of impeller, impeller wheel chamber into High energy gas at port will be gone successively in each impeller cavity passed through below, behind high energy gas in each impeller cavity Body passes in and out the same with the high energy gas in the first, second impeller cavity skewed C-shaped pair chamber repeatedly to do identical acting dynamic Make, when rotating with impeller cavity to impeller wheel chamber exhaust outlet, just enters exhaust duct discharge through impeller wheel chamber exhaust outlet.Work as circle When the secondary intracavitary arc surface of arc is less than impeller wheel chamber exterior arc surface, the first high energy gas at impeller wheel chamber air inlet is initially entered Hit the first impeller cavity front vane in first impeller cavity for the first time, the first high energy gas is to the first impeller cavity front vane the It once releases energy and the first impeller cavity front vane is pushed to make wheel rotation, the first high energy gas is by the first impeller cavity frontal lobe The blocking flow velocity of piece reduces pressure and gos up, when the first impeller cavity front vane turns to the first arc-shaped secondary chamber, the first impeller The first high energy gas in cavity is arc-shaped through the first arc-shaped secondary chamber air inlet penetrating first along the first impeller cavity front vane Secondary intracavitary, the first arc-shaped secondary cavity pressure increases, and the first high energy gas is due to the receipts that are narrowed by the first arc-shaped secondary chamber at this time It holds back shape cavity wall about beam acceleration and forms high-speed flow beam, the pressure energy of the first high energy gas is at flow velocity energy, high-speed flow beam First impeller cavity crossed over forward before the first impeller cavity along the first arc-shaped secondary chamber we be known as negative one impeller cavity Then second impeller cavity before the first impeller cavity is hit through the first arc-shaped secondary chamber most narrow end puff prot high speed ejection We are known as the front vane of minus two impeller cavity, release energy to minus two impeller cavities front vane and push minus two impeller cavities frontal lobe Piece makes impeller rotation acting, and flow velocity is lowered into minus two impeller cavity after high-speed flow beam hits minus two impeller cavities front vane Interior, pressure rise in minus two impeller cavity, with the rotation of impeller, the first high energy gas in minus two impeller cavity is again along negative Two impeller cavity front vanes continue on through the second arc-shaped secondary chamber air inlet intracavitary, the second arc-shaped pair chamber that sprays into the second arc-shaped pair Interior pressure rise, the first high energy gas continue the acceleration formation high speed again that narrows with the convergent contour cavity wall of the second arc-shaped secondary chamber Air flow stream, high-speed flow beam is along the second arc-shaped secondary chamber forward across negative trilobed wheel cavity through the second arc-shaped secondary chamber most narrow end spray Port high speed ejection directly hits the front vane of preceding minus four impeller cavity, releases energy and pushes away to minus four impeller cavities front vane Moving minus four impeller cavities front vane makes impeller rotation acting, and flow velocity reduces after high-speed flow beam hits minus four impeller cavities front vane And entering minus four impeller cavity, pressure rises in minus four impeller cavity, with the lasting rotation of impeller, in minus four impeller cavity It is arc-shaped that first high energy gas will spray into third through the arc-shaped secondary chamber air inlet of third along minus four impeller cavities front vane for the third time Secondary intracavitary, the first high energy gas accelerates to form high-speed flow again as the convergent contour cavity wall of the arc-shaped secondary chamber of third continues to narrow Beam, high-speed flow beam cross over forward minus five impeller cavity through the arc-shaped secondary chamber most narrow end puff prot of third along the arc-shaped secondary chamber of third High speed ejection hits the front vane of preceding minus six impeller cavity, releases energy to minus six impeller cavities front vane and pushes minus six leaf Wheel cavity front vane makes impeller rotation acting, and flow velocity is lowered into negative after the minus six impeller cavities front vane of high-speed flow beam shock In six impeller cavities, pressure rises in minus six impeller cavity, continues to rotate with impeller, the first high energy gas successively passes through It crosses impeller cavity and enters the preceding impeller blade of secondary chamber formation high-speed flow Shu Bingjing pair chamber puff prot ejection shock, until impeller When taking turns chamber exhaust outlet, the first high energy gas after being repeated several times and releasing energy becomes low energy gases by impeller wheel chamber exhaust outlet Be discharged into exhaust duct, with the rotation of impeller, the first impeller cavity rear blade turns over impeller wheel chamber air inlet, impeller wheel chamber into High energy gas at port does not enter back into the first impeller cavity, and the first impeller cavity rear blade turns over the same of impeller wheel chamber air inlet When, the second high energy gas at impeller wheel chamber air inlet will continue to spray into the shock of the second impeller cavity just turned over impeller wheel chamber into First impeller cavity rear blade of port namely the second impeller cavity front vane, the second high energy gas is to before the second impeller cavity Blade releases energy for the first time and pushes the second impeller cavity front vane that impeller is made to continue rotation acting, before the second impeller cavity When blade turns to the first arc-shaped secondary chamber air inlet, it is high that the second high energy gas in the second impeller cavity repeats front first The acting of energy gas acts, and the second high energy gas in the second impeller cavity sprays into the first circular arc along the second impeller cavity front vane As the acceleration that continues to narrow of the convergent contour pair cavity wall of the first arc-shaped secondary chamber forms high-speed flow beam in shape pair chamber air inlet, second The pressure energy of high energy gas crosses over forward the first impeller cavity along the first arc-shaped secondary chamber at flow velocity energy, high-speed flow beam First impeller cavity before the first impeller cavity is directly hit through the first arc-shaped secondary chamber most narrow end puff prot high speed ejection We are known as the front vane of negative one impeller cavity, release energy to negative one impeller cavity front vane and push negative one impeller cavity frontal lobe Piece makes impeller rotation acting, turns over impeller wheel chamber air inlet, impeller wheel chamber air inlet not yet in the rear blade of the second impeller cavity High energy gas at mouthful will continue into the second impeller cavity, and high-speed flow beam hits flow velocity after negative one impeller cavity front vane Being lowered into negative one impeller cavity increases cavity pressure, and with the rotation of impeller, second in negative one impeller cavity is high Can gas continue to spray into the second arc-shaped secondary chamber air inlet along negative one impeller cavity front vane again, the second high energy gas with The convergent contour cavity wall of second arc-shaped secondary chamber continues the acceleration formation high-speed flow beam again that narrows, and high-speed flow beam is along the second circular arc It is straight through arc-shaped secondary chamber most narrow end puff prot high speed ejection through the second arc-shaped secondary chamber that shape pair chamber crosses over forward minus two impeller cavity The front vane for hitting preceding negative trilobed wheel cavity is connect, releases energy to negative trilobed wheel cavity front vane and pushes negative trilobed wheel cavity Front vane makes impeller rotation acting, and flow velocity is lowered into negative trilobed wheel after high-speed flow beam hits negative trilobed wheel cavity front vane Increase cavity pressure in cavity, with the rotation of impeller, the second high energy gas in negative trilobed wheel cavity equally will be along minus three Impeller cavity front vane is intracavitary through the arc-shaped secondary chamber air inlet penetrating arc-shaped pair of third of third, and the second high energy gas is with third The convergent contour cavity wall of arc-shaped pair chamber continues the acceleration formation high-speed flow beam again that narrows, and high-speed flow beam is along the arc-shaped pair of third Chamber hits forward the front vane of preceding minus five impeller cavity through arc-shaped secondary chamber most narrow end puff prot high speed ejection, to minus five leaf Wheel cavity front vane, which releases energy, pushes minus five impeller cavities front vane to make impeller rotation acting, and high-speed flow beam hits minus five leaf Flow velocity is lowered into minus five impeller cavity pressure rise in minus five impeller cavity made, the second high energy after wheel cavity front vane Gas equally enters secondary chamber continuously across impeller cavity and hits preceding impeller blade again, until with impeller cavity to impeller wheel chamber When exhaust outlet, the second high energy gas after being repeated several times and releasing energy becomes low energy gases and enters by impeller wheel chamber exhaust outlet Exhaust duct discharge, as rotation the second impeller cavity rear blade of impeller turns over impeller wheel chamber air inlet, impeller wheel chamber air inlet The third high energy gas at place will continue to spray into third impeller cavity, and third high energy gas, which continues to hit, has just turned over impeller wheel chamber The the second impeller cavity rear blade i.e. third impeller cavity front vane of air inlet, third high energy gas is to third impeller cavity Front vane releases energy for the first time and pushes third impeller cavity front vane that impeller is made to continue rotation acting, with continuing for impeller Rotation, the acting movement that subsequent each high energy gas equally repeats front high energy gas constantly passes in and out secondary chamber, until with impeller When cavity is to impeller wheel chamber exhaust outlet, each high energy gas becomes low energy gases after the acting that continuously releases energy and arranges through exhaust duct Out.When secondary chamber is spiral type pair chamber, the first high energy gas at impeller wheel chamber air inlet is initially entered in the first impeller cavity The front vane of the first impeller cavity is hit for the first time, and the first high energy gas discharges energy to the front vane of the first impeller cavity for the first time It measures and the first impeller cavity front vane is pushed to make wheel rotation, blocking stream of first high energy gas by the first impeller cavity front vane Speed is lowered into the first impeller cavity, and the high energy gas at impeller wheel chamber air inlet goes successively to the first impeller cavity, the High energy gas pressure increases rapidly in one impeller cavity, when the first impeller cavity front vane turns to the first spiral type pair chamber, Water conservancy diversion re-entrant angle of first high energy gas on the first impeller cavity front vane top margin in first impeller cavity sprays into first and is vortexed The secondary intracavitary formation convolution vortex of shape, the first high energy gas flow velocity increases and as the convergent contour of the first Scrawl pair chamber is vortexed at this time Wall continues to narrow and accelerates to be formed high speed convolution vortex core, and the pressure energy of the first high energy gas at flow velocity energy, return by high speed Vortex a fluid stream hits the through Scrawl pair chamber most narrow end mouth high speed ejection second along the vortex wall cycle of the first Scrawl pair chamber One impeller cavity front vane releases energy for the second time to the first impeller cavity front vane and blade is pushed to do impeller rotation again Function, since the rear blade of the first impeller cavity at this time turns over impeller wheel chamber air inlet not yet, high-speed eddy beam hits the first leaf Enter in the first impeller cavity together after wheel cavity front vane with the high energy gas then sprayed at impeller wheel chamber air inlet, first The first high energy gas pressure in impeller cavity rises, and with the rotation of impeller, the first impeller cavity rear blade turns over impeller wheel Chamber air inlet, the high energy gas at impeller wheel chamber air inlet do not enter back into the first impeller cavity, while before the first impeller cavity Blade is rotated to the second Scrawl pair chamber, the first high energy gas in the first impeller cavity will second before the first impeller cavity It sprays into secondary intracavitary the is formationed convolution of the second Scrawl and is vortexed for second of water conservancy diversion re-entrant angle on blade top margin, the in the first impeller cavity One high energy gas pressure reduces, and second of the first high energy gas secondary intracavitary as the second Scrawl pair chamber is restrained in the second Scrawl Shape vortex wall narrows and accelerates to be formed high speed convolution vortex core, spirotheca cycle of the high speed convolution vortex core along the second Scrawl pair chamber It is sprayed through the second Scrawl pair chamber most narrow end mouth and third time is hit into the first impeller cavity front vane, the first high energy gas is to first Impeller cavity front vane third time releases energy and blade is pushed to make impeller rotation acting, with the rotation of impeller, the first high energy Gas is every in the first impeller cavity to pass through a Scrawl pair chamber just with noted earlier in the secondary intracavitary formation one of Scrawl Secondary convolution vortex, convolution vortex all will discharge primary energy to the first impeller cavity front vane every time, until with the first impeller sky When chamber rotates to impeller wheel chamber exhaust outlet, the first high energy gas becomes low energy gases by impeller after being repeated several times and releasing energy Wheel chamber exhaust outlet enters exhaust duct discharge.While first impeller cavity rear blade turns over impeller wheel chamber air inlet, impeller wheel chamber High energy gas at air inlet we be referred to herein as the second high energy gas and will continue to spray into the shock of the second impeller cavity just to have turned Cross the first impeller cavity rear blade namely the second impeller cavity front vane of impeller wheel chamber air inlet, the second high energy gas is to Two impeller cavity front vanes release energy for the first time and push the second impeller cavity front vane that impeller is made to continue rotation and do work, and second When impeller cavity front vane turns to the first spiral type pair chamber, the second high energy gas in the second impeller cavity will repeat front The acting of first high energy gas acts, and the second high energy gas in the second impeller cavity is along the second impeller cavity front vane top margin Water conservancy diversion re-entrant angle spray into secondary intracavitary the is formationed convolution vortex of the first Scrawl, the second high energy gas the first Scrawl pair it is intracavitary with The convergent contour vortex wall of first Scrawl pair chamber continues to narrow and accelerates to form high speed convolution vortex core, the pressure of the second high energy gas Power can be transformed to flow velocity energy, and high speed convolution vortex core is most narrow through Scrawl pair chamber along the vortex wall cycle of the first Scrawl pair chamber Second of the second impeller cavity front vane of shock of port high speed ejection, releases energy simultaneously for the second time to the second impeller cavity front vane The second impeller cavity front vane is pushed to make impeller rotation acting, since the rear blade of the second impeller cavity at this time turns over leaf not yet Wheel wheel chamber air inlet, high-speed eddy beam hit the second impeller cavity front vane after with the height then sprayed at impeller wheel chamber air inlet Energy gas enters together in the second impeller cavity, the second high energy gas pressure rise in the second impeller cavity, with impeller Rotation, the second impeller cavity rear blade turn over impeller wheel chamber air inlet, and the high energy gas at impeller wheel chamber air inlet does not enter back into Second impeller cavity, while the second impeller cavity front vane is rotated to the second Scrawl pair chamber, second in the second impeller cavity Second of the high energy gas water conservancy diversion re-entrant angle on the second impeller cavity front vane top margin sprays into the secondary intracavitary shape of the second Scrawl again It is vortexed at convolution, the second high energy gas pressure in the second impeller cavity reduces, and the second high energy gas is in the second Scrawl pair chamber It is interior as the acceleration that narrows of the second Scrawl pair chamber convergent contour vortex wall forms high speed convolution vortex core, high speed circles round vortex core along the The spirotheca cycle of two Scrawl pair chambers sprays third time through the second Scrawl pair chamber most narrow end mouth and hits the second impeller cavity frontal lobe Piece, the second high energy gas release energy to the second impeller cavity front vane third time and the second impeller cavity front vane are pushed to make leaf Wheel rotation acting, with the rotation of impeller, the second high energy gas every warp in the second impeller cavity as the first high energy gas It crosses a Scrawl pair chamber and just discharges primary energy to the second impeller cavity front vane, until rotating to leaf with the second impeller cavity When wheel wheel chamber exhaust outlet, the second high energy gas after releasing energy is repeated several times and has become low energy gases by impeller wheel chamber row Port enters exhaust duct discharge, when the second impeller cavity rear blade turns over impeller wheel chamber air inlet, at impeller wheel chamber air inlet High energy gas we be referred to herein as third high energy gas will continue spray into third impeller cavity in, third high energy gas continue The the second impeller cavity rear blade i.e. third impeller cavity front vane for just having turned over impeller wheel chamber air inlet are hit, third is high Energy gas releases energy for the first time to third impeller cavity front vane and pushes third impeller cavity front vane that impeller is made to continue to revolve Turn acting, third high energy gas repeats to do identical acting movement as preceding first, second high energy gas, with leaf The lasting rotation of wheel, the acting that subsequent each high energy gas into each impeller cavity equally repeats front high energy gas are dynamic Make, the impeller cavity front vane towards respective place repeats to discharge energy, until rotating to impeller wheel chamber with impeller cavity When exhaust outlet, each high energy gas becomes low energy gases after continuously repeating and releasing energy and is discharged through exhaust duct.When secondary chamber is spiral shell When rotation type pair chamber, the first high energy gas at impeller wheel chamber air inlet initially enters hits first for the first time in the first impeller cavity Impeller cavity front vane, the first high energy gas release energy for the first time to the first impeller cavity front vane and push the first impeller empty Chamber front vane makes wheel rotation, and the first high energy gas is reduced pressure by the blocking flow velocity of the first impeller cavity front vane and gone up, when When first impeller cavity front vane turns to the first screw type pair chamber, the first high energy gas in the first impeller cavity is through the first spiral shell Rotation type pair chamber air inlet enter the first screw type pair it is intracavitary, at this time the first high energy gas with the first screw type pair chamber convergent contour Helical cavity accelerates to form high-speed flow beam, the pressure energy of the first high energy gas in the first impeller cavity at flow velocity energy, High-speed flow beam is rotated outwardly to forward above impeller wheel chamber periphery through the first screw type pair chamber most along the first screw type pair chamber Narrow end puff prot high speed ejection hit the first impeller cavity before the second impeller cavity we be known as minus two impeller cavity before Blade releases energy to minus two impeller cavities front vane and minus two impeller cavities front vane is pushed to make impeller rotation acting, due to this When the first impeller cavity rear blade turn over impeller wheel chamber air inlet not yet, high energy gas at impeller wheel chamber air inlet continues Into in the first impeller cavity, flow velocity is lowered into minus two impellers sky after high-speed flow beam hits minus two impeller cavities front vane Intracavitary increase pressure in minus two impeller cavity, the first high energy gas in minus two impeller cavity is again through the second screw type pair chamber Air inlet continue spray into the second screw type pair it is intracavitary, the first high energy gas with the second screw type pair chamber spiral convergence shape cavity Accelerate to form high-speed flow beam again and be rotated radially outwardly to forward above impeller wheel chamber periphery, it is most narrow through the second screw type pair chamber End puff prot high speed ejection hits the front vane of preceding minus four impeller cavity, releases energy and pushes away to minus four impeller cavities front vane Moving minus four impeller cavities front vane makes impeller rotation acting, and flow velocity reduces after high-speed flow beam hits minus four impeller cavities front vane And entering in minus four impeller cavity rises pressure, the first high energy gas in minus four impeller cavity is by the Three times through third screw type pair chamber air inlet continue spray into third screw type pair it is intracavitary, the first high energy gas is with third screw type The spiral convergence shape cavity of secondary chamber again speeds up to form high-speed flow beam and be rotated radially outwardly to forward above impeller wheel chamber periphery, The front vane that preceding minus four impeller cavity is hit through third screw type pair chamber most narrow end puff prot high speed ejection, to minus four impeller Cavity front vane, which releases energy, pushes minus four impeller cavities front vane to make impeller rotation acting, and high-speed flow beam hits minus four impeller Flow velocity is lowered into minus four impeller cavity after cavity front vane, and with the slow rotation of impeller, the first high energy gas is continuous Constantly enter secondary intracavitary and along screw type pair chamber the spiral convergence shape of screw type by impeller cavity, screw type pair chamber air inlet Cavity, which accelerates to form high-speed flow Shu Xiangqian, to be rotated radially outwardly to above impeller wheel chamber periphery, through screw type pair chamber most narrow end jet Mouthful high speed ejection hits preceding impeller blade, when arriving impeller wheel chamber exhaust outlet with impeller cavity, releases through multiplicating The first high energy gas after exoergic amount becomes low energy gases and enters exhaust duct discharge by impeller wheel chamber exhaust outlet, while with leaf The rotation of wheel, the first impeller cavity rear blade turn over impeller wheel chamber air inlet, and the high energy gas at impeller wheel chamber air inlet is no longer Into the first impeller cavity, while the first impeller cavity rear blade turns over impeller wheel chamber air inlet, at impeller wheel chamber air inlet The second high energy gas will continue to spray into the second impeller cavity to hit and just turned over the first impeller cavity of impeller wheel chamber air inlet Rear blade namely the second impeller cavity front vane, the second high energy gas release energy for the first time to the second impeller cavity front vane And push the second impeller cavity front vane that impeller is made to continue rotation acting, when the second impeller cavity front vane turns to the first spiral When type pair chamber air inlet, the second high energy gas in the second impeller cavity repeats the acting movement of the first high energy gas of front, It is secondary intracavitary and along screw type pair chamber that second high energy gas also passes through impeller cavity, screw type pair chamber air inlet enters screw type Spiral convergence shape cavity accelerate to form high-speed flow Shu Xiangqian and be rotated radially outwardly to above impeller wheel chamber periphery, through screw type pair Chamber most narrow end puff prot high speed ejection hits preceding impeller blade, when with impeller cavity to impeller wheel chamber exhaust outlet, The first high energy gas after being repeated several times and releasing energy becomes low energy gases and enters exhaust duct row by impeller wheel chamber exhaust outlet Out, subsequent each high energy gas equally repeats the acting movement of front high energy gas, arranges until with impeller cavity to impeller wheel chamber When port, each high energy gas becomes low energy gases after the acting that continuously releases energy and is discharged through exhaust duct, is described again here.

High energy gas when having movable tongue on the impeller blade of novel wheel-type acting device, at impeller wheel chamber air inlet It hits the foremost impeller cavity i.e. front vane of the first impeller cavity and pushes the work on the first impeller cavity impeller blade simultaneously Dynamic tongue piece slide downward, at this time since impeller has just started, the load acted on impeller is larger, and wheel rotation is slower, effect Centrifugal force on movable tongue is weaker, and movable tongue slides down to extreme lower position, high energy gas under the pressure of high energy gas Body releases energy to the front vane of the first impeller cavity pushes front vane to make wheel rotation, and high energy gas is due to by the first impeller sky The blocking flow velocity of chamber front vane reduces, and takes turns the high energy gas at chamber air inlet and continues to spray into the first impeller cavity, makes the first leaf It makes a turn cavity pressure to increase rapidly, when secondary chamber is arc-shaped shape pair chamber, when the first impeller cavity front vane turns to arc-shaped pair When the first segment pair chamber of chamber is known as the first secondary chamber air inlet, the high energy gas in the first impeller cavity is through the first secondary chamber air inlet spray Enter first secondary intracavitary, the first secondary cavity pressure increases, and first secondary the first intracavitary high energy gas secondary intracavitary is crossed over forward first Negative one impeller cavity before first impeller cavity is sprayed through the first secondary chamber puff prot hits preceding minus two impeller cavities frontal lobe Piece pushes down on the movable tongue downlink on minus two impeller cavities blade simultaneously, and the first high energy gas is empty to preceding minus two impeller Chamber front vane, which releases energy, pushes impeller rotation acting, and the first high energy gas discharges energy to preceding minus two impeller cavities front vane Enter in minus two impeller cavity after amount acting, when the first impeller cavity rear blade turns over wheel chamber air inlet, takes turns at chamber air inlet High energy gas do not enter back into the first impeller cavity, movable tongue under the influence of centrifugal force upward sliding accelerate push first The first high energy gas in impeller cavity is secondary intracavitary into first, and first secondary the first intracavitary high energy gas is through the first secondary chamber jet Mouth, which sprays, to be continued to release energy to preceding impeller blade, and the first high energy gas is reduced to after repeatedly passing in and out secondary chamber and releasing energy It is secondary can gas and as impeller cavity is rotated to impeller wheel chamber exhaust outlet, enter exhaust duct discharge through impeller wheel chamber exhaust outlet.Together Sample, when the first impeller cavity rear blade turns over impeller wheel chamber air inlet, high energy gas at impeller wheel chamber air inlet we will Referred to as the second high energy gas, the second high energy gas, which will continue to hit subsequent impeller cavity, is referred to herein as the second impeller cavity Front vane simultaneously pushes the movable tongue on the second impeller cavity blade to make movable tongue slide downward simultaneously, and movable tongue is in high energy Slide down to extreme lower position under the pressure of gas, the second high energy gas releases energy promotion to the front vane of the second impeller cavity Front vane makes wheel rotation, and the second high energy gas is due to the blocking flow velocity reduction by the second impeller cavity front vane, impeller wheel chamber High energy gas at air inlet will persistently spray into the second impeller cavity, increase pressure in the second impeller cavity rapidly, and second When impeller cavity front vane turns to the first secondary chamber air inlet, the second high energy gas in the second impeller cavity through the first secondary chamber into Port high speed spray into it is first secondary intracavitary, the second high energy gas first it is secondary it is intracavitary forward across after the first impeller cavity through the first pair Chamber puff prot, which sprays, to be hit preceding negative one impeller cavity front vane and pushes down on the work on negative one impeller cavity blade simultaneously Dynamic tongue piece downlink, the second high energy gas releases energy to preceding negative one impeller cavity front vane pushes impeller rotation acting, does The second high energy gas after function enters in negative one impeller cavity, increases pressure in negative one impeller cavity rapidly, and negative one impeller is empty When chamber front vane turns to the second secondary chamber air inlet, the movable tongue on negative one impeller cavity blade adds under the influence of centrifugal force Speed pushes up the second high energy gas in negative one impeller cavity and sprays into second secondary intracavitary, and the second high energy gas is secondary intracavitary second Preceding negative trilobed wheel cavity front vane and simultaneously is hit across being sprayed after minus two impeller cavity through the second secondary chamber puff prot forward Push down on the movable tongue downlink on negative trilobed wheel cavity blade, the second high energy gas is to preceding negative trilobed wheel cavity frontal lobe Piece releases energy and pushes impeller rotation acting, and the second high energy gas after acting enters in negative trilobed wheel cavity, when the second leaf When wheel cavity rear blade turns over wheel chamber air inlet, the high energy gas at impeller wheel chamber air inlet does not enter back into the second impeller cavity Interior, upward sliding accelerates to push in the second impeller cavity the movable tongue on the second impeller cavity blade under the influence of centrifugal force The second high energy gas enter it is first secondary intracavitary, first secondary the second intracavitary high energy gas through the first secondary chamber puff prot spray to Preceding impeller cavity front vane does work, and the second high energy gas in the second impeller cavity is in every one secondary chamber of process with regard to Xiang Qian Impeller cavity front vane discharge primary energy, be finally reduced to time gas and can be vented as impeller cavity is rotated to impeller wheel chamber Mouthful, enter exhaust duct discharge through impeller wheel chamber exhaust outlet.With the lasting rotation of impeller, the high energy gas taken turns at chamber air inlet is same To be serially entered in each impeller cavity below as before, behind high energy gas in each impeller cavity will with first, the High energy gas in two impeller cavities equally does identical acting movement, is vented until rotating with impeller cavity to impeller wheel chamber When mouth, just enter exhaust duct discharge through impeller wheel chamber exhaust outlet.When secondary chamber is spiral type pair chamber, at impeller wheel chamber air inlet First high energy gas pushes the movable tongue on impeller blade to make movable tongue slide downward, pressure of the movable tongue in high energy gas Extreme lower position is slid down under power, while high energy gas enters the first impeller cavity of first time shock in the first impeller cavity Front vane, the first high energy gas release energy for the first time to the front vane of the first impeller cavity and push the first impeller cavity frontal lobe Piece makes wheel rotation, and the first high energy gas is reduced by the blocking flow velocity of the first impeller cavity front vane, at impeller wheel chamber air inlet High energy gas go successively in the first impeller cavity, increase high energy gas pressure in the first impeller cavity rapidly, when first When impeller cavity front vane turns to the first spiral type pair chamber, the first high energy gas in the first impeller cavity is along the first impeller sky Water conservancy diversion re-entrant angle on chamber front vane top margin sprays into the secondary intracavitary formation convolution vortex of the first spiral type, at this time the first high energy gas flow velocity It increases and as the convergent contour vortex wall of the first Scrawl pair chamber continues to narrow and accelerates to form high speed convolution vortex core, first is high The pressure energy of energy gas is at flow velocity energy, and convolution vortex core is along the vortex wall cycle of the first Scrawl pair chamber through being vortexed at a high speed Second of the first impeller cavity front vane of shock of type pair chamber most narrow end mouth high speed ejection, to second of the first impeller cavity front vane It releases energy and blade is pushed to make impeller rotation acting again, since the rear blade of the first impeller cavity at this time turns over impeller not yet Take turns chamber air inlet, high-speed eddy beam hit the first impeller cavity front vane after with the high energy then sprayed at impeller wheel chamber air inlet Gas enters together in the first impeller cavity, and the first high energy gas pressure in the first impeller cavity rises, with the rotation of impeller Turn, the first impeller cavity rear blade turns over impeller wheel chamber air inlet, and the high energy gas at impeller wheel chamber air inlet does not enter back into the In one impeller cavity, while the first impeller cavity front vane is rotated to the second Scrawl pair chamber, first in the first impeller cavity Second of the high energy gas water conservancy diversion re-entrant angle on the first impeller cavity front vane top margin, second of the second Scrawl pair of penetrating is intracavitary Form convolution vortex, the first high energy gas pressure in the first impeller cavity reduces, movable tongue under the influence of centrifugal force to Upper sliding accelerates to push the first high energy gas in the first impeller cavity to enter the second Scrawl pair chamber, and the second spiral type pair is intracavitary Pressure rise, the first high energy gas are secondary intracavitary as the second Scrawl pair chamber convergent contour vortex wall narrows and adds in the second Scrawl Speed forms high speed convolution vortex core, and high-speed eddy beam is most narrow through the second Scrawl pair chamber along the spirotheca cycle of the second Scrawl pair chamber Port sprays third time and hits the first impeller cavity front vane, and the first high energy gas is released to the first impeller cavity front vane third time Exoergic amount simultaneously pushes blade to make impeller rotation acting, and upward sliding position is higher under the influence of centrifugal force for movable tongue at this time, Volume above first impeller cavity movable tongue is smaller, and the secondary intracavitary high-speed eddy beam of the second Scrawl acts on the first impeller Time on cavity front vane is just longer, and with the rotation of impeller, the first high energy gas is every in the first impeller cavity to pass through one Just the primary high speed convolution of the formation with noted earlier is vortexed and discharges one to the first impeller cavity front vane a Scrawl pair chamber Secondary energy, when the first impeller cavity rotates to impeller wheel chamber exhaust outlet, the first high energy gas releases energy through being repeated several times Become low energy gases afterwards and enters exhaust duct discharge by impeller wheel chamber exhaust outlet.First impeller cavity rear blade turns over impeller wheel chamber While air inlet, the second high energy gas at impeller wheel chamber air inlet will continue to spray to the second impeller cavity the second impeller of promotion Movable tongue downlink on cavity blade simultaneously hits the second impeller cavity front vane, and the second high energy gas is to before the second impeller cavity Blade releases energy for the first time and pushes the second impeller cavity front vane that impeller is made to continue rotation acting, the second high energy after acting Gas enters in the second impeller cavity, and when the second impeller cavity front vane turns to the first spiral type pair chamber, the second impeller is empty The second intracavitary high energy gas repeats the acting movement of the first high energy gas of front, i.e. the second high energy in the second impeller cavity Gas accelerates under the action of the centrifugal force of the movable tongue on the second impeller cavity blade before pushing the second impeller cavity of lower edge Water conservancy diversion re-entrant angle on blade top margin sprays into the secondary intracavitary formation convolution vortex of the first Scrawl, and the second high energy gas is in the first Scrawl The secondary intracavitary convergent contour vortex wall with the first Scrawl pair chamber continues to narrow and accelerates to form high speed convolution vortex core, and second is high The pressure energy of energy gas is at flow velocity energy, and convolution vortex core is along the vortex wall cycle of the first Scrawl pair chamber through being vortexed at a high speed Second of the second impeller cavity front vane of shock of type pair chamber most narrow end mouth high speed ejection, to second of the second impeller cavity front vane Release energy and the second impeller cavity front vane pushed to make impeller rotation acting, due to the second impeller cavity at this time rear blade also Do not turn over impeller wheel chamber air inlet, high-speed eddy beam hit after the second impeller cavity front vane at impeller wheel chamber air inlet with The high energy gas sprayed into afterwards enters together in the second impeller cavity, the second high energy gas pressure rise in the second impeller cavity, Movable tongue slide downward under the pressure effect of the second high energy gas, with the rotation of impeller, the second impeller cavity rear blade Impeller wheel chamber air inlet is turned over, the high energy gas at impeller wheel chamber air inlet does not enter back into the second impeller cavity, while the second leaf Wheel cavity front vane is rotated to the second Scrawl pair chamber, and second of the second high energy gas in the second impeller cavity along the second impeller Water conservancy diversion re-entrant angle on cavity front vane top margin sprays into the secondary intracavitary formation convolution of the second Scrawl again and is vortexed, in the second impeller cavity The second high energy gas pressure reduce, the movable tongue upward sliding on the second impeller cavity blade pushes away under the influence of centrifugal force Dynamic second high energy gas accelerates into that the second Scrawl pair is intracavitary, and the second high energy gas is secondary intracavitary with second in the second Scrawl Scrawl pair chamber convergent contour vortex wall, which narrows, accelerates to be formed high speed convolution vortex core, and high speed convolution vortex core is along the second Scrawl pair The spirotheca cycle of chamber sprays third time through the second Scrawl pair chamber most narrow end mouth and hits the second impeller cavity front vane, due at this time The position of movable tongue is higher, act on for the third time the acceleration distance of the high-speed eddy beam on the second impeller cavity front vane compared with Long, the second high energy gas releases energy to the second impeller cavity front vane third time and the second impeller cavity front vane is pushed to make leaf Wheel rotation acting, with the rotation of impeller, the second high energy gas every warp in the second impeller cavity as the first high energy gas It crosses a Scrawl pair chamber just to form primary convolution vortex and discharge primary energy to the second impeller cavity front vane, until second When impeller cavity rotates to impeller wheel chamber exhaust outlet, the second high energy gas after releasing energy is repeated several times and has become low energy gas Body enters exhaust duct discharge by impeller wheel chamber exhaust outlet, when the second impeller cavity rear blade turns over impeller wheel chamber air inlet, Third high energy gas at impeller wheel chamber air inlet will continue to spray to third impeller cavity, and third high energy gas pushes third impeller Tongue piece downlink on cavity impeller blade and hitting just has turned over the second impeller cavity rear blade of impeller wheel chamber air inlet also just It is third impeller cavity front vane, third high energy gas releases energy for the first time to third impeller cavity front vane and pushes third Impeller cavity front vane makes impeller continue rotation acting, and third high energy gas weighs as preceding first, second high energy gas Identical acting movement is done again, it is subsequent same into each high energy gas in each impeller cavity with the lasting rotation of impeller Sample repeats the acting movement of each high energy gas in front, and the impeller cavity front vane towards respective place repeats to discharge energy, When rotating to impeller wheel chamber exhaust outlet with impeller cavity, each high energy gas becomes low after continuously repeating and releasing energy Energy gas is discharged through exhaust duct.When the intracavitary cambered surface radian of arc-shaped pair is less than impeller outer circular arc degree, at impeller wheel chamber air inlet The first high energy gas push the tongue piece downlink on the first impeller cavity impeller blade first and to hit the first impeller for the first time empty Chamber front vane, the first high energy gas release energy for the first time to the first impeller cavity front vane and push the first impeller cavity frontal lobe Piece makes wheel rotation, and the first high energy gas is gone up by the blocking flow velocity reduction pressure of the first impeller cavity front vane and enters first In impeller cavity, when the first impeller cavity front vane turns to the first arc-shaped secondary chamber, first in the first impeller cavity is high Energy gas sprays into along the first arc-shaped secondary chamber air inlet along the first impeller cavity front vane, at this time first in the first impeller cavity The pressure reduction of high energy gas, uplink pushes the first high energy gas to the movable tongue in the first impeller cavity under the influence of centrifugal force Body accelerates into the first arc-shaped secondary chamber, and the first high energy gas continues to narrow simultaneously with the convergent contour cavity wall of the first arc-shaped secondary chamber Acceleration forms high-speed flow beam, and the pressure energy of the first high energy gas in the first impeller cavity is at flow velocity energy, high speed gas First impeller cavity that a fluid stream is crossed over forward before the first impeller cavity along the first arc-shaped secondary chamber we be known as negative one impeller Then cavity directly hits second before the first impeller cavity through the first arc-shaped secondary chamber most narrow end puff prot high speed ejection We are known as the movable tongue downlink in the front vane and minus two impeller cavity of minus two impeller cavity to impeller cavity, and to minus two Impeller cavity front vane releases energy with the movable tongue in minus two impeller cavity pushes minus two impeller cavities front vane to make impeller Rotation acting, since the rear blade of the first impeller cavity at this time turns over impeller wheel chamber air inlet, impeller wheel chamber air inlet not yet The high energy gas at place is gone successively in the first impeller cavity, and flow velocity reduces after high-speed flow beam hits minus two impeller cavities front vane Pressure is gone up to make the tongue piece downlink in minus two impeller cavity and is entered in minus two impeller cavity, with the rotation of impeller, minus two leaf Making a turn the first intracavitary high energy gas will continue to spray into the second arc-shaped secondary chamber air inlet along minus two impeller cavities front vane, bear The first high energy gas pressure reduction tongue piece in two impeller cavities uplink and accelerates to push minus two impeller under the influence of centrifugal force The first high energy gas in cavity is intracavitary into the second arc-shaped pair, and the pressure energy of the first high energy gas will be transformed to stream again Fast energy, the first high energy gas accelerate to form high-speed flow again as the convergent contour cavity wall of the second arc-shaped secondary chamber continues to narrow Beam, along the second arc-shaped secondary chamber, across first impeller cavity before minus two impeller cavity, we are known as high-speed flow beam forward The frontal lobe of minus four impeller cavity is directly hit after negative trilobed wheel cavity through the second arc-shaped secondary chamber most narrow end puff prot high speed ejection Piece simultaneously pushes movable tongue downlink in minus four impeller cavity, and the first high energy gas releases energy to minus four impeller cavities front vane It pushes minus four impeller cavities front vane to make impeller rotation acting, is acted on since the blocking of movable tongue strengthens high-speed flow beam Forward thrust on minus four impeller cavities front vane, flow velocity reduces pressure after high-speed flow beam hits minus four impeller cavities front vane Go up and push to be advanced under the movable tongue in minus four impeller cavity in minus four impeller cavity again, with the rotation of impeller, The first high energy gas in minus four impeller cavity equally will spray into the third passed through along minus four impeller cavities front vane for the third time In arc-shaped pair chamber air inlet, with doing identical movement as before, the first high energy gas will be successively empty by impeller Chamber enters secondary chamber and hits preceding impeller blade and push movable tongue downlink, when impeller wheel chamber exhaust outlet, is repeated several times The first high energy gas after releasing energy becomes low energy gases and enters exhaust duct discharge by impeller wheel chamber exhaust outlet, likewise as The rotation of impeller, the first impeller cavity rear blade turn over impeller wheel chamber air inlet, and the high energy gas at impeller wheel chamber air inlet is not The first impeller cavity is entered back into, while the first impeller cavity rear blade turns over impeller wheel chamber air inlet, impeller wheel chamber air inlet Second high energy gas at place will continue the movable tongue downlink sprayed in the second impeller cavity the second impeller cavity of promotion and hit The first impeller cavity rear blade namely the second impeller cavity front vane of impeller wheel chamber air inlet, the second high energy gas are just turned over Body releases energy for the first time to the second impeller cavity front vane and pushes the second impeller cavity front vane that impeller is made to continue rotation and does Function, the second high energy when the second impeller cavity front vane turns to the first arc-shaped secondary chamber air inlet, in the second impeller cavity Gas repeats the acting movement of the first high energy gas of front, and the second high energy gas in the second impeller cavity is along the second impeller sky Chamber front vane sprays into the first arc-shaped secondary chamber air inlet to be added as the convergent contour pair cavity wall of the first arc-shaped secondary chamber continues to narrow Speed forms high-speed flow beam, and the pressure energy of the second high energy gas is at flow velocity energy, and high-speed flow beam is along the first arc-shaped pair Then chamber crosses over forward the first impeller cavity before the second impeller cavity through the first arc-shaped secondary chamber most narrow end puff prot high speed The negative one impeller cavity front vane hit before the first impeller cavity is sprayed, is released energy promotion to negative one impeller cavity front vane Negative one impeller cavity front vane makes impeller rotation acting, since the rear blade of the second impeller cavity at this time turns over impeller wheel not yet Chamber air inlet, the high energy gas at impeller wheel chamber air inlet are gone successively in the second impeller cavity, and high-speed flow beam hits negative one Flow velocity reduces pressure rise and forces movable tongue downlink and enter in negative one impeller cavity after impeller cavity front vane, with impeller Rotation, when negative one impeller cavity front vane turns to the second arc-shaped secondary chamber air inlet, in negative one impeller cavity second High energy gas is sprayed into along negative one impeller cavity front vane through the second arc-shaped secondary chamber air inlet again under the promotion of movable tongue Second arc-shaped pair is intracavitary, and the second high energy gas continues the acceleration shape again that narrows with the convergent contour cavity wall of the second arc-shaped secondary chamber At high-speed flow beam, high-speed flow beam crosses over forward minus two impeller cavity through the second arc-shaped secondary chamber most along the second arc-shaped secondary chamber Narrow end puff prot high speed ejection hits the front vane of negative trilobed wheel cavity, releases energy and pushes to negative trilobed wheel cavity front vane Negative trilobed wheel cavity front vane makes impeller rotation acting, and flow velocity reduces pressure after high-speed flow beam hits negative trilobed wheel cavity front vane Power is gone up and forced in negative trilobed wheel cavity to be advanced into negative trilobed wheel cavity under movable tongue, in the case where impeller persistently rotates, is made Risen with the centrifugal force of the movable tongue on negative trilobed wheel cavity, the second high energy gas in negative trilobed wheel cavity is in movable tongue Promotion under will third time accelerate to spray into third circular arc through the arc-shaped secondary chamber air inlet of third along negative trilobed wheel cavity front vane Shape pair is intracavitary, and the second high energy gas again speeds up to form high-speed flow beam with the arc-shaped secondary chamber convergent contour cavity of third, high speed Air flow stream along the arc-shaped secondary chamber of third crosses over forward minus four impeller cavity and through the arc-shaped secondary chamber most narrow end puff prot high speed of third The front vane for hitting minus five impeller cavity is sprayed, releases energy to minus five impeller cavities front vane and pushes minus five impeller cavities frontal lobe Piece makes impeller rotation acting, and the second high energy gas repeats to do the identical acting movement with front, continuously enters through impeller cavity Secondary chamber sprays through secondary chamber puff prot hit preceding impeller blade again, until reaching impeller wheel chamber exhaust outlet with impeller cavity When, the second high energy gas after being repeated several times and releasing energy has become low energy gases and enters exhaust by impeller wheel chamber exhaust outlet Road discharge, with the rotation of impeller, when the second impeller cavity rear blade turns over impeller wheel chamber air inlet, at impeller wheel chamber air inlet Third high energy gas will continue to spray in third impeller cavity, third high energy gas continues to press on the work in third impeller cavity Dynamic tongue piece downlink simultaneously hits the second impeller cavity rear blade i.e. third impeller cavity for just having turned over impeller wheel chamber air inlet Front vane, third high energy gas release energy for the first time to third impeller cavity front vane and push third impeller cavity front vane Impeller is set to continue rotation acting, third high energy gas repeats to do identical do as the first, second high energy gas of front Function movement, with the lasting rotation of impeller, subsequent each high energy gas equally repeats the acting movement of front high energy gas, until When with impeller cavity to impeller wheel chamber exhaust outlet, each high energy gas has become low energy gases after the acting that continuously releases energy It is discharged through exhaust duct.When secondary chamber is screw type pair chamber, the first high energy gas at impeller wheel chamber air inlet hits first first It is advanced into the first impeller cavity under impeller cavity front vane and the movable tongue of the first impeller cavity of promotion, the first high energy gas It releases energy for the first time to the first impeller cavity front vane and the first impeller cavity front vane is pushed to make wheel rotation, when the first leaf When wheel cavity front vane turns to the first screw type pair chamber, the first high energy gas in the first impeller cavity is through the first screw type pair Chamber air inlet enter the first screw type pair it is intracavitary, at this time the first high energy gas with the first screw type pair chamber convergent contour helical cavity Acceleration forms high-speed flow beam, and the pressure energy of the first high energy gas in the first impeller cavity is at flow velocity energy, high speed gas Along the first screw type pair chamber, across first impeller cavity before the first impeller cavity, we are known as negative one to a fluid stream forward outward Impeller cavity and rotating to the upper surface of impeller wheel chamber periphery is hit through the first screw type pair chamber most narrow end puff prot high speed ejection We are known as the front vane of minus two impeller cavity for second impeller cavity before first impeller cavity, to before minus two impeller cavity Blade releases energy and minus two impeller cavities front vane is pushed to make impeller rotation acting, due to the rear leaf of the first impeller cavity at this time Piece turns over impeller wheel chamber air inlet not yet, and the high energy gas at impeller wheel chamber air inlet is also going successively to the first impeller cavity Interior, the movable tongue of the first impeller cavity, which continues to be pressurized, is in low level, after high-speed flow beam hits minus two impeller cavities front vane Flow velocity is lowered into minus two impeller cavity, with the rotation of impeller, act on minus two impeller cavities movable tongue from Mental and physical efforts rise, and minus two impeller cavities front vane turns to the second screw type pair chamber air inlet, and first in minus two impeller cavity is high Can gas by under the reinforcing of movable tongue again through the second screw type pair chamber air inlet continue spray into the second screw type pair it is intracavitary, Movable tongue in minus two impeller cavity upward sliding under the influence of centrifugal force, the first high energy gas is with the second screw type pair The spiral convergence shape cavity of chamber again speeds up to form high-speed flow beam and cross over negative trilobed wheel cavity forward outward and rotate to leaf Above wheel wheel chamber periphery, the first high energy gas is through the second screw type pair chamber most narrow end puff prot before high speed ejection impinges upon again Minus four impeller cavity front vane, release energy to minus four impeller cavities front vane and minus four impeller cavities front vane pushed to make leaf Wheel rotation is done work, and flow velocity is lowered into minus four impeller cavity and makes to bear after the minus four impeller cavities front vane of high-speed flow beam shock Pressure rise and movable tongue downlink is oppressed in four impeller cavities, with the rotation of impeller, acts on minus four impeller cavities activity Centrifugal force on tongue piece is reinforced, and minus four impeller cavities front vane turns to third screw type pair chamber air inlet, minus four impeller cavity The first interior high energy gas will continue to spray into through third screw type pair chamber air inlet for the third time under the impetus of movable tongue Third screw type pair is intracavitary, and the first high energy gas again speeds up to form height with the spiral convergence shape cavity of third screw type pair chamber Fast air flow stream simultaneously rotates to above impeller wheel chamber periphery across minus five impeller cavity forward outward, most through third screw type pair chamber Narrow end puff prot high speed sprays into the intracavitary front vane for hitting preceding minus six impeller cavity of impeller wheel, to minus six impeller cavities frontal lobe Piece, which releases energy, pushes minus four impeller cavities front vane to make impeller rotation acting, and high-speed flow beam hits minus four impeller cavities frontal lobe Flow velocity is reduced and is oppressed and is advanced into minus six impeller cavity under movable tongue after piece, with the rotation of impeller, the first high energy gas Impeller cavity will continuously be passed through to enter screw type pair chamber and revolve forward outward along the screw type cavity of screw type pair chamber It goes to above impeller wheel chamber periphery, hits preceding impeller blade through screw type pair chamber most narrow end puff prot high speed ejection, directly When to impeller cavity to impeller wheel chamber exhaust outlet, the first high energy gas after being repeated several times and releasing energy becomes low energy Gas enters exhaust duct discharge by impeller wheel chamber exhaust outlet, while with the rotation of impeller, when the first impeller cavity rear blade Impeller wheel chamber air inlet is turned over, the high energy gas at impeller wheel chamber air inlet does not enter back into the first impeller cavity, and the first impeller is empty While chamber rear blade turns over impeller wheel chamber air inlet, the second high energy gas at impeller wheel chamber air inlet will continue penetrating second Impeller cavity hits the first impeller cavity rear blade namely the second impeller cavity frontal lobe for just having turned over impeller wheel chamber air inlet Piece, the second high energy gas release energy for the first time to the second impeller cavity front vane and oppress the active tongue in the second impeller cavity Piece downlink pushes the second impeller cavity front vane that impeller is made to continue rotation acting, when the second impeller cavity front vane turns to first When screw type pair chamber air inlet, the second high energy gas in the second impeller cavity will repeat the acting of the first high energy gas of front Movement, the second high energy gas also pass through secondary chamber air inlet and enter secondary intracavitary and along screw type pair chamber the spiral cavity of screw type Body acceleration convergence forms high-speed flow beam and is rotated to forward above impeller wheel chamber periphery outward, sprays through screw type pair chamber most narrow end Port high speed ejection hits preceding impeller blade, when with impeller cavity to impeller wheel chamber exhaust outlet, through being repeated several times The second high energy gas after releasing energy becomes low energy gases and enters exhaust duct discharge by impeller wheel chamber exhaust outlet, subsequent each High energy gas equally repeats the acting movement of the first, second high energy gas of front, arranges until with impeller cavity to impeller wheel chamber When port, each high energy gas becomes low energy gases after the acting that continuously releases energy and is discharged through exhaust duct, is described again here. High energy gas its most of energy after continuously repeating acting has all been released to impeller blade and has been transformed to machinery through impeller Can be exported by impeller wheel shaft, the above is current intelligence when just being started with impeller, in actual work the revolving speed of impeller compared with Height, it is to be determined by wheel speed with the operating pressure of high energy gas that high energy gas, which specifically releases energy to which impeller blade,.

In conclusion storage is played in the effect of secondary chamber as the shunt capacitance in circuit in the wheeled acting device of the utility model Can, the effect converting, release energy, when work, secondary chamber is to store the high energy gas from impeller cavity first, will then be come from Relative quiescent high energy gas in impeller cavity is transformed to the dynamic high energy gas with certain potential energy, then has a set The dynamic high energy gas of energy pushes impeller rotation to impeller blade release potential energy acting, and what work doing impeller wheel shaft exported is impeller wheel The intracavitary high energy gas of high energy gas and each pair at chamber air inlet jointly releases impeller acting in impeller rotary course The resultant force put, torsion output is bigger for the identical work doing impeller of no secondary chamber, i.e., identical in same work doing impeller High energy gas air pressure conditions under its export torsion it is higher, energy conversion efficiency is higher, and same high energy gas can be allowed multiple It releases energy acting to impeller blade, can effectively enhance outputting torsion, energy conversion efficiency is improved, with the liter of wheel speed Height, the effect that secondary chamber energy storage proposes effect is weaker, and the effect that the lower secondary chamber energy storage of wheel speed proposes effect is stronger, in same revolving speed The effect that the more higher pair chamber energy storage of the pressure of lower high energy gas proposes effect is stronger, when revolving speed is lower, acts on the centrifugal force on tongue piece Smaller, the position of tongue piece active edges is relatively low, and the volume of impeller cavity is larger above tongue piece, when revolving speed is higher, acts on tongue The centrifugal force of on piece is larger, and the position of tongue piece active edges is relatively high, and the volume of impeller cavity becomes smaller above tongue piece, makes tongue The volume of on piece side's impeller cavity changes with the variation of wheel speed, that is to say, that can be adjusted automatically according to the height of revolving speed Week/capacity of impeller is saved, unnecessary air consumption in work is reduced, achievees the purpose that energy-conservation of consumption reduction, movable tongue again can be with The high energy gas in centrifugal force boosting impeller cavity for making full use of impeller rotation to generate accelerates into secondary chamber, that is to say, that activity Tongue piece plays the role of a power-assisted when entering secondary chamber to the high energy gas in impeller cavity, in addition, movable tongue is being centrifuged The upper impeller cavity volume exercised above movable tongue becomes smaller under the action of power, so that high energy gas is again introduced into through secondary chamber Impeller wheel chamber plays the role of extending timeliness when pushing blade acting again, as the raising movable tongue power-assisted of wheel speed becomes The effect for holding delay synergistic can be stronger, and movable tongue just plays a high low speed complementary with the collocation of secondary chamber, power-assisted enhances Effect enhances secondary chamber and releases energy again the dynamics of acting, further improves the energy conversion of this wheeled acting device Efficiency.It can be seen that the wheeled acting device technique of the utility model not only can high, low speed change when adjust automatically capacity, from The variation that dynamic adjustment outputting torsion adapts to load needs, and adaptive response with higher and wider torsion export modification scope, Outputting torsion can also be enhanced under identical volume, same high energy gas air pressure conditions, energy conversion efficiency is improved, make it The energy conversion effect that multistage work doing impeller just has, and compact-sized simple easily system are realized on single work doing impeller It makes, saves material, reduce costs, adequately achieve energy conservation, propose effect, the purpose of cost declining, overcome wheeled acting completely Apparatus structure is complicated, manufacture difficulty is high, oil consumption is high, the thermal efficiency is low, outputting torsion is small when tick-over etc. this several it is worldwide Problem can make wheeled acting device that can be widely used and popularize on land route, the wheeled acting device of the utility model and existing There is technology to have made marked progress and remarkable result compared to tool.

Detailed description of the invention:

1 ﹑ Fig. 2 of figure is the structural schematic diagram of first embodiment.

Fig. 1, which is that along B, line is perpendicular in Fig. 2, cuts structural schematic diagram.

Fig. 2 be Fig. 1 in along A line cross cut structure schematic diagram.

Fig. 3, Fig. 4, Fig. 5, Fig. 6 are the structural schematic diagram of second embodiment.

Fig. 3 be Fig. 5 in along A line cross cut structure schematic diagram.

Fig. 4 is enlarged drawing at D in Fig. 3.

Fig. 5 is that the perpendicular of the place B ' line cuts structural schematic diagram along line at B and Fig. 6 in Fig. 3.

Fig. 6 is in Fig. 5 along the place A ' line cross cut structure schematic diagram.

Fig. 7, Fig. 8, Fig. 9 are the structural schematic diagram of third embodiment.

Fig. 7, which is that along B, line is perpendicular in Fig. 9, cuts structural schematic diagram.

Fig. 8 be Fig. 7 in along C line cross cut structure schematic diagram.

Fig. 9 be Fig. 7 in along A line cross cut structure schematic diagram.

Figure 10, Figure 11, Figure 12 are the structural schematic diagram of the 4th embodiment.

Figure 10, which is that along B, line is perpendicular in Figure 12, cuts structural schematic diagram.

Figure 11 be Figure 10 in along C line cross cut structure schematic diagram.

Figure 12 be Figure 10 in along A line cross cut structure schematic diagram.

Figure 13, Figure 14, Figure 15 are the structural schematic diagram of the 5th embodiment.

Figure 13, which is that line is perpendicular at B along Figure 15 in the 5th embodiment, cuts structural schematic diagram.

Figure 14 is that along the C in Figure 16, line cross cut structure is shown in Figure 13 and the 6th embodiment in the 5th embodiment It is intended to.

Figure 15 is the line cross cut structure schematic diagram at A in Figure 13 in the 5th embodiment.

Figure 16, Figure 17 are the structural schematic diagram of the 6th embodiment.

Figure 16, which is that line is perpendicular at B along Figure 17 in the 6th embodiment, cuts structural schematic diagram.

Figure 17 be in the 6th embodiment along Figure 16 line cross cut structure schematic diagram at A.

Figure 18, Figure 19, Figure 20 are the structural schematic diagram of the 7th embodiment.

Figure 18, which is that along B, line is perpendicular in Figure 20, cuts structural schematic diagram.

Figure 19 be Figure 18 in along C line cross cut structure schematic diagram.

Figure 20 be Figure 18 in along A line cross cut structure schematic diagram.

Figure 21, Figure 22, Figure 23, Figure 24 are the structural schematic diagram of the 8th embodiment.

Figure 21, which is that along B, line is perpendicular in Figure 23, cuts structural schematic diagram.

Figure 22 be Figure 21 in along C line cross cut structure schematic diagram.

Figure 23 be Figure 21 in along A line cross cut structure schematic diagram.

Figure 24 be Figure 23 in along D line chamfered structure schematic diagram.

Figure 25, Figure 26 are the structural schematic diagram of the 9th embodiment.

Figure 25, which is that along B, line is perpendicular in Figure 26, cuts structural schematic diagram.

Figure 26 be Figure 25 in along A line cross cut structure schematic diagram.

Figure 27, Figure 28, Figure 29, Figure 30 are the structural schematic diagram of the tenth embodiment.

Figure 27 is that the perpendicular of the place B ' line cuts structural schematic diagram in line and Figure 29 at B along Figure 28.

Figure 28 be Figure 27 in along A line cross cut structure schematic diagram.

Figure 29 is in Figure 27 along the place A ' line cross cut structure schematic diagram.

Figure 30 be Figure 27 in along C line truncation structural schematic diagram.

In figure, 1 is shell, and 2 be wheel body, and 2 ' be the second impeller wheel body, and 3 be wheel shaft, and 4 be blade, and 4 ' be the second impeller leaf Piece, 5 be tongue piece, and 5 ' be the second impeller tongue piece, and 6 be movable axis, and 6 ' be the second impeller movable axis, and 7 be impeller cavity, 7 ' second leaves Cavity is taken turns, 8 be wheel chamber air inlet, and 8 ' be the second impeller wheel chamber air inlet, and 9 arrange for wheel chamber exhaust outlet, 9 ' for the second impeller wheel chamber Port, 10 be secondary chamber, and 10 ' be the second impeller pair chamber, and 11 be control valve, and 11 ' be the second Vane control valves, and 12 be air intake duct, 12 ' It is exhaust duct for the second impeller air intake duct, 13,13 ' be the second impeller exhaust duct, and 14 be secondary chamber air inlet, and 14 ' be the second impeller Secondary chamber air inlet, 15 be secondary chamber puff prot, and 15 ' be the second impeller pair chamber puff prot, and 16 be bearing, and 17 be fan, and 18 be wheel Piece, 19 be stomata, and 20 be wheel chamber, and 20 ' second impeller wheel chambers, 21 be cooling fin, and 22 be ventilating duct, and 23 be insulating layer, and 24 be wheel Body hinge, 25 be flow deflector, and 26 be water conservancy diversion re-entrant angle, and 27 be partition.

Specific embodiment:

For the technical characterstic for illustrating the wheeled acting device of the utility model can be become apparent from, below by ten embodiments, and it is combined Attached drawing is further elaborated this programme.

Fig. 1, Fig. 2 shows the wheeled acting device one embodiment of the utility model, by attached drawing as can be seen that the present embodiment The novel wheel-type acting device shown is mainly made of shell 1, impeller, there is insulating layer 23, the insulating layer on the shell 1 There is heat-insulating material in 23, the impeller is made of wheel body 2, wheel shaft 3, blade 4, and the blade 4 is mounted on 2 excircle of wheel body On, 2 center of wheel body is equipped with wheel shaft 3, and the impeller is mounted in 1 inner impeller wheel chamber 20 of shell, the impeller wheel chamber 20 Size matches with impeller, and the impeller keeps small airtight gap with wheel 20 internal chamber wall of chamber, keeps sealing as far as possible but not with wheel 20 internal chamber wall of chamber contacts, and has air inlet 8 and exhaust outlet 9 on the 1 lubrication groove chamber 20 of shell, and the air inlet 8 and exhaust outlet 9 are distinguished It is communicated by air intake duct 12 and exhaust duct 13 with outside, 1 lubrication groove chamber of shell, 20 air inlet 8 is with 9 lie farthest away of exhaust outlet Semicircle is with having semicircular arc pair chamber 10, the semicircular arc pair on the corresponding 20 peripheral circumferential periphery of wheel chamber of impeller blade 4 The radian of the inner arc surface of chamber 10 with take turns 20 periphery of chamber radian it is identical, the semicircular arc pair chamber 10 from impeller wheel chamber 20 into 8 side of port starts have multiple partitions 27 in amplification shape in the semicircular arc pair chamber 10 to wheel 20 exhaust outlet of chamber, 9 side, it is described every Semicircular arc pair chamber 10 has been separated into multistage by piece 27, and described every section secondary chamber 10 is interior to have secondary chamber in 20 air inlet of impeller wheel chamber, 8 side Air inlet 14 is communicated with impeller wheel chamber 20, has secondary 10 puff prot 15 of chamber with 20 phase of impeller wheel chamber in 20 exhaust outlet of impeller wheel chamber, 9 side Logical, pair 10 puff prot 15 of chamber is less than 10 air inlet 14 of secondary chamber.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is by the impeller wheel chamber 20 on shell 1 Air intake duct 12 sprays into impeller wheel chamber 20 through 20 air inlet 8 of impeller wheel chamber, and the high energy gas at air inlet 8 is referred to herein as first High energy gas initially enters in the impeller cavity 7 at wheel 20 air inlet 8 of chamber is known as the first impeller cavity 7 for the time being here, and first is high The front vane 4 of the first impeller cavity of energy air impingement 7, releases energy to the front vane 4 of the first impeller cavity 7 and pushes front vane 4 Make wheel rotation, the load acted on impeller is larger, and wheel rotation is slower, and the first high energy gas is before by the first impeller cavity 7 The blocking flow velocity of blade 4 reduces, and takes turns the first high energy gas at 20 air inlet 8 of chamber and continues to spray into the first impeller cavity 7, and first High energy gas pressure in impeller cavity 7 increases rapidly, when 7 front vane 4 of the first impeller cavity turns to first segment semicircular arc When secondary chamber 10 is abbreviated here as the first secondary 10 air inlet 14 of chamber, the first high energy gas in the first impeller cavity 7 is through the first secondary chamber 10 air inlets 14 spray at a high speed in the secondary chamber 10 of pressure lower first, and the aggregation in the first secondary chamber 10 of the first high energy gas makes first Pressure rise in secondary chamber 10, the first high energy gas in the first secondary chamber 10 are empty across the first impeller forward along the first secondary chamber 10 First impeller cavity 7 of 7 front of chamber is referred to herein as spraying into pressure more through the first secondary 10 puff prot 15 of chamber after negative one impeller cavity 7 Second low impeller cavity 7 is referred to here as being negative in two impeller cavities 7 and hit minus two impeller cavities front vane 4, to preceding Minus two impeller cavities, 7 front vane 4, which releases energy, pushes impeller rotation acting, with the rotation of impeller, before minus two impeller cavity 7 When blade 4 turns to second segment semicircular arc pair chamber 10 abbreviated here as the second secondary chamber 10, first in minus two impeller cavity 7 is high Energy gas enters in the secondary chamber 10 of pressure lower second through the second secondary 10 air inlet 14 of chamber again, the height in minus two impeller cavity 7 Can gas pressure reduce, pressure rise and forward across minus three leaf of front after the first high energy gas is assembled in the second secondary chamber 10 Wheel cavity 10 sprays into lower minus four impeller cavity of pressure and before hitting minus four impeller cavity 7 through the second secondary 10 puff prot 15 of chamber Blade 4 releases energy to minus four impeller cavities, 7 front vane 4 and pushes impeller rotation acting, when 4 turns of 7 rear blade of the first impeller cavity When crossing impeller wheel 20 air inlet 8 of chamber, the high energy gas at 20 air inlet 8 of impeller wheel chamber is not entered back into the first impeller cavity 7, the One section of secondary chamber 10 of the every process of the first high energy gas in one impeller cavity 7 will spray into secondary chamber 10 so through secondary 10 air inlet 14 of chamber It is sprayed into the lower impeller cavity 7 of pressure before backward through secondary 10 puff prot 15 of chamber and impeller cavity front vane 4 is pushed to do work, first High energy gas pressure gradually reduces, and with the rotation of impeller, the first high energy gas is by repeatedly passing in and out semicircular arc pair chamber 10 simultaneously Time energy gas is finally reduced to after releasing energy to preceding impeller blade 4 and with the rotation of impeller cavity 7 to 20 row of impeller wheel chamber Port 9 enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and is discharged, equally, turns over impeller in 7 rear blade 4 of the first impeller cavity When taking turns 20 air inlet 8 of chamber, high energy gas at 20 air inlet 8 of impeller wheel chamber at this time we will be referred to as the second high energy gas will be after It is continuous to spray into the second impeller cavity 7, continue to hit 7 front vane 4 of the second impeller cavity for just having turned over 20 air inlet 8 of impeller wheel chamber 7 rear blade 4 of namely the first impeller cavity, the second high energy gas release energy to 7 front vane 4 of the second impeller cavity and push impeller Lasting rotation acting, when 7 front vane 4 of the second impeller cavity turns to the first secondary 10 air inlet 14 of chamber, in the second impeller cavity 7 The second high energy gas is sprayed at a high speed in the first pair chamber 10 through the first secondary 10 air inlet 14 of chamber, second in the second impeller cavity 7 High energy gas pressure reduction, the second high energy gas assemble pressure rise in the first secondary chamber 10 and cross over the first impeller cavity forward High-speed flow beam, which is formed, through the first secondary 10 fumarole 15 of chamber ejection after 7 hits preceding second impeller cavity 7 referred to here as being negative The front vane 4 of one impeller cavity 7 releases energy to preceding 7 front vane 4 of negative one impeller cavity and pushes impeller rotation acting, when High energy gas when second impeller cavity, 7 rear blade 4 continues to revolve through impeller wheel 20 air inlet 8 of chamber, at 20 air inlet 8 of impeller wheel chamber Do not enter back into equally in the second impeller cavity 7, equally, the second high energy gas in the second impeller cavity 7 with impeller rotation Every that secondary chamber 10 will be sprayed into through secondary 10 air inlet 14 of chamber once by one section of secondary chamber 10, pressure gradually reduces, the second high energy gas With the rotation of impeller be finally reduced to after repeatedly passing in and out secondary chamber more than 10 times and releasing energy to impeller blade 4 time can gas and with The rotation of impeller cavity 7 to 20 exhaust outlet 9 of impeller wheel chamber, enter exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged, with leaf The lasting rotation of wheel, the high energy gas at 20 air inlet 8 of impeller wheel chamber will go successively to each impeller cavity 7 passed through below It is interior, behind high energy gas in each impeller cavity 7 will be equally continuous with the high energy gas in the first, second impeller cavity 7 Disengaging semicircular arc pair chamber 10 does identical acting movement to preceding impeller blade 4, until with the rotation of impeller cavity 7 to leaf When wheel wheel 20 exhaust outlet 9 of chamber, just enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged.As can be seen that secondary chamber 10 in work With the higher high energy gas of pressure that storage is sprayed into out of impeller cavity 7 through secondary 10 air inlet 14 of chamber, stored in secondary chamber 10 The higher high energy gas of pressure sprays into the lower impeller cavity 7 of preceding pressure through secondary 10 puff prot 15 of chamber again and pushes impeller The acting of 7 front vane 4 of cavity, multiple secondary chambers that same high energy gas can be passed into gradually during impeller rotates a circle 10, it is then sprayed into for each secondary chamber 10 puff prot more than 15 times again in the lower impeller cavity 7 of preceding pressure to before impeller cavity 7 Blade more than 4 times actings, make impeller that can export the higher power of bigger torsion under identical operating pressure, that is to say, that work Secondary chamber 10 has the function of that repeatedly recycle storage discharges again, allows to same high energy gas during impeller rotates a circle in work Same high energy gas repeatedly does work to impeller blade 4, improves energy of the same high energy gas in impeller rotates a circle Discharge conversion times, single impeller the utility model under identical operating pressure it is wheeled acting device compared with the existing technology in it is wheeled The device that does work has higher energy conversion efficiency, realizes energy saving and efficiency increasing purpose.

Fig. 3, Fig. 4, Fig. 5, Fig. 6 show the utility model second embodiment of wheeled acting device, by attached drawing as can be seen that Novel wheel-type acting device shown in the present embodiment is mainly made of shell 1, impeller, there is insulating layer 23, institute on the shell 1 Stating has heat-insulating material in insulating layer 23,1 inner impeller of shell there are two and be mounted on same root wheel shaft 3, described the One impeller is made of wheel body 2, wheel shaft 3, blade 4, and first impeller blade 4 is mounted on 2 excircle of wheel body, the wheel shaft 3 It is mounted in the concentric axis at 2 ' center of the first impeller wheel body 2 and the second impeller wheel body, first impeller is mounted in shell 1 It takes turns in chamber 20, second impeller is mounted in 1 lubrication groove chamber 20 ' of shell, and the size of the first impeller wheel chamber 20 is with the first leaf Wheel matches, and first impeller keeps small airtight gap with wheel 20 internal chamber wall of chamber, keeps sealing as far as possible but not with taking turns chamber 20 Internal chamber wall contact, there is air inlet 8 and exhaust outlet 9 in the shell 1 on the first impeller wheel chamber 20, the first impeller wheel chamber 20 into There is autocontrol valve 11 at port 8, the air inlet 8 and exhaust outlet 9 on the first impeller wheel chamber 20 pass through air intake duct 12 respectively It is communicated with exhaust duct 13 with outside, semicircle of 20 air inlet 8 of the first impeller wheel chamber with 9 lie farthest away of exhaust outlet in the shell 1 With being arranged in sequence with multiple spiral type pair chambers 10, the spiral type on corresponding 20 outer circumference surface of wheel chamber of the first impeller blade 4 Vortex sheet is communicated with wheel chamber 20 within secondary chamber 10, and the 10 whirlpool head end of spiral type pair chamber is in 20 air inlet of impeller wheel chamber, 8 side, the whirlpool 10 whirlpool tail end of shape pair chamber is revolved in 20 exhaust outlet of impeller wheel chamber, 9 side, first impeller blade 4 outer end face opposite with direction of rotation On have arc water conservancy diversion re-entrant angle 26, second impeller is made of wheel body 2 ', wheel shaft 3, blade 4 ', tongue piece 5 ', second impeller The size of wheel chamber 20 ' matches with the second impeller, and second impeller keeps small airtight gap with wheel 20 ' internal chamber wall of chamber, to the greatest extent Amount keeps sealing but does not contact with wheel 20 ' internal chamber wall of chamber, and second impeller wheel chamber 20 ' above has air inlet 8 ' and row in the shell 1 There is a pressure sensitive control valve 11 ' at port 9 ', 20 ' air inlet of the second impeller wheel chamber, 8 ' place, on the second impeller wheel chamber 20 ' Air inlet 8 ' and exhaust outlet 9 ' communicated respectively by air intake duct 12 ' and exhaust duct 13 ' with outside, second impeller blade 4 ' It being mounted on 2 ' excircle of the second impeller wheel body, second impeller is blade 4 ' with wheel body 2 ' with wide unshrouded impeller structure, Have between adjacent two blade 4 ' of second impeller with blade with wide and can be up and down tongue piece 5 ', the tongue piece 5 ' One side carries out active connection with movable axis 6 ' with a 4 ' top margin of blade in adjacent two blade 4 ', and the movable axis 6 ' is in leaf On the side top margin counterclockwise of piece 4 ', the tongue piece 5 ' is the leaf of the adjacent another blade 4 ' in another edge of axle center with movable axis 6 ' Face slides up and down, and top dead centre is no more than corresponding 4 ' top margin of blade, 4 ' face of blade corresponding to the 5 ' active edges of tongue piece The sliding radian of 5 ' sliding edge of its radian of camber and tongue piece matches, and keeps close as far as possible in the case where tongue piece 5 ' is free to slide It seals, second impeller wheel chamber, 20 ' air inlet 8 ' is with the semicircle of 9 ' lie farthest away of exhaust outlet with the second impeller blade 4 ' in the shell 1 Have multiple arc-shaped secondary chambers 10 ' on corresponding 20 ' outer circumference surface of wheel chamber, the arc-shaped secondary chamber 10 ' impeller wheel chamber 20 ' into 8 ' side of port has secondary chamber air inlet 14 ' to communicate with impeller wheel chamber 20 ', has secondary 10 ' jet of chamber in 20 ' exhaust outlet of impeller wheel chamber, 9 ' side Mouth 15 ' is communicated with impeller wheel chamber 20 ', and the arc-shaped secondary chamber 10 ' is from air inlet 14 ' to puff prot 15 ' in convergence shape.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is by the first impeller wheel on shell 1 Enter 20 air inlet 8 of the first impeller wheel chamber in 20 air intake duct 12 of chamber, pressure of the autocontrol valve 11 at air inlet 8 in high energy gas It is automatically turned under power, high energy gas is referred to herein as the first high energy gas and enters nearest impeller cavity 7 through wheel 20 air inlet 8 of chamber In referred to herein as first impeller cavity 7, the first high energy gas hits the front vane 4 of first impeller cavity 7 first, to first The front vane 4 of a impeller cavity 7, which releases energy, pushes front vane 4 to make the first wheel rotation, and the first high energy gas is by first leaf The blocking flow velocity for taking turns 7 front vane 4 of cavity reduces, and the first high energy gas persistently sprays into first impeller cavity 7, first impeller High energy gas pressure in cavity 7 increases rapidly, when first 7 front vane 4 of impeller cavity turns to first spiral type pair chamber 10 here referred to as the first secondary chamber 10 when, the first high energy gas in first impeller cavity 7 is along first 7 front vane of impeller cavity Water conservancy diversion re-entrant angle 26 on 4 top margins, which sprays into the first spiral type pair chamber 10, forms convolution vortex, at this time the first high energy gas flow velocity liter It is high and as the vortex wall of the first Scrawl pair chamber 10 continues to narrow and accelerates to form high speed convolution vortex core, the first high energy gas Pressure energy at flow velocity energy, high speed circle round vortex core along the first Scrawl pair chamber 10 vortex wall cycle through Scrawl pair The most narrow whirlpool head end high speed ejection of chamber 10 second of shock, first 7 front vane 4 of impeller cavity, to first 7 frontal lobe of impeller cavity Second of the piece 4 promotion blade 4 again that releases energy makes the rotation acting of the first impeller, at this time the rear blade 4 of first impeller cavity 7 There are no 20 air inlet 8 of impeller wheel chamber is turned over, high-speed eddy beam hits same first impeller after first 7 front vane 4 of impeller cavity The high energy gas then sprayed at wheel 20 air inlet 8 of chamber enters together in first impeller cavity 7, in first impeller cavity 7 The first high energy gas pressure rise, with the rotation of impeller, first 7 rear blade 4 of impeller cavity turns over the first impeller wheel chamber 20 air inlets 8, the high energy gas at 20 air inlet 8 of the first impeller wheel chamber do not enter back into first impeller cavity 7, while first The rotation of a 7 front vane 4 of impeller cavity is to the second spiral type pair chamber 10, and the first high energy gas in first impeller cavity 7 is by the The secondary water conservancy diversion re-entrant angle 26 on first 7 front vane of impeller cavity, 4 top margin, which sprays into the second Scrawl pair chamber 7, forms convolution whirlpool It flows, the first high energy gas pressure in first impeller cavity 7 reduces, and second of the first high energy gas in the second Scrawl pair chamber As 10 vortex wall of the second Scrawl pair chamber narrows and accelerates to be formed high speed convolution vortex core in 10, high speed circles round vortex core along the The spirotheca cycle of two Scrawl pair chambers 10 sprays through the second most narrow end mouth of Scrawl pair chamber 10 third time hitting first impeller 7 front vane 4 of cavity, the first high energy gas release energy to first 7 front vane of impeller cavity, 4 third time and blade 4 are pushed to make The rotation acting of first impeller, with the rotation of the first impeller, the first high energy gas is every in first impeller cavity 7 to pass through one Scrawl pair chamber 10 just forms primary convolution vortex with noted earlier in Scrawl pair chamber 10, and convolution vortex all will every time Primary energy is discharged to first 7 front vane 4 of impeller cavity, until rotating to the first impeller wheel chamber with first impeller cavity 7 When 20 exhaust outlet 8, the first high energy gas becomes low energy gases by 20 exhaust outlet 9 of impeller wheel chamber after being repeated several times and releasing energy It is discharged into exhaust duct 13.While first 7 rear blade 4 of impeller cavity turns over impeller wheel 20 air inlet 8 of chamber, the first impeller wheel High energy gas at 20 air inlet 8 of chamber, which is referred to herein as the second high energy gas, will continue to spray into second impeller cavity 7 and hit Before first impeller cavity, 7 rear blade 4 namely second impeller cavity 7 for just having turned over 20 air inlet 8 of the first impeller wheel chamber Blade 4, the second high energy gas release energy to second 4 first time of 7 front vane of impeller cavity and push second impeller cavity 7 Front vane 4 makes the first impeller persistently rotate acting, when second 7 front vane 4 of impeller cavity turns to the first spiral type pair chamber 10, The second high energy gas in second impeller cavity 7 acts the acting for repeating the first high energy gas of front, i.e. second leaf It takes turns water conservancy diversion re-entrant angle 26 of the second high energy gas in cavity 7 on second 7 front vane of impeller cavity, 4 top margin and sprays into the first vortex Convolution vortex is formed in type pair chamber 10, the second high energy gas is in the first Scrawl pair chamber 10 with the first Scrawl pair chamber 10 Vortex wall continues to narrow and accelerates to be formed high speed convolution vortex core, and the pressure energy of the second high energy gas is high at flow velocity energy Speed convolution vortex core along the first Scrawl pair chamber 10 vortex wall cycle through Scrawl pair chamber most narrow end mouth high speed ejection second Second impeller cavity, 7 front vane 4 is hit, releases energy and pushes second for second to second impeller cavity, 7 front vane 4 7 front vane 4 of impeller cavity makes the rotation acting of the first impeller, since the rear blade 4 of second impeller cavity 7 at this time turns over not yet 20 air inlet 8 of impeller wheel chamber, high-speed eddy beam hit same first impeller wheel chamber, 20 air inlet after second 7 front vane 4 of impeller cavity The high energy gas sprayed at mouth 8 enters together in second impeller cavity 7, the second high energy gas in second impeller cavity 7 Pressure rise, with the rotation of the first impeller, second 7 rear blade 4 of impeller cavity turns over 20 air inlet 8 of the first impeller wheel chamber, High energy gas at first impeller wheel chamber, 20 air inlet 8 does not enter back into second impeller cavity 7, while second impeller cavity 7 The rotation of front vane 4 is to the second Scrawl pair chamber 10, and second of the second high energy gas in second impeller cavity 7 is along second leaf Water conservancy diversion re-entrant angle 26 on wheel 7 front vane of cavity, 4 top margin, which is sprayed into again in the second Scrawl pair chamber 10, forms convolution vortex, and second The second high energy gas pressure in impeller cavity 7 reduces, and the second high energy gas is in the second Scrawl pair chamber 10 with the second whirlpool 10 vortex wall of rotation type pair chamber, which narrows, accelerates to be formed high speed convolution vortex core, and high speed convolution vortex core is along the second Scrawl pair chamber 10 Spirotheca cycle sprays third time through the second most narrow end mouth of Scrawl pair chamber 10 and hits second 7 front vane 4 of impeller cavity, and second is high Can gas release energy to second 7 front vane of impeller cavity, 4 third time and second impeller cavity, 7 front vane 4 pushed to make the The rotation acting of one impeller, with the rotation of the first impeller, the second high energy gas is as the first high energy gas in second impeller It is every in cavity 7 to enter the formation high speed convolution vortex core of Scrawl pair chamber 10 to second impeller by a Scrawl pair chamber 10 7 front vane 4 of cavity discharges primary energy, when rotating to the first impeller wheel 20 exhaust outlet 13 of chamber with second impeller cavity 7, Through be repeated several times release energy after the second high energy gas have become low energy gases through 20 exhaust outlet 13 of the first impeller wheel chamber into Enter the discharge of exhaust duct 13, when second 7 rear blade 4 of impeller cavity turns over the first impeller wheel 20 air inlet 8 of chamber, the first impeller wheel High energy gas at 20 air inlet 8 of chamber, which is referred to herein as third high energy gas, will continue to spray into third impeller cavity 7, and third is high Energy gas continues to hit second impeller cavity, the 7 rear blade 4 namely third for just having turned over 20 air inlet 8 of the first impeller wheel chamber A 7 front vane 4 of impeller cavity, third high energy gas release energy to 4 first time of 7 front vane of third impeller cavity and push Three 7 front vanes 4 of impeller cavity make the first impeller persistently rotate acting, and third high energy gas is with preceding first, second high energy Gas equally repeats to do identical acting movement, subsequent to enter in each impeller cavity 7 with the lasting rotation of the first impeller Each high energy gas equally repeat front high energy gas acting movement, towards 7 front vane of impeller cavity, 4 weight at respective place It releases energy again, pushes the first impeller persistently to rotate acting, power is exported through wheel shaft 3, and each high energy gas is with each impeller cavity 7 When rotating to the first impeller wheel 20 exhaust outlet 9 of chamber, each high energy gas becomes low energy gases after continuously repeating and releasing energy and passes through Exhaust duct 13 is discharged.Equally, when the high energy gas with certain temperature and pressure enters by the air intake duct 12 ' on shell 1 When two impeller wheel 20 ' air inlets 8 ' of chamber, the pressure sensitive control valve 11 ' that air inlet 8 ' is located is automatic by the pressure sensitive of high energy gas It opens, high energy gas is referred to herein as the first high energy gas, and the first high energy gas enters nearest after 20 ' air inlet 8 ' of third wheel chamber Impeller cavity 7 ' be referred to herein as first impeller cavity 7 ' it is interior, the first high energy gas pushes down on first impeller cavity first 5 ' slide downward of movable tongue on 7 ' and the front vane 4 ' for hitting first impeller cavity 7, to first impeller cavity 7 ' Front vane 4, which releases energy, pushes front vane 4 ' to make the second wheel rotation, and the first high energy gas is by first 7 front vane of impeller cavity 4 ' blocking flow velocity is lowered into that first impeller cavity 7 ' is interior, and the high energy gas pressure for keeping first impeller cavity 7 ' interior is fast Speed increases, and the movable tongue 5 ' in first impeller cavity 7 ' is in low level under the first high energy gas pressure, when first leaf When the front vane 4 ' of wheel cavity 7 turns to first arc-shaped secondary chamber 10 ' referred to as the first arc-shaped secondary 10 ' air inlet 14 ' of chamber, The first interior high energy gas of first impeller cavity 7 ' sprays into the first arc-shaped pair through the first arc-shaped secondary 10 ' air inlet 14 ' of chamber Chamber 10 ' is interior, and upward sliding pushes first impeller to the movable tongue 5 ' in first impeller cavity 7 ' under the influence of centrifugal force It is interior that the first interior high energy gas of cavity 7 ' accelerates into the first arc-shaped secondary chamber 10 ', makes the first interior pressure liter of arc-shaped secondary chamber 10 ' Height, the first interior high energy gas of the first arc-shaped secondary chamber 10 ' due to being formed high-speed flow beam by convergent contour cavity wall about beam acceleration, The pressure energy of first high energy gas crosses over forward first along the first arc-shaped secondary chamber 10 ' at flow velocity energy, high-speed flow beam Impeller cavity 7 ' before a impeller cavity 7 ' is known as negative one impeller cavity 7 ' by the first arc-shaped secondary most narrow end jet of chamber 10 ' It is interior that mouthfuls 15 ' high speeds spray into lower minus two impeller cavities 7 ' of pressure, releases energy promotion to minus two impeller cavities, 7 ' front vane 4 ' Minus two impeller cavities, 7 ' front vane 4 ' makes the rotation acting of the second impeller, and high-speed flow beam hits minus two impeller cavities, 7 front vane 4 ' It is interior to be lowered into minus two impeller cavity 7 ' for flow velocity afterwards, and the interior pressure rise of minus two impeller cavity 7 ' is oppressed in minus two impeller cavity 7 ' Movable tongue 5 ' make its downlink, with the rotation of the second impeller, when minus two impeller cavity 7 ' turns to the second arc-shaped secondary chamber When 10 ' air inlet 14 ', the first interior high energy gas of minus two impeller cavity 7 ' is again through the second 10 ' air inlet 14 ' of arc-shaped secondary chamber It is interior to spray into the second arc-shaped secondary chamber 10 ', the uplink promotion under the influence of centrifugal force of the interior movable tongue 5 ' of minus two impeller cavity 7 ' The first interior high energy gas of minus two impeller cavity 7 ' accelerates into that the second arc-shaped secondary chamber 10 ' is interior, and the second arc-shaped secondary chamber 10 ' is interior Pressure rise, the first high energy gas continue the acceleration formation height again that narrows with the convergent contour cavity wall of the second arc-shaped secondary chamber 10 ' Fast air flow stream, high-speed flow beam is along the second arc-shaped secondary chamber 10 ' forward across negative trilobed wheel cavity 7 ' through the second arc-shaped secondary chamber 15 ' high speed penetrating lower minus four impeller cavity 7 ' of pressure of puff prot of 10 ' most narrow ends is interior, to minus four impeller cavities, 7 ' front vane 4 ', which release energy, pushes minus four impeller cavities, 7 ' front vane 4 ' that the second impeller is made persistently to rotate acting, and high-speed flow beam hits minus four It is interior that the rear flow velocity of 7 ' front vane of impeller cavity 4 ' is lowered into minus four impeller cavity 7 ', and the interior pressure of minus four impeller cavity 7 ' rises, 5 ' compression downlink of movable tongue in minus four impeller cavity 7 ', with the lasting rotation of the second impeller, when minus four impeller cavity 7 ' When turning to the arc-shaped secondary 10 ' air inlet 14 ' of chamber of third, the first interior high energy gas of minus four impeller cavity 7 ' will be along minus four impeller 7 front vane 4 ' of cavity is interior through the arc-shaped secondary arc-shaped secondary chamber 10 ' of 10 ' air inlet 14 ' of chamber penetrating third of third, minus four impeller cavity 7 ' interior movable tongues 5 ' the first high energy gas that uplink pushes minus four impeller cavity 7 ' interior under the influence of centrifugal force accelerate into It is interior to enter the arc-shaped secondary chamber 10 ' of third, the first high energy gas adds as the convergent contour cavity wall of the arc-shaped pair chamber 10 ' of third continues to narrow Fast third time forms high-speed flow beam, and high-speed flow beam is along the arc-shaped secondary chamber 10 ' of third forward across after minus five impeller cavity 7 ' It is interior through the arc-shaped secondary chamber 10 ' of third most 15 ' high speed penetrating lower minus six impeller cavity 7 ' of pressure of narrow end puff prot, to minus six leaf Wheel 7 ' front vane 4 ' of cavity, which releases energy, pushes minus six impeller cavities, 7 ' front vane 4 ' to make the rotation acting of the second impeller, high-speed flow Beam hits the rear flow velocity of minus six impeller cavities, 7 ' front vane 4 ' and is lowered into that minus six impeller cavity 7 ' is interior, and minus six impeller cavity 7 ' is interior Pressure rises while oppressing the 5 ' downlink of movable tongue in minus six impeller cavity 7 ', continues to rotate with impeller, the first high energy Gas continuously will enter arc-shaped secondary chamber 10 ' and form high-speed flow beam by impeller cavity 7 ' to be sprayed through puff prot 15 ' Preceding impeller blade 4 ' is hit out, is released energy to blade 4 ' and is pushed the rotation acting of the second impeller, power is exported through wheel shaft 3, When first high energy gas rotates to impeller wheel 20 ' exhaust outlet 9 ' of chamber with impeller cavity 7 ', through be repeated several times release energy after at It is discharged for low energy gases through exhaust duct 13 ', when first 7 ' rear blade 4 ' of impeller cavity turns over 20 ' air inlet 8 ' of impeller wheel chamber When, 20 ' air inlet 8 ' of impeller wheel chamber place high energy gas do not enter back into first impeller cavity 7 ', meanwhile, impeller wheel chamber 20 ' into Second impeller cavity 7 ' of the second high energy gas penetrating that port 8 ' is located is interior and shock has just turned over 20 ' air inlet 8 ' of impeller wheel chamber First impeller cavity, 7 ' rear blade 4 ' namely second 7 ' front vane 4 ' of impeller cavity, oppress second impeller cavity 7 ' On 5 ' downlink of movable tongue, the second high energy gas releases energy and pushes for the first time to second 7 ' front vane 4 ' of impeller cavity Second 7 ' front vane 4 ' of impeller cavity makes the second impeller persistently rotate acting, when second 7 ' front vane 4 ' of impeller cavity rotates When to the first arc-shaped secondary 10 ' air inlet 14 ' of chamber, the second interior high energy gas of second impeller cavity 7 ' repeats front first The acting of high energy gas acts, i.e. the second interior high energy gas of second impeller cavity 7 ' is along second 7 ' front vane of impeller cavity 4 ' spray into that the first arc-shaped secondary 10 ' air inlets 14 ' of chamber are interior, the second high energy gas with first arc-shaped secondary 10 ' convergent contour chamber The wall acceleration that continues to narrow forms high-speed flow beam, and the pressure energy of the second high energy gas is at flow velocity energy, high-speed flow beam edge First arc-shaped secondary chamber 10 ' is forward across first impeller cavity 7 ' by the first arc-shaped secondary most narrow end puff prot 15 ' of chamber 10 ' It is interior that high speed sprays into the lower negative one impeller cavity 7 ' of pressure, and oppresses the 5 ' downlink of movable tongue in negative one impeller cavity 7 ' to negative One impeller cavity, 7 ' front vane 4 ', which releases energy, pushes 7 ' front vane 4 ' of negative one impeller cavity to make the rotation acting of the second impeller, high speed Air flow stream hits the rear flow velocity of 7 ' front vane of negative one impeller cavity 4 ' and is lowered into that negative one impeller cavity 7 ' is interior to make cavity pressure liter Height, with the rotation of the second impeller, the second interior high energy gas of negative one impeller cavity 7 ' is again along 7 ' frontal lobe of negative one impeller cavity Piece 4 ' is interior through the arc-shaped secondary chamber 10 ' of the penetrating of air inlet 14 ' second, and the movable tongue 5 ' in negative one impeller cavity 7 ' is in centrifugal force Lower the second high energy gas for accelerating uplink to push negative one impeller cavity 7 ' interior of effect sprays into the second arc-shaped secondary chamber through air inlet 14 ' 10 ' is interior, and the second high energy gas continues the acceleration formation high speed gas again that narrows with the convergent contour cavity wall of the second arc-shaped secondary chamber 10 ' A fluid stream, high-speed flow beam is along the second arc-shaped secondary chamber 10 ' forward across minus two impeller cavity 7 ' by the second arc-shaped secondary chamber 10 ' puff prot, the 15 ' high speed penetrating lower negative trilobed wheel cavity 7 ' of pressure is interior, and the second high energy gas oppresses negative trilobed wheel cavity 7 ' On 5 ' downlink of movable tongue and release energy to negative 7 ' front vane 4 ' of trilobed wheel cavity and push negative 7 ' front vane of trilobed wheel cavity 4 ' third times push the rotation acting of the second impeller, and high-speed flow beam, which hits the rear flow velocity of negative 7 ' front vane of trilobed wheel cavity 4 ', to be reduced simultaneously Cavity pressure is set to increase the movable tongue downlink oppressed on negative trilobed wheel cavity 7 ' into negative trilobed wheel cavity 7 ' is interior, with second The rotation of impeller, the second interior high energy gas of negative trilobed wheel cavity 7 ' equally will be along negative 7 ' front vanes 4 ' of trilobed wheel cavity through third The arc-shaped arc-shaped secondary chamber 10 ' of pair 10 ' air inlet 14 ' of chamber penetrating third is interior, the 5 ' In of movable tongue on negative trilobed wheel cavity 7 ' Accelerate the second high energy gas for pushing negative trilobed wheel cavity 7 ' interior arc-shaped through the penetrating of air inlet 14 ' third under the action of centrifugal force Secondary chamber 10 ' is interior, and the second high energy gas continues the acceleration formation height again that narrows with the convergent contour cavity wall of the arc-shaped secondary chamber 10 ' of third Fast air flow stream, high-speed flow beam spray into lower minus five leaf of pressure through 15 ' high speed of puff prot forward along the arc-shaped secondary chamber 10 ' of third It takes turns the 5 ' downlink of movable tongue in interior minus five impeller cavity 7 ' of compressing of cavity 7 ' and is discharged to minus five impeller cavities, 7 ' front vane 4 ' Energy simultaneously pushes the 4th the second impeller of the promotion rotation acting of minus five impeller cavities, 7 ' front vane 4 ', and high-speed flow beam hits minus five The rear flow velocity of 7 ' front vane of impeller cavity 4 ' is lowered into the interior interior pressure liter of minus five impeller cavity 7 ' made of minus five impeller cavity 7 ' Height simultaneously oppresses the 5 ' downlink of movable tongue in minus five impeller cavity 7 ', and the second high energy gas equally continuously enters through impeller cavity 7 ' Arc-shaped pair chamber 10 ' hits preceding impeller blade 4 ' again and pushes the rotation acting of the second impeller, and the second high energy gas is until with leaf When wheel cavity 7 ' arrives impeller wheel 20 ' exhaust outlet 13 ' of chamber, the second high energy gas after being repeated several times and releasing energy becomes low energy gas Body is discharged through 20 ' exhaust outlet 9 ' of impeller wheel chamber into exhaust duct 13 ', with the rotation of the second impeller, second impeller cavity 7 ' Rear blade 4 turns over 20 ' air inlet 8 ' of impeller wheel chamber, and the third high energy gas at 20 ' air inlet 8 ' of impeller wheel chamber place will continue to spray into Third impeller cavity 7 ' is interior, and third high energy gas continues to hit second leaf for just having turned over 20 ' air inlet 8 ' of impeller wheel chamber Wheel 7 ' rear blade 4 ' of cavity namely 7 ' front vane 4 ' of third impeller cavity simultaneously oppresses the movable tongue in third impeller cavity 7 ' 5 ' downlinks, third high energy gas release energy for the first time to 7 ' front vane 4 ' of third impeller cavity and push third impeller empty 7 ' front vane 4 ' of chamber makes the second impeller persistently rotate acting, with the lasting rotation of the second impeller, in front of subsequent each high energy gas Face high energy gas equally constantly repeats to do identical acting movement, arranges until with each impeller cavity 7 ' to impeller wheel chamber 20 ' When port 9 ', each high energy gas becomes low energy gases after the acting that continuously releases energy and is discharged through exhaust duct 13 '.It can in work To find out, the first impeller shares a wheel shaft 3 with the second impeller, and what wheel shaft 3 exported is the power of the first impeller and the second impeller Summation, it can thus be seen that on same root wheel shaft 3 not only can equipped with a work doing impeller and also fill there are two do work leaf Wheel, equally may be provided with multiple work doing impellers, and when being equipped with multiple impellers, the power summation of multiple work doing impellers is jointly through taking turns Axis 3 exports, and the Scrawl pair chamber 10 on the first impeller wheel chamber 20, which has, to be absorbed storage high energy gas and convert high energy gas The effect and function for being used to that blade 4 is pushed to do work at high-speed eddy, high energy gas is every will to be turned by a Scrawl pair chamber 10 Change primary and discharge primary energy to blade 4, same high energy gas during impeller rotates a circle in impeller cavity 7 can It is released energy with being repeated several times, so that the energy conversion efficiency of high energy gas has been obtained effective raising, in the second impeller wheel chamber 20 ' On arc-shaped secondary chamber 10 ' equally have to absorb storage high energy gas and high energy gas is converted to high-speed flow beam and be used to push The effect and function that blade 4 ' does work, high energy gas is every will be converted by an arc-shaped secondary chamber 10 ' it is primary and to blade 4 ' release primary energies, the interior same high energy gas of impeller cavity 7 ', which can be repeated several times, during impeller rotates a circle releases Exoergic amount makes the energy conversion efficiency of high energy gas obtain effective raising, and the movable tongue 5 ' on the second impeller again can be with The high energy gas in centrifugal force boosting impeller cavity 7 for making full use of impeller rotation to generate accelerates into arc-shaped secondary chamber 10 ', living Dynamic tongue piece 5 ' enters secondary chamber to high energy gas and plays the role of a power-assisted, in addition, effect of the movable tongue 5 ' in centrifugal force Lower uplink allows the 7 ' volume of impeller cavity of 5 ' top of movable tongue to become smaller again, so that high energy gas is through arc-shaped secondary chamber 10 ' Spraying into impeller wheel chamber 20 ' again pushes the time of the acting of blade 4 ' and distance to obtain effective extension, and in high energy gas to leaf Piece 4 ' plays the role of transfiguration delay synergistic when doing work, and as the 5 ' power-assisted transfiguration of the raising movable tongue of wheel speed is delayed The effect of synergy can be stronger, and movable tongue 5 ' enhances effective pressure of the high energy gas in secondary chamber 10 ', and movable tongue 5 ' is effective The timeliness for extending the high energy gas in arc-shaped secondary chamber 10 ' and doing work to impeller blade, further improve high energy gas To the energy conversion efficiency of impeller blade acting.

Fig. 7, Fig. 8, Fig. 9 show the third embodiment of the wheeled acting device of the utility model, by attached drawing as can be seen that originally Implement the novel wheel-type exemplified acting device to be mainly made of shell 1, impeller, there is cooling fin 21 on the shell 1, it is described Impeller is made of wheel body 2, wheel shaft 3, blade 4, and the blade 4 is mounted on 2 excircle of wheel body, 4 axial one, the blade Side is blocked by wheel piece 18, and 2 center of wheel body is equipped with wheel shaft 3, and bearing 16, institute are housed on one end of wheel shaft 3 in the shell 1 It states impeller to be mounted in 1 inner impeller wheel chamber 20 of shell, the size of the impeller wheel chamber 20 matches with impeller, and the impeller is with wheel 20 internal chamber wall of chamber keeps small airtight gap, keeps sealing as far as possible but not with wheel 20 internal chamber wall of chamber contact, the 1 lubrication groove chamber of shell Have air inlet 8 and exhaust outlet 9 on 20, there is control valve 11 at the air inlet 8, the air inlet 8 and exhaust outlet 9 respectively by into Air flue 12 and exhaust duct 13 are communicated with outside, 1 lubrication groove chamber of shell, 20 air inlet 8 with 9 lie farthest away of exhaust outlet semicircle with Corresponding wheel 20 periphery of chamber of impeller blade 4 has multiple screw type pair chambers 10 being arranged successively, the screw type pair chamber 10 Air inlet 14 other than 2 periphery of impeller wheel body with impeller blade 4 it is corresponding wheel 20 circumference of chamber do not take turns piece 18 closure Communicated on side with wheel chamber 20, the screw type pair chamber 10 since air inlet 14 helically type along impeller direction of rotation to impeller Wheel 20 outer circle exhaust outlet of chamber, 9 sidespin is gone to above the circumference periphery of impeller wheel chamber 20 through 10 puff prot 15 of screw type pair chamber with leaf Wheel wheel chamber 20 communicates, and the screw type pair chamber 10 is from air inlet 14 to puff prot 15 in convergence shape, the spiral being arranged successively Type pair 10 sizes of chamber are identical.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is through the impeller wheel chamber 20 on shell 1 Air intake duct 12 enters 20 air inlet 8 of impeller wheel chamber, opens the control valve 11 at air inlet 8, and the high energy gas at air inlet 8 exists Referred to herein as the first high energy gas enters in wheel chamber 20 through control valve 11, and the impeller cavity 7 at air inlet 8 is referred to herein as the first leaf Cavity 7 is taken turns, the first high energy gas hits the front vane 4 of the first impeller cavity 7 first, releases to the front vane 4 of the first impeller cavity 7 Exoergic amount pushes front vane 4 to make wheel rotation, and the first high energy gas is reduced by the blocking flow velocity of 7 front vane 4 of the first impeller cavity, The first high energy gas at wheel 20 air inlet 8 of chamber continues to spray into the high energy gas made in the first impeller cavity 7 in first impeller cavity 7 Body pressure increases rapidly, when 7 front vane 4 of the first impeller cavity turns to first screw type pair chamber 10 abbreviated here as the first pair When 10 air inlet 14 of chamber, the first high energy gas in the first impeller cavity 7 sprays at a high speed pressure through the first secondary 10 air inlet 14 of chamber In lower first secondary chamber 10, the aggregation in the first secondary chamber 10 of the first high energy gas makes the pressure rise in the first secondary chamber 10, the The first high energy gas in one secondary chamber 10 is rotated forward outward along the direction that impeller rotates to the first leaf along the first secondary chamber 10 First impeller cavity 7 for taking turns 7 front of cavity is referred to herein as on the corresponding 20 circumference periphery of wheel chamber of negative one impeller cavity 7, warp First secondary 10 puff prot 15 of chamber sprays into the lower negative one impeller cavity 7 of pressure, discharges energy to 7 front vane 4 of negative one impeller cavity Amount pushes impeller rotation acting, with the rotation of impeller, when 7 front vane 4 of negative one impeller cavity turns to second screw type pair When chamber 10 is abbreviated here as the second secondary 10 air inlet 14 of chamber, the first high energy gas in negative one impeller cavity 10 is again through the second pair 10 air inlet 14 of chamber enters in the secondary chamber 10 of pressure lower second, the high energy gas pressure reduction in negative one impeller cavity 7, and first It pressure rise and is rotated forward outward along the direction that impeller rotates to negative one leaf after high energy gas is assembled in the second secondary chamber 10 The impeller cavity 7 of 7 front of wheel cavity is referred to here as being negative on the corresponding 20 circumference periphery of wheel chamber of two impeller cavity 7, through the second pair 10 puff prot 15 of chamber sprays into lower minus two impeller cavity 7 of pressure, releases energy promotion to minus two impeller cavities, 7 front vane 4 Impeller rotation acting, with the rotation of impeller, the first high energy gas is by repeatedly disengaging screw type pair chamber 10 and to preceding leaf Impeller blade 4 is finally reduced to time energy gas and as impeller cavity 7 is rotated to 20 exhaust outlet 9 of impeller wheel chamber, through leaf after releasing energy Wheel wheel 20 exhaust outlet 9 of chamber enters exhaust duct 13 and is discharged, and equally, turns over 20 air inlet of impeller wheel chamber in 7 rear blade 4 of the first impeller cavity When mouth 8, the high energy gas at 20 air inlet 8 of impeller wheel chamber is not entered back into the first impeller cavity 7,20 air inlet 8 of impeller wheel chamber We will be referred to as the second high energy gas in the second impeller cavity 7 of penetrating to the high energy gas at place at this time, continues shock and just turns Cross 7 front vane 4 of the second impeller cavity namely the first impeller cavity, 7 rear blade 4 of 20 air inlet 8 of impeller wheel chamber, the second high energy Gas releases energy to 7 front vane 4 of the second impeller cavity pushes impeller persistently to rotate acting, when 7 front vane 4 of the second impeller cavity When turning to the first secondary 10 air inlet 14 of chamber, the second high energy gas in the second impeller cavity 7 is through the first 10 air inlet 14 of secondary chamber High speed sprays into the first secondary chamber 10, and the second high energy gas pressure reduction in the second impeller cavity 7, the second high energy gas is first It pressure rise and is rotated forward outward along the direction that impeller rotates to the corresponding wheel of the first impeller cavity 7 after aggregation in secondary chamber 10 It above 20 circumference periphery of chamber, is sprayed into the first relatively low impeller cavity 7 of pressure through the first secondary 10 puff prot 15 of chamber, to the One impeller cavity, 7 front vane 4, which releases energy, pushes impeller rotation acting, when 7 front vane 4 of the first impeller cavity turns to second When screw type pair chamber 10 is the second secondary 10 air inlet 14 of chamber, the second high energy gas in the first impeller cavity 10 is again through the second pair 10 air inlet 14 of chamber enters in the second relatively low secondary chamber 10 of pressure, the high energy gas pressure reduction in the first impeller cavity 7, the It pressure rise and is rotated forward outward along the direction that impeller rotates to negative one after two high energy gas are assembled in the second secondary chamber 10 On the corresponding 20 circumference periphery of wheel chamber of impeller cavity 7, the relatively lower negative one of pressure is sprayed into through the second secondary 10 puff prot 15 of chamber In impeller cavity 7, releases energy to 7 front vane 4 of negative one impeller cavity and push impeller rotation acting, with the rotation of impeller, the Two high energy gas also pass through repeatedly disengaging screw type pair chamber 10 and are finally reduced to after releasing energy to preceding impeller blade 4 secondary Can gas and as the rotation of impeller cavity 7 is to 20 exhaust outlet 9 of impeller wheel chamber, enter exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber Discharge.With the rotation of impeller, high energy gas at 20 air inlet 8 of impeller wheel chamber by continue by each impeller cavity In 7, the high energy gas in each impeller cavity 7 will equally enter screw type with the high energy gas in the first, second impeller cavity 7 Then secondary chamber 10 rotates forward preceding to being sprayed on 20 periphery of impeller wheel chamber through puff prot 15 upwards along screw type pair chamber 10 Impeller blade 4 is pushed to do work in the relatively low impeller cavity 7 of pressure, until with the rotation of impeller cavity 7 to 20 row of impeller wheel chamber When port 9, just enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged.As can be seen that screw type pair chamber 10 is same in work Have the function of storing high energy gas, the higher high energy gas of pressure stored in screw type pair chamber 10 is again through secondary 10 puff prot of chamber 15 spray into the relatively low impeller cavity 7 of preceding pressure again and 7 front vane 4 of impeller cavity are pushed to do impeller rotation Function, each screw type pair chamber 10 that pass into same high energy gas can repeatedly during impeller rotates a circle, so It is sprayed into the relatively low impeller cavity 7 of preceding pressure again through each 10 puff prot 15 of screw type pair chamber again afterwards and pushes impeller 7 front vane 4 of cavity makes impeller rotation acting, that is to say, that screw type pair chamber 10 revolves same high energy gas in impeller in work Have the function of that repeatedly collect storage discharges high energy gas again, allows same high energy gas to impeller blade 4 during circling It is repeatedly done work, improves energy release conversion times of the same high energy gas in impeller rotates a circle, the utility model is wheeled Do work single wheeled work doing impeller in device under identical operating pressure compared with the existing technology in single wheeled work doing impeller With higher energy conversion efficiency, it is truly realized energy saving and efficiency increasing purpose.

Figure 10, Figure 11, Figure 12 show the 4th embodiment of the wheeled acting device of the utility model, can be seen by attached drawing Out, the novel wheel-type acting device shown in the present embodiment be by being mainly made of shell 1, impeller, the impeller by wheel body 2, Wheel shaft 3, blade 4 are constituted, and the blade 4 is mounted on 2 excircle of wheel body, and 2 center of wheel body is equipped with wheel shaft 3, the shell 1 Bearing 16 is respectively provided on the both ends of interior wheel shaft 3, the impeller is mounted in 1 inner impeller wheel chamber 20 of shell, the impeller wheel chamber 20 size matches with impeller, and the impeller keeps small airtight gap with wheel 20 internal chamber wall of chamber, keeps sealing but not as far as possible With wheel 20 internal chamber wall of chamber contact, there are air inlet 8 and exhaust outlet 9 on the 1 lubrication groove chamber 20 of shell, have control at the air inlet 8 Valve 11, the air inlet 8 and exhaust outlet 9 are communicated by air intake duct 12 and exhaust duct 13 with outside respectively, the 1 lubrication groove chamber of shell 20 air inlets 8, which have with the semicircle of 9 lie farthest away of exhaust outlet with the corresponding 20 circumference two sides of wheel chamber of impeller blade 4, multiple successively to be arranged The screw type pair chamber 10 of column, the air inlet 14 of the screw type pair chamber 10 is other than 2 periphery of impeller wheel body with 4 phase of impeller blade It is communicated on corresponding 20 circumference two sides of wheel chamber with wheel chamber 20, helically type is suitable since the air inlet 14 for the screw type pair chamber 10 Impeller direction of rotation is gone to above the circumference periphery of impeller wheel chamber 20 to 20 outer circle exhaust outlet of impeller wheel chamber, 9 sidespin through screw type Secondary 10 puff prot 15 of chamber is communicated with impeller wheel chamber 20, and the screw type pair chamber 10 is in convergence shape from air inlet 14 to puff prot 15, The screw type pair chamber 10 that 20 circumference two sides of the wheel cavity are arranged successively successively becomes larger since 10 air inlet 14 of screw type pair chamber.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is through the impeller wheel chamber 20 on shell 1 Air intake duct 12 enters 20 air inlet 8 of impeller wheel chamber, opens the control valve 11 at air inlet 8, and the high energy gas at air inlet 8 exists Referred to herein as the first high energy gas enters in wheel chamber 20 through control valve 11, and the impeller cavity 7 at air inlet 8 is referred to herein as the first leaf Cavity 7 is taken turns, the first high energy gas hits the front vane 4 of the first impeller cavity 7 first, releases to the front vane 4 of the first impeller cavity 7 Exoergic amount pushes front vane 4 to make wheel rotation, and the first high energy gas is reduced by the blocking flow velocity of 7 front vane 4 of the first impeller cavity, The first high energy gas at wheel 20 air inlet 8 of chamber continues to spray into the high energy gas made in the first impeller cavity 7 in first impeller cavity 7 Body pressure increases rapidly, when 7 front vane 4 of the first impeller cavity turn to wheel the screw type pair chamber 10 of 20 circumference two sides of chamber first this In referred to as the first secondary 10 air inlet 14 of chamber when, the first high energy gas in the first impeller cavity 7 is through wheel 20 circumference two sides of chamber the One secondary 10 air inlet 14 of chamber sprays at a high speed in lower 20 the first secondary chamber 10 of circumference two sides of wheel chamber of pressure, and the first high energy gas is being taken turns Aggregation makes to take turns the pressure rise in 20 the first secondary chamber 10 of circumference two sides of chamber in 20 the first secondary chamber 10 of circumference two sides of chamber, takes turns 20 circumference of chamber The first high energy gas in the secondary chamber 10 in two sides first is along 20 the first secondary chamber 10 of circumference two sides of wheel chamber along the direction that impeller rotates First impeller cavity 7 rotated forward outward to 7 front of the first impeller cavity is referred to herein as the corresponding wheel of negative one impeller cavity 7 On 20 circumference periphery of chamber, it is empty that the puff prot 15 through 20 the first secondary chamber 10 of circumference two sides of wheel chamber sprays into the lower negative one impeller of pressure In chamber 7, releases energy to 7 front vane 4 of negative one impeller cavity and push impeller rotation acting, with the rotation of impeller, when negative one leaf Wheel 7 front vane 4 of cavity turns to the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second abbreviated here as wheel 20 circumference two sides of chamber When the second secondary 10 air inlet 14 of chamber, the first high energy gas in negative one impeller cavity 10 is secondary through 20 circumference two sides second of wheel chamber again 10 air inlet 14 of chamber enters in lower 20 the second secondary chamber 10 of circumference two sides of wheel chamber of pressure, the high energy gas in negative one impeller cavity 7 Body pressure reduction pressure rise and is revolved after the first high energy gas is assembled in the secondary chamber 10 in 20 circumference two sides second of wheel chamber along impeller The impeller cavity 7 that the direction turned is rotated forward outward to 7 front of the second impeller cavity is corresponding referred to here as two impeller cavities 7 that are negative It takes turns on 20 circumference periphery of chamber, it is empty to spray into lower minus two impeller of pressure through 20 the second secondary 10 puff prot 15 of chamber of circumference two sides of wheel chamber In chamber 7, releases energy to minus two impeller cavities, 7 front vane 4 and push impeller rotation acting, with the rotation of impeller, the first high energy Gas most final decline after repeatedly passing in and out wheel 20 circumference two sides screw type pair chamber 10 of chamber and releasing energy to preceding impeller blade 4 For secondary energy gas and with the rotation of impeller cavity 7 to 20 exhaust outlet 9 of impeller wheel chamber, enters through 20 exhaust outlet 9 of impeller wheel chamber and be vented Road 13 is discharged, equally, when 7 rear blade 4 of the first impeller cavity turns over impeller wheel 20 air inlet 8 of chamber, 20 air inlet 8 of impeller wheel chamber The high energy gas at place does not enter back into the first impeller cavity 7, we will claim the high energy gas at 20 air inlet 8 of impeller wheel chamber at this time For the second high energy gas will spray into the second impeller cavity 7 in, continue hit just turned over the second of 20 air inlet 8 of impeller wheel chamber 7 front vane 4 of impeller cavity namely the first impeller cavity, 7 rear blade 4, the second high energy gas is to 7 front vane 4 of the second impeller cavity It releases energy and impeller is pushed persistently to rotate acting, when 7 front vane 4 of the second impeller cavity turns to 20 the first pair of circumference two sides of wheel chamber When 10 air inlet 14 of chamber, the second high energy gas in the second impeller cavity 7 is through 20 circumference two sides 10 air inlet of the first secondary chamber of wheel chamber 14 high speeds spray into 20 the first secondary chamber 10 of circumference two sides of wheel chamber, the second high energy gas pressure reduction in the second impeller cavity 7, the The pressure rise and direction rotated along impeller is outside after two high energy gas are assembled in the secondary chamber 10 in 20 circumference two sides first of wheel chamber It rotates forward to the corresponding 20 circumference periphery of wheel chamber of the first impeller cavity 7, through 20 the first secondary chamber 10 of circumference two sides of wheel chamber Puff prot 15 sprays into relatively low the first impeller cavity 7 of pressure, releases energy promotion to 7 front vane 4 of the first impeller cavity Impeller rotation acting is taken turns when 7 front vane 4 of the first impeller cavity turns to the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second When 20 the second secondary 10 air inlet 14 of chamber of circumference two sides of chamber, the second high energy gas in the first impeller cavity 10 is again through the wheel circle of chamber 20 Secondary 10 air inlet 14 of chamber in all two sides second enters in relatively low 20 the second secondary chamber 10 of circumference two sides of wheel chamber of pressure, and the first impeller is empty High energy gas pressure reduction in chamber 7, pressure liter after the second high energy gas is assembled in 20 the second secondary chamber 10 of circumference two sides of wheel chamber Height simultaneously rotates forward along the direction that impeller rotates to the corresponding 20 circumference periphery of wheel chamber of negative one impeller cavity 7 outward, passes through It takes turns 20 the second secondary 10 puff prot 15 of chamber of circumference two sides of chamber to spray into the relatively lower negative one impeller cavity 7 of pressure, to negative one impeller 7 front vane 4 of cavity, which releases energy, pushes impeller rotation acting, and with the rotation of impeller, the second high energy gas is also passed through repeatedly Disengaging takes turns 20 circumference two sides screw type pair chamber 10 of chamber and is finally reduced to time energy gas after releasing energy to preceding impeller blade 4 simultaneously With the rotation of impeller cavity 7 to 20 exhaust outlet 9 of impeller wheel chamber, enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged.With The rotation of impeller, high energy gas at 20 air inlet 8 of impeller wheel chamber by continue by each impeller cavity 7 in, it is each High energy gas in impeller cavity 7 will equally enter wheel 20 circumference two sides of chamber with the high energy gas in the first, second impeller cavity 7 Then screw type pair chamber 10 rotates forward to 20 periphery of impeller wheel chamber upwards along wheel 20 circumference two sides screw type pair chamber 10 of chamber Spraying into the relatively low impeller cavity 7 of preceding pressure through puff prot 15 pushes impeller blade 4 to do work, until with impeller cavity When 7 rotations to impeller wheel 20 exhaust outlet 9 of chamber, just enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged.It can be seen in work Out, 20 circumference two sides screw type pair chamber 10 of wheel chamber equally has the function of storing high energy gas, takes turns 20 circumference two sides screw type of chamber The higher high energy gas of pressure stored in secondary chamber 10 is sprayed into again through taking turns 20 circumference two sides pair chamber of chamber, 10 puff prot 15 preceding again The relatively low impeller cavity 7 of pressure in and push 7 front vane 4 of impeller cavity to make impeller rotation acting, make same high energy gas The each screw type pair chamber 10 in 20 circumference two sides of wheel chamber that body can be passed into repeatedly during impeller rotates a circle, then Each 10 puff prot 15 of screw type pair chamber in 20 circumference two sides of chamber is taken turns again sprays into the relatively low impeller sky of preceding pressure again 7 front vane 4 of impeller cavity is pushed to make impeller rotation acting in chamber 7, that is to say, that take turns 20 circumference two sides screw type pair of chamber in work Chamber 10 has the function of that repeatedly collect storage discharges high energy gas again to same high energy gas during impeller rotates a circle, It allows same high energy gas repeatedly to do work impeller blade 4, improves energy of the same high energy gas in impeller rotates a circle Amount discharges conversion times, and single wheeled work doing impeller is under identical operating pressure relative to existing in the wheeled acting device of the utility model Single wheeled work doing impeller in technology has higher energy conversion efficiency, realizes energy saving and efficiency increasing purpose.

Figure 13, Figure 14, Figure 15 show the 5th embodiment of the wheeled acting device of the utility model, can be seen by attached drawing Out, the novel wheel-type acting device shown in the present embodiment be by being mainly made of shell 1, impeller, the impeller by wheel body 2, Wheel shaft 3, blade 4, movable tongue 5 are constituted, and the blade 4 is mounted on 2 excircle of wheel body, and 2 center of wheel body is equipped with wheel shaft 3, bearing 16 is housed, the impeller is mounted in 1 inner impeller wheel chamber 20 of shell, the leaf in the shell 1 on one end of wheel shaft 3 The size of wheel wheel chamber 20 matches with impeller, and the impeller keeps small airtight gap with wheel 20 internal chamber wall of chamber, keeps as far as possible close Envelope but not with wheel 20 internal chamber wall of chamber contact, there is air inlet 8 and exhaust outlet 9 on the 1 lubrication groove chamber 20 of shell, at the air inlet 8 There is control valve 11, the air inlet 8 and exhaust outlet 9 are communicated by air intake duct 12 and exhaust duct 13 with outside respectively, the impeller It is the double shrouded wheel structure that 4 both sides of blade are all blocked by wheel piece 18, has between adjacent two blade 4 of the impeller same with blade 4 It is wide and can be up and down tongue piece 5, a side of the tongue piece 5 is lived with 4 top margin of lateral lobe piece clockwise in adjacent two blade 4 Moving axis 6 carries out active connection, and the tongue piece 5 on blade face that movable axis 6 is the adjacent another blade 4 in another edge of axle center to glide Dynamic, top dead centre is no more than corresponding 4 top margin of blade, 4 face camber its radian of blade corresponding to 5 active edges of tongue piece Match with the sliding radian of 5 sliding edge of tongue piece, is sealed as far as possible in the case where guaranteeing that tongue piece 5 is free to slide, the impeller leaf The width of piece 4 is greater than the width of impeller wheel body 2, semicircle of 1 lubrication groove chamber of shell, 20 air inlet 8 with 9 lie farthest away of exhaust outlet With impeller blade 4, there are multiple screw type pair chambers 10 being arranged successively, 20 circumference of the wheel cavity in corresponding wheel 20 circumference two sides of chamber The air inlet 14 for the screw type pair chamber 10 that two sides are arranged successively is corresponding with impeller blade 4 other than 2 periphery of impeller wheel body Communicated on wheel 20 circumference two sides of chamber and with wheel chamber 20, the screw type pair chamber 10 since the air inlet 14 helically type along impeller Direction of rotation is gone to above the circumference periphery of impeller wheel chamber 20 to 20 outer circle exhaust outlet of impeller wheel chamber, 9 sidespin through screw type pair chamber 10 puff prots 15 are communicated with impeller wheel chamber 20, and the screw type pair chamber 10 that 20 circumference two sides of the wheel cavity are arranged successively is from air inlet 14 To puff prot 15 in convergence shape, the screw type pair chamber 10 that 20 circumference two sides of the wheel cavity are arranged successively takes turns 8 liang of 20 air inlet of chamber certainly The beginning of side first successively becomes larger, and has multiple arc-shaped secondary chambers 10 being arranged successively on the 20 circumference periphery of impeller wheel chamber, Arc-shaped secondary 10 air inlet 14 of chamber is communicated in wheel 20 air inlet of chamber, 8 side with wheel chamber 20,10 puff prot of the arc-shaped secondary chamber 15 forward 20 exhaust outlet of impeller wheel chamber, 9 side across wheel 20 two sides screw type pair chamber of chamber, 10 puff prot 15 followed by wheel chamber 20 communicate, institute Stating arc-shaped secondary chamber 10 is in convergence shape from air inlet 14 to puff prot 15, the wheel piece between 7 two sides of impeller cavity, two blade 4 There is stomata 19 from the corresponding bottom of air inlet 14 with screw type pair chamber 10 on 18.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is through the impeller wheel chamber 20 on shell 1 Air intake duct 12 enters 20 air inlet 8 of impeller wheel chamber, opens the control valve 11 at air inlet 8, and the high energy gas at air inlet 8 exists Referred to herein as the first high energy gas enters in wheel chamber 20 through control valve 11, and the impeller cavity 7 at air inlet 8 is referred to herein as the first leaf Cavity 7 is taken turns, the front vane 4 that the first high energy gas hits the first impeller cavity 7 first is discharged to 7 front vane 4 of the first impeller cavity Energy pushes front vane 4 to make wheel rotation while oppressing 5 downlink of movable tongue, and downlink is simultaneously under the compressing of high energy gas for tongue piece 5 It forces 5 inferior lobe of tongue piece to make a turn intracavitary gas and enters wheel 20 two sides of chamber through 7 liang of side wheel pieces of the first impeller cavity, 18 bottom stomata 19 In corresponding 10 air inlet 14 of screw type pair chamber, tongue piece 5 slips over always 7 two sides of the first impeller cavity under the compressing of high energy gas It takes turns 18 bottom stomata 19 of piece and reaches 7 bottom of the first impeller cavity, the first high energy gas in the first impeller cavity 7 is by the first impeller The blocking flow velocity of 7 front vane 4 of cavity reduces pressure and increases rapidly, rapid raised first high energy of pressure in the first impeller cavity 7 Gas enters wheel 20 circumference two of chamber through 7 liang of side wheel pieces of the first impeller cavity, 18 bottom stomata 19 and 10 air inlet 14 of screw type pair chamber In first screw type pair chamber 10 of side, the first high energy gas is in wheel 20 circumference two sides the first screw type pair chamber 10 of chamber along impeller It is empty that first impeller cavity 7 that the direction of rotation is rotated forward outward to 7 front of the first impeller cavity is referred to herein as negative one impeller On the corresponding 20 circumference periphery of wheel chamber of chamber 7, through the puff prot 15 on the secondary chamber 10 in 20 circumference two sides first of wheel chamber spray into pressure compared with In low negative one impeller cavity 7, pushes 7 front vane 4 of negative one impeller cavity and oppress the active tongue in negative one impeller cavity 7 simultaneously 5 downlink of piece releases energy to 7 front vane 4 of negative one impeller cavity and pushes impeller rotation acting, with the rotation of impeller, when first When 7 front vane 4 of impeller cavity turns to first arc-shaped secondary 10 air inlet 14 of chamber on wheel 20 periphery of chamber, the first impeller cavity The first high energy gas in 7 enters first arc-shaped secondary chamber 10 in the first impeller cavity 7 under the upward promotion of movable tongue 5 Interior and accelerate to form high-speed flow beam along convergent contour cavity wall, the pressure energy of the first high energy gas is high at flow velocity energy at this time Fast air flow stream directly arrives above minus two impeller cavity 7 across negative one impeller cavity 7 through spraying forward in the first arc-shaped secondary chamber 10 15 high speed ejection of port hits minus two impeller cavities, 7 front vane 4 and oppresses 5 downlink of movable tongue in minus two impeller cavity 7, to Minus two impeller cavities, 7 front vane 4 releases energy again pushes blade 4 to make impeller rotation acting again, with the lasting rotation of impeller Turn, when 7 front vane 4 of negative one impeller cavity turns to the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second abbreviated here as second When screw type pair 10 air inlet 14 of chamber, the first high energy gas in negative one impeller cavity 7 is through 7 liang of 18 bottoms of side wheel piece of impeller cavity Stomata 19 spray into the lower wheel chamber of pressure at a high speed with corresponding second screw type pair chamber, 10 air inlet 14 in wheel 20 circumference two sides of chamber In 20 circumference two sides the second screw type pair chambers 10, the first high energy gas is in wheel 20 circumference two sides the second screw type pair chamber of chamber, 10 cohesion Collection makes to take turns the pressure rise in 20 circumference two sides the second screw type pair chamber 10 of chamber, takes turns 20 circumference two sides the second screw type pair chamber 10 of chamber The first interior high energy gas along wheel 20 circumference two sides the second screw type pair chamber 10 of chamber along the direction that impeller rotates outward forward First impeller cavity 7 to 7 front of negative one impeller cavity is rotated referred to here as corresponding 20 circumference of wheel chamber of two impeller cavity 7 that is negative On periphery, the puff prot 15 for being taken turns 20 circumference two sides the second screw type pair chamber 10 of chamber sprays into lower minus two impeller cavity of pressure It in 7, pushes minus two impeller cavities, 7 front vane 4 and oppresses 4 downlink of movable tongue, discharge energy to minus two impeller cavities, 7 front vane 4 Amount push impeller rotation acting, when minus two impeller cavities, 7 front vane 4 turn to wheel 20 outer circumference surface of chamber on second it is arc-shaped When secondary chamber 10 is referred to herein as the second arc-shaped secondary chamber 10, the first high energy gas in minus two impeller cavity 7 is along minus two impeller cavity 7 4 top margin of front vane sprays into the second arc-shaped secondary chamber 10, the first high energy gas in minus two impeller cavity 7 movable tongue 5 from The second arc-shaped secondary chamber 10 is quickly entered under the promotion of mental and physical efforts and accelerates to form high-speed flow beam along convergent contour cavity wall, at this time first The pressure energy of high energy gas crosses over forward negative trilobed wheel in the second arc-shaped secondary chamber 10 at flow velocity energy, high-speed flow beam Cavity 7 directly arrives minus four impeller cavities, 7 top and hits minus four impeller cavities, 7 front vane 4 through 15 high speed ejection of puff prot and oppress 5 downlink of movable tongue in minus four impeller cavity 7 releases energy again to minus four impeller cavities, 7 front vane 4 and pushes blade again 4 make impeller rotation acting, with the lasting rotation of impeller, when minus four impeller cavities, 7 front vane 4 turns to wheel 20 outer circumference surface of chamber On first high energy gas of the third arc-shaped secondary chamber 10 when being referred to herein as the arc-shaped secondary chamber 10 of third, in minus four impeller cavity 7 Body sprays into the arc-shaped secondary chamber 10 of third along minus four impeller cavities, 7 front vane, 4 top margin, the first high energy in minus four impeller cavity 7 Gas quickly enters the arc-shaped secondary chamber 10 of third under the promotion of 5 centrifugal force of movable tongue and accelerates to form height along convergent contour cavity wall Fast air flow stream, the pressure energy of the first high energy gas is transformed to flow velocity energy again at this time, and high-speed flow beam is in the arc-shaped pair of third Minus six impeller cavities, 7 top is directly arrived through third 10 puff prot 15 of arc-shaped secondary chamber across minus five impeller cavity 7 forward in chamber 10 High speed ejection hits minus six impeller cavities, 7 front vane 4 and oppresses 5 downlink of movable tongue in minus six impeller cavity 7, to minus six leaf Wheel 7 front vane 4 of cavity releases energy again pushes blade 4 that impeller rotation is made to do work again, and minus 4 turns of six impeller cavities, 7 front vane The wheel chamber screw type pair chamber 10 of 20 circumference two sides the 4th is moved abbreviated here as wheel the 4th screw type pair chamber 10 of 20 circumference two sides of chamber When air inlet 14, the first high energy gas in minus six impeller cavity 10 oppresses 5 downlink of movable tongue and again through minus six impellers sky 7 liang of side wheel pieces of chamber, 18 bottom stomata 19 is lower into pressure with wheel 10 air inlet 14 of the 4th screw type pair chamber of 20 circumference two sides of chamber It takes turns in the 4th screw type pair chamber 10 of 20 circumference two sides of chamber, the first high energy gas is in wheel the 4th screw type pair chamber 10 of 20 circumference two sides of chamber Pressure rise and the direction rotated along impeller rotate forward leap to the corresponding wheel chamber of minus seven impeller cavity 7 outward after interior aggregation It on 20 circumference peripheries, sprays into lower minus seven impeller cavity 7 of pressure, pushes negative through 10 puff prot 15 of the 4th screw type pair chamber Seven impeller cavities, 7 front vane 4 simultaneously oppresses 5 downlink of movable tongue simultaneously, releases energy promotion to minus seven impeller cavities, 7 front vane 4 Impeller rotation acting, with the rotation of impeller, the first high energy gas takes turns 20 circumference two sides screw type pair chamber of chamber by repeatedly disengaging 10 and wheel 20 outer circumference surface of chamber on arc-shaped secondary chamber 10, and time energy is finally reduced to after releasing energy to preceding impeller blade 4 Gas and as the rotation of impeller cavity 7 is to 20 exhaust outlet 9 of impeller wheel chamber, enters 13 row of exhaust duct through 20 exhaust outlet 9 of impeller wheel chamber Out, equally, the height when 7 rear blade 4 of the first impeller cavity turns over impeller wheel 20 air inlet 8 of chamber, at 20 air inlet 8 of impeller wheel chamber Can gas do not enter back into the first impeller cavity 7, we will be referred to as the to the high energy gas at 20 air inlet 8 of impeller wheel chamber at this time Two high energy gas will spray into the second impeller cavity 7, continue to hit the second impeller sky for just having turned over 20 air inlet 8 of impeller wheel chamber 7 front vane 4 of chamber namely the first impeller cavity, 7 rear blade 4 simultaneously oppresses 5 downlink of movable tongue in the second impeller cavity 7 simultaneously, Second high energy gas releases energy to 7 front vane 4 of the second impeller cavity pushes impeller persistently to rotate acting, when the second impeller cavity When 7 front vanes 4 turn to wheel 20 circumference two sides the first screw type pair 10 air inlet 14 of chamber of chamber, second in the second impeller cavity 7 High energy gas is through 7 liang of side wheel pieces of the second impeller cavity, 18 bottom stomata 19 with 20 circumference two sides 10 air inlet 14 of the first secondary chamber of wheel chamber High speed sprays into wheel 20 circumference two sides the first screw type pair chamber 10 of chamber, and the second high energy gas is in wheel 20 the first spiral of circumference two sides of chamber In type pair chamber 10 after aggregation pressure rise and along the direction of impeller rotation outward forward rotation across right to the first impeller cavity 7 Above the 20 circumference periphery of wheel chamber answered, the first relatively low impeller of pressure is sprayed into through 10 puff prot 15 of the first screw type pair chamber In cavity 7, pushes 7 front vane 4 of the first impeller cavity and oppress 5 downlink of movable tongue in the first impeller cavity 7, to the first leaf Wheel 7 front vane 4 of cavity, which releases energy, pushes impeller rotation acting, when 7 front vane 4 of the first impeller cavity turns to wheel 20 outer circle of chamber On face when first arc-shaped secondary 10 air inlet 14 of chamber, the first high energy gas in the first impeller cavity 7 is in the first impeller cavity 7 Enter in first arc-shaped secondary chamber 10 under the upward promotion of upper movable tongue 5 and accelerates to form high-speed flow along convergent contour cavity wall Beam, the pressure energy of the first high energy gas is at flow velocity energy at this time, high-speed flow beam in the first arc-shaped secondary chamber 10 forward Before directly arriving minus two impeller cavities, 7 top through minus two impeller cavity 7 of 15 high speed ejection of puff prot shock across negative one impeller cavity 7 Blade 4 simultaneously oppresses 5 downlink of movable tongue in minus two impeller cavity 7, releases energy again to minus two impeller cavities, 7 front vane 4 Blade 4 is pushed to make impeller rotation acting again, with the lasting rotation of impeller, when 7 front vane 4 of the first impeller cavity turns to wheel When the screw type pair chamber 10 of 20 circumference two sides of chamber second takes turns 20 circumference two sides the second screw type pair 10 air inlet 14 of chamber of chamber, first The second high energy gas in impeller cavity 10 is again through 7 liang of side wheel pieces of the first impeller cavity, 18 bottom stomata 19 with taking turns 20 circumference of chamber Secondary 10 air inlet 14 of chamber in two sides second enters in relatively lower 20 the second secondary chamber 10 of circumference two sides of wheel chamber of pressure, the second high energy gas After body is assembled in wheel 20 circumference two sides the second screw type pair chamber 10 of chamber pressure rise and along the direction of impeller rotation to extroversion Preceding rotation is crossed over to the corresponding 20 circumference periphery of wheel chamber of minus two impeller cavity 7, sprays into pressure through the second secondary 10 puff prot 15 of chamber In relatively lower minus two impeller cavity 7 of power, releases energy to minus two impeller cavities, 7 front vane 4 and push impeller rotation acting, with The rotation of impeller, the second high energy gas also pass through repeatedly disengaging wheel 20 circumference two sides screw type pair chamber 10 of chamber and be located at wheel chamber Arc-shaped secondary chamber 10 on 20 outer circumference surfaces and be finally reduced to after releasing energy to preceding impeller blade 4 time can gas and with The rotation of impeller cavity 7 enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and is discharged to 20 exhaust outlet 9 of impeller wheel chamber.With impeller Rotation, high energy gas at 20 air inlet 8 of impeller wheel chamber by continue by each impeller cavity 7 in, each impeller High energy gas in cavity 7 will equally enter wheel 20 circumference two sides spiral of chamber with the high energy gas in the first, second impeller cavity 7 Type pair chamber 10 and the arc-shaped secondary chamber 10 on wheel 20 outer circumference surface of chamber, then through on 20 periphery of impeller wheel chamber through puff prot 15, which spray into promotion impeller blade 4 in the relatively low impeller cavity 7 of preceding pressure, does work, and rotates extremely until with impeller cavity 7 When impeller wheel 20 exhaust outlet 9 of chamber, just enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged.As can be seen that wheel chamber in work 20 circumference two sides screw type pair chambers 10 and the arc-shaped secondary chamber 10 on wheel 20 outer circumference surface of chamber equally have storage and conversion The dynamic function of high energy gas, the interior higher high energy gas of pressure stored of 20 circumference two sides screw type pair chamber of wheel chamber 10 is again through taking turns 20 circumference two sides pair chamber of chamber, 10 puff prot 15 sprays into the relatively low impeller cavity 7 of preceding pressure again and pushes impeller empty 7 front vane 4 of chamber makes impeller rotation acting, pass into same high energy gas can repeatedly during impeller rotates a circle The each screw type pair chamber 10 in 20 circumference two sides of wheel chamber, then again through take turns each 10 puff prot of screw type pair chamber in 20 circumference two sides of chamber 15 spray into promotion 7 front vane 4 of impeller cavity in the relatively low impeller cavity 7 of preceding pressure again makes impeller rotation acting, That is, taking turns 20 circumference two sides screw type pair chamber 10 of chamber and the arc-shaped secondary chamber 10 on wheel 20 outer circumference surface of chamber in work Have under the power-assisted of movable tongue 4 during impeller rotates a circle to same high energy gas and repeatedly collects storage conversion again The function of discharging high energy gas energy, allows same high energy gas repeatedly to do work impeller blade 4, improves same high energy gas Energy of the body in impeller rotates a circle discharges conversion times, keeps the wheeled acting device of the utility model opposite under identical operating pressure There is higher energy conversion efficiency in the prior art.

Figure 14, Figure 16, Figure 17 shows the utility model it is wheeled acting device the 6th embodiment, can be seen by attached drawing Out, the novel wheel-type acting device shown in the present embodiment be by being mainly made of shell 1, impeller, the impeller by wheel body 2, Wheel shaft 3, blade 4, movable tongue 5 are constituted, and the blade 4 is mounted on 2 excircle of wheel body, and 2 center of wheel body is equipped with wheel shaft 3, bearing 16 is housed, the impeller is mounted in 1 inner impeller wheel chamber 20 of shell, the leaf in the shell 1 on one end of wheel shaft 3 The size of wheel wheel chamber 20 matches with impeller, and the impeller keeps small airtight gap with wheel 20 internal chamber wall of chamber, keeps as far as possible close Envelope but not with wheel 20 internal chamber wall of chamber contact, there is air inlet 8 and exhaust outlet 9 on the 1 lubrication groove chamber 20 of shell, at the air inlet 8 There is control valve 11, the air inlet 8 and exhaust outlet 9 are communicated by air intake duct 12 and exhaust duct 13 with outside respectively, the impeller It is the double shrouded wheel structure that 4 both sides of blade are all blocked by wheel piece 18, can has between adjacent two blade of the impeller with blade With wide and can be up and down tongue piece, a side of the tongue piece 5 is used with 4 top margin of lateral lobe piece counterclockwise in adjacent two blade 4 Movable axis 6 carries out active connection, and the tongue piece 5 take movable axis 6 as the blade face of the adjacent another blade in another edge of axle center or more Sliding, top dead centre are no more than corresponding 4 top margin of blade, 4 face camber its arc of blade corresponding to 5 active edges of tongue piece Degree and the sliding radian of 5 sliding edge of tongue piece match, and seal as far as possible in the case where guaranteeing that tongue piece 5 is free to slide, impeller blade 4 Width be greater than impeller wheel body 2 width, 1 lubrication groove chamber of shell, 20 air inlet 8 with 9 lie farthest away of exhaust outlet semicircle with leaf There are multiple screw type pair chambers 10 being arranged successively, 20 circumference two sides of the wheel cavity in the corresponding wheel 20 circumference two sides of chamber of impeller blade 4 The air inlet 14 for the screw type pair chamber 10 being arranged successively is other than 2 periphery of impeller wheel body with the corresponding wheel chamber of impeller blade 4 On 20 circumference two sides and with wheel chamber 20 communicate, the screw type pair chamber 10 since air inlet 14 start helically type along impeller rotation Direction is gone to above the circumference periphery of impeller wheel chamber 20 to 20 outer circle exhaust outlet of impeller wheel chamber, 9 sidespin sprays through screw type pair chamber 10 Port 15 is communicated with impeller wheel chamber 20, and the screw type pair chamber 10 that 20 circumference two sides of the wheel cavity are arranged successively is from air inlet 14 to spray Port 15 is in convergence shape, and the screw type pair chamber 10 that 20 circumference two sides of the wheel cavity are arranged successively is from wheel 20 air inlet of chamber, 8 two sides the One beginning successively becomes larger, with screw type pair chamber 10 from air inlet on the wheel piece 18 between 7 two sides of impeller cavity, two blade 4 Stomata 19 is arranged at 14 corresponding bottoms.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is through the impeller wheel chamber 20 on shell 1 Air intake duct 12 enters 20 air inlet 8 of impeller wheel chamber, opens the control valve 11 at air inlet 8, and the high energy gas at air inlet 8 exists Referred to herein as the first high energy gas enters in wheel chamber 20 through control valve 11, and the impeller cavity 7 at air inlet 8 is referred to herein as the first leaf Cavity 7 is taken turns, the front vane 4 that the first high energy gas hits the first impeller cavity 7 first is discharged to 7 front vane 4 of the first impeller cavity Energy pushes front vane 4 to make wheel rotation while oppressing 5 downlink of movable tongue, and downlink is simultaneously under the compressing of high energy gas for tongue piece 5 It forces 5 inferior lobe of tongue piece to make a turn intracavitary gas and enters wheel 20 two sides of chamber through 7 liang of side wheel pieces of the first impeller cavity, 18 bottom stomata 19 In corresponding 10 air inlet 14 of screw type pair chamber, tongue piece 5 slips over always 7 two sides of the first impeller cavity under the compressing of high energy gas It takes turns 18 bottom stomata 19 of piece and reaches 7 bottom of the first impeller cavity, the first high energy gas in the first impeller cavity 7 is by the first impeller The blocking flow velocity of 7 front vane 4 of cavity reduces pressure and increases rapidly, rapid raised first high energy of pressure in the first impeller cavity 7 Gas enters wheel 20 circumference two of chamber through 7 liang of side wheel pieces of the first impeller cavity, 18 bottom stomata 19 and 10 air inlet 14 of screw type pair chamber In first screw type pair chamber 10 of side, the first high energy gas is in wheel 20 circumference two sides the first screw type pair chamber 10 of chamber along impeller It is empty that first impeller cavity 7 that the direction of rotation is rotated forward outward to 7 front of the first impeller cavity is referred to herein as negative one impeller On the corresponding 20 circumference periphery of wheel chamber of chamber 7, through the puff prot 15 on the secondary chamber 10 in 20 circumference two sides first of wheel chamber spray into pressure compared with In low negative one impeller cavity 7, pushes 7 front vane 4 of negative one impeller cavity and oppress the active tongue in negative one impeller cavity 7 simultaneously 5 downlink of piece releases energy to 7 front vane 4 of negative one impeller cavity and pushes impeller rotation acting, with the rotation of impeller, works as negative one 7 front vane 4 of impeller cavity turns to the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second abbreviated here as the second screw type pair Stomata 19 of first high energy gas through 7 liang of 18 bottoms of side wheel piece of impeller cavity when 10 air inlet 14 of chamber, in negative one impeller cavity 7 With wheel 20 circumference two sides of chamber, corresponding second screw type pair chamber, 10 air inlet 14 sprays at a high speed lower 20 circumference two of wheel chamber of pressure In side the second screw type pair chamber 10, the aggregation in wheel 20 circumference two sides the second screw type pair chamber 10 of chamber of the first high energy gas makes to take turns chamber First in 20 circumference two sides the second screw type pair chamber 10 of chamber is taken turns in pressure rise in 20 circumference two sides the second screw type pair chambers 10 High energy gas is rotated forward outward along the direction that impeller rotates to negative along wheel 20 circumference two sides the second screw type pair chamber 10 of chamber First impeller cavity 7 of one impeller cavity, 7 front is referred to here as the corresponding 20 circumference periphery of wheel chamber of two impeller cavity 7 that is negative On, the puff prot 15 for being taken turns 20 circumference two sides the second screw type pair chamber 10 of chamber sprays into lower minus two impeller cavity 7 of pressure, pushes away It moves minus two impeller cavities, 7 front vane 4 and oppresses 4 downlink of movable tongue, release energy promotion to minus two impeller cavities, 7 front vane 4 Impeller rotation acting, with the rotation of impeller, when minus two impeller cavities, 7 front vane 4 turns to wheel 20 circumference two sides of chamber second When screw type pair chamber 10 is abbreviated here as wheel 20 circumference two sides the second screw type pair 10 air inlet 14 of chamber of chamber, minus two impeller cavity 10 The first interior high energy gas oppress again 5 downlink of movable tongue and through 7 liang of side wheel pieces of minus two impeller cavity, 18 bottom stomata 19 with It takes turns 20 circumference two sides the second screw type pair chamber of chamber, 10 air inlet 14 and enters lower 20 the second screw type of circumference two sides of wheel chamber of pressure In secondary chamber 10, pressure rise and along leaf after the first high energy gas is assembled in wheel 20 circumference two sides the second screw type pair chamber 10 of chamber The direction for taking turns rotation rotates forward outward to be crossed over to the corresponding 20 circumference periphery of wheel chamber of minus four impeller cavity 7, through the second spiral shell 10 puff prot 15 of rotation type pair chamber sprays into lower minus four impeller cavity 7 of pressure, pushes minus four impeller cavities, 7 front vane 4 simultaneously same When oppress 5 downlink of movable tongue, release energy to minus four impeller cavities, 7 front vane 4 push impeller rotation acting, with impeller Rotation, the first high energy gas takes turns 20 circumference two sides screw type pair chamber 10 of chamber by repeatedly disengaging, and releases to preceding impeller blade 4 Time energy gas is finally reduced to after exoergic amount and as impeller cavity 7 is rotated to 20 exhaust outlet 9 of impeller wheel chamber, through 20 row of impeller wheel chamber Port 9 enters exhaust duct 13 and is discharged, equally, when 7 rear blade 4 of the first impeller cavity turns over impeller wheel 20 air inlet 8 of chamber, impeller High energy gas at wheel 20 air inlet 8 of chamber does not enter back into the first impeller cavity 7, the high energy gas at 20 air inlet 8 of impeller wheel chamber We will be referred to as the second high energy gas in the second impeller cavity 7 of penetrating to body at this time, continues shock and has just turned over impeller wheel chamber 7 front vane 4 of the second impeller cavity namely the first impeller cavity, 7 rear blade 4 of 20 air inlets 8 simultaneously oppresses the second impeller sky simultaneously 5 downlink of movable tongue on chamber 7, the second high energy gas releases energy to 7 front vane 4 of the second impeller cavity pushes impeller persistently to revolve Turn acting, when 7 front vane 4 of the second impeller cavity turns to wheel 20 circumference two sides the first screw type pair 10 air inlet 14 of chamber of chamber, The second high energy gas in second impeller cavity 7 is through 7 liang of side wheel pieces of the second impeller cavity, 18 bottom stomata 19 with taking turns 20 circumference of chamber Secondary 10 air inlet 14 of chamber in two sides first sprays at a high speed in wheel 20 circumference two sides the first screw type pair chamber 10 of chamber, and the second high energy gas exists It takes turns pressure rise after assembling in 20 circumference two sides the first screw type pair chamber 10 of chamber and is revolved forward outward along the direction that impeller rotates Turn to spray across to the corresponding 20 circumference periphery top of wheel chamber of the first impeller cavity 7 through 10 puff prot 15 of the first screw type pair chamber Enter in the first relatively low impeller cavity 7 of pressure, push 7 front vane 4 of the first impeller cavity and oppresses in the first impeller cavity 7 5 downlink of movable tongue, release energy to 7 front vane 4 of the first impeller cavity push impeller rotation acting, with continuing for impeller Rotation takes turns 20 circumference of chamber when 7 front vane 4 of the first impeller cavity turns to the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second When the second screw type pair 10 air inlet 14 of chamber of two sides, the second high energy gas in the first impeller cavity 10 is again through the first impeller sky 7 liang of side wheel pieces of chamber, 18 bottom stomata 19 enters the relatively lower wheel of pressure with 20 the second secondary 10 air inlet 14 of chamber of circumference two sides of wheel chamber In 20 the second secondary chamber 10 of circumference two sides of chamber, after the second high energy gas is assembled in wheel 20 circumference two sides the second screw type pair chamber 10 of chamber Pressure rise simultaneously rotates outside leap to corresponding 20 circumference of wheel chamber of minus two impeller cavity 7 forward along the direction of impeller rotation outward On disc, sprayed into relatively lower minus two impeller cavity 7 of pressure through 10 puff prot 15 of the second screw type pair chamber, to minus two impeller 7 front vane 4 of cavity, which releases energy, pushes impeller rotation acting, and with the rotation of impeller, the second high energy gas is also passed through repeatedly Disengaging takes turns 20 circumference two sides screw type pair chamber 10 of chamber and is finally reduced to time energy gas after releasing energy to preceding impeller blade 4 simultaneously With the rotation of impeller cavity 7 to 20 exhaust outlet 9 of impeller wheel chamber, enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged.With The rotation of impeller, high energy gas at 20 air inlet 8 of impeller wheel chamber by continue by each impeller cavity 7 in, it is each High energy gas in impeller cavity 7 will equally enter wheel 20 circumference two sides of chamber with the high energy gas in the first, second impeller cavity 7 Then it is empty to be sprayed into the relatively low impeller of preceding pressure through puff prot 15 on 20 periphery of impeller wheel chamber for screw type pair chamber 10 Impeller blade 4 is pushed to do work in chamber 7, when with the rotation of impeller cavity 7 to impeller wheel 20 exhaust outlet 9 of chamber, just through impeller wheel chamber 20 exhaust outlets 9 enter exhaust duct 13 and are discharged.As can be seen that wheel 20 circumference two sides screw type pair chamber 10 of chamber has storage and turns in work The dynamic function of high energy gas is changed, the higher high energy gas of pressure stored in 20 circumference two sides screw type pair chamber 10 of wheel chamber passes through again Wheel 20 circumference two sides pair chamber of chamber, 10 puff prot 15 sprays into the relatively low impeller cavity 7 of preceding pressure again and pushes impeller 7 front vane 4 of cavity makes impeller rotation acting, makes same high energy gas that can repeatedly enter warp during impeller rotates a circle The each screw type pair chamber 10 in 20 circumference two sides of wheel chamber crossed, then again through taking turns each 10 jet of screw type pair chamber in 20 circumference two sides of chamber Mouth 15, which is sprayed into again in the relatively low impeller cavity 7 of preceding pressure, pushes 7 front vane 4 of impeller cavity to do impeller rotation Function, that is to say, that the mistake that 20 circumference two sides screw type pair chamber 10 of chamber rotates a circle to same high energy gas in impeller is taken turns in work Have the function of repeatedly collecting storage under the power-assisted of movable tongue 4 in journey, conversion, discharge high energy gas energy again, allows same High energy gas repeatedly does work to impeller blade 4, improves energy release of the same high energy gas in impeller rotates a circle Conversion times make the wheeled acting device of the utility model have the conversion of higher energy compared with the existing technology under identical operating pressure Efficiency.

Figure 18, Figure 19, Figure 20 show the 7th embodiment of the wheeled acting device of the utility model, can be seen by attached drawing Out, the novel wheel-type acting device shown in the present embodiment be by being mainly made of shell 1, impeller, the impeller by wheel body 2, Wheel shaft 3, blade 4, movable tongue 5 are constituted, and the blade 4 is mounted on 2 excircle of wheel body, and 2 center of wheel body is equipped with wheel shaft 3, bearing 16 is housed, the other end is equipped with fan 17, and the impeller wheel body 2 is from outside wheel shaft 3 in the shell 1 on one end of wheel shaft 3 Circle is to being the Scroll-type wheel body 2 being made of multiple wheel body hinges 24 in 2 circumference of wheel body, with 2 hinge of wheel body, 24 phase on the shell 1 There is annular air channel 22 in corresponding part, there is the flow deflector 25 of support, heat dissipation in the ventilating duct 22, and the impeller is mounted on shell In 1 inner impeller wheel chamber 20 of body, the size of the impeller wheel chamber 20 matches with impeller, and the impeller is kept with wheel 20 internal chamber wall of chamber Small airtight gap keeps sealing as far as possible but does not contact with wheel 20 internal chamber wall of chamber, has air inlet 8 on the 1 lubrication groove chamber 20 of shell With exhaust outlet 9, there is control valve 11 at the air inlet 8, the air inlet 8 and exhaust outlet 9 pass through air intake duct 12 and exhaust respectively Road 13 is communicated with outside, and the impeller is the double shrouded wheel structure that 4 both sides of blade are all blocked by wheel piece 18, the impeller it is adjacent Can have between two blades with blade with wide and can be up and down tongue piece, a side of the tongue piece 5 is with adjacent two blade 4 In clockwise 4 top margin of lateral lobe piece with movable axis 6 carry out active connection, the tongue piece 5 is with movable axis 6 for another edge phase of axle center The blade face of adjacent another blade slides up and down, and top dead centre is no more than corresponding 4 top margin of blade, and 5 active edges of the tongue piece institute is right 4 its radian of face camber of blade answered and the sliding radian of 5 sliding edge of tongue piece match, and are guaranteeing the feelings free to slide of tongue piece 5 It is sealed as far as possible under condition, the width of the impeller blade 4 is greater than the width of impeller wheel body 2,1 lubrication groove chamber of shell, 20 air inlet 8 With the semicircle of 9 lie farthest away of exhaust outlet, with impeller blade 4, there are multiple spirals being arranged successively in 20 circumference two sides of corresponding wheel chamber Type pair chamber 10, the air inlet 14 for the screw type pair chamber 10 that 20 circumference two sides of the wheel cavity are arranged successively is in 2 periphery of impeller wheel body In addition with being communicated on the corresponding 20 circumference two sides of wheel chamber of impeller blade 4 and with wheel chamber 20, the screw type pair chamber 10 from into Port 14 starts the circle that helically type goes to impeller wheel chamber 20 along impeller direction of rotation to 20 outer circle exhaust outlet of impeller wheel chamber, 9 sidespin It is communicated through 10 puff prot 15 of screw type pair chamber with impeller wheel chamber 20 above all peripheries, 20 circumference two sides of the wheel cavity are arranged successively Screw type pair chamber 10 from air inlet 14 to puff prot 15 in convergence shape, the screw type that 20 circumference two sides of the wheel cavity are arranged successively Secondary 10 size of chamber is identical, with screw type pair chamber 10 from air inlet 14 on the wheel piece 18 between 7 two sides of impeller cavity, two blade 4 Stomata 19 is arranged at corresponding bottom.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is through the impeller wheel chamber 20 on shell 1 Air intake duct 12 enters 20 air inlet 8 of impeller wheel chamber, opens the control valve 11 at air inlet 8, and the high energy gas at air inlet 8 exists Referred to herein as the first high energy gas enters in wheel chamber 20 through control valve 11, and the impeller cavity 7 at air inlet 8 is referred to herein as the first leaf Cavity 7 is taken turns, the front vane 4 that the first high energy gas hits the first impeller cavity 7 first is discharged to 7 front vane 4 of the first impeller cavity Energy pushes front vane 4 to make wheel rotation while oppressing 5 downlink of movable tongue, and downlink is simultaneously under the compressing of high energy gas for tongue piece 5 It forces 5 inferior lobe of tongue piece to make a turn intracavitary gas and enters wheel 20 two sides of chamber through 7 liang of side wheel pieces of the first impeller cavity, 18 bottom stomata 19 In corresponding 10 air inlet 14 of screw type pair chamber, tongue piece 5 slips over always 7 two sides of the first impeller cavity under the compressing of high energy gas It takes turns 18 bottom stomata 19 of piece and reaches 7 bottom of the first impeller cavity, the first high energy gas in the first impeller cavity 7 is by the first impeller The blocking flow velocity of 7 front vane 4 of cavity reduces pressure and increases rapidly, rapid raised first high energy of pressure in the first impeller cavity 7 Gas enters wheel 20 circumference two of chamber through 7 liang of side wheel pieces of the first impeller cavity, 18 bottom stomata 19 and 10 air inlet 14 of screw type pair chamber In first screw type pair chamber 10 of side, the first high energy gas is in wheel 20 circumference two sides the first screw type pair chamber 10 of chamber along impeller It is empty that first impeller cavity 7 that the direction of rotation is rotated forward outward to 7 front of the first impeller cavity is referred to herein as negative one impeller On the corresponding 20 circumference periphery of wheel chamber of chamber 7, through the puff prot 15 on the secondary chamber 10 in 20 circumference two sides first of wheel chamber spray into pressure compared with In low negative one impeller cavity 7, pushes 7 front vane 4 of negative one impeller cavity and oppress the active tongue in negative one impeller cavity 7 simultaneously 5 downlink of piece releases energy to 7 front vane 4 of negative one impeller cavity and pushes impeller rotation acting, with the rotation of impeller, works as negative one 7 front vane 4 of impeller cavity turns to the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second abbreviated here as the second screw type pair Stomata 19 of first high energy gas through 7 liang of 18 bottoms of side wheel piece of impeller cavity when 10 air inlet 14 of chamber, in negative one impeller cavity 7 With wheel 20 circumference two sides of chamber, corresponding second screw type pair chamber, 10 air inlet 14 sprays at a high speed lower 20 circumference two of wheel chamber of pressure In side the second screw type pair chamber 10, the aggregation in wheel 20 circumference two sides the second screw type pair chamber 10 of chamber of the first high energy gas makes to take turns chamber First in 20 circumference two sides the second screw type pair chamber 10 of chamber is taken turns in pressure rise in 20 circumference two sides the second screw type pair chambers 10 High energy gas is rotated forward outward along the direction that impeller rotates to negative along wheel 20 circumference two sides the second screw type pair chamber 10 of chamber First impeller cavity 7 of one impeller cavity, 7 front is referred to here as the corresponding 20 circumference periphery of wheel chamber of two impeller cavity 7 that is negative On, the puff prot 15 for being taken turns 20 circumference two sides the second screw type pair chamber 10 of chamber sprays into lower minus two impeller cavity 7 of pressure, pushes away It moves minus two impeller cavities, 7 front vane 4 and oppresses 4 downlink of movable tongue, release energy promotion to minus two impeller cavities, 7 front vane 4 Impeller rotation acting, with the rotation of impeller, when minus two impeller cavities, 7 front vane 4 turns to wheel 20 circumference two sides of chamber second When screw type pair chamber 10 is abbreviated here as wheel 20 circumference two sides the second screw type pair 10 air inlet 14 of chamber of chamber, minus two impeller cavity 10 The first interior high energy gas oppress again 5 downlink of movable tongue and through 7 liang of side wheel pieces of minus two impeller cavity, 18 bottom stomata 19 with It takes turns 20 circumference two sides the second screw type pair chamber of chamber, 10 air inlet 14 and enters lower 20 the second screw type of circumference two sides of wheel chamber of pressure In secondary chamber 10, pressure rise and along leaf after the first high energy gas is assembled in wheel 20 circumference two sides the second screw type pair chamber 10 of chamber The direction for taking turns rotation rotates forward outward to be crossed over to the corresponding 20 circumference periphery of wheel chamber of negative trilobed wheel cavity 7, through the second spiral shell 10 puff prot 15 of rotation type pair chamber sprays into the lower negative trilobed wheel cavity 7 of pressure, pushes negative 7 front vane 4 of trilobed wheel cavity simultaneously same When oppress 5 downlink of movable tongue, release energy to negative 7 front vane 4 of trilobed wheel cavity push impeller rotation acting, with impeller Rotation, the first high energy gas takes turns 20 circumference two sides screw type pair chamber 10 of chamber by repeatedly disengaging, and releases to preceding impeller blade 4 Time energy gas is finally reduced to after exoergic amount and as impeller cavity 7 is rotated to 20 exhaust outlet 9 of impeller wheel chamber, through 20 row of impeller wheel chamber Port 9 enters exhaust duct 13 and is discharged, equally, when 7 rear blade 4 of the first impeller cavity turns over impeller wheel 20 air inlet 8 of chamber, impeller High energy gas at wheel 20 air inlet 8 of chamber does not enter back into the first impeller cavity 7, the high energy gas at 20 air inlet 8 of impeller wheel chamber We will be referred to as the second high energy gas in the second impeller cavity 7 of penetrating to body at this time, continues shock and has just turned over impeller wheel chamber 7 front vane 4 of the second impeller cavity namely the first impeller cavity, 7 rear blade 4 of 20 air inlets 8 simultaneously oppresses the second impeller sky simultaneously 5 downlink of movable tongue on chamber 7, the second high energy gas releases energy to 7 front vane 4 of the second impeller cavity pushes impeller persistently to revolve Turn acting, when 7 front vane 4 of the second impeller cavity turns to wheel 20 circumference two sides the first screw type pair 10 air inlet 14 of chamber of chamber, The second high energy gas in second impeller cavity 7 is through 7 liang of side wheel pieces of the second impeller cavity, 18 bottom stomata 19 with taking turns 20 circumference of chamber Secondary 10 air inlet 14 of chamber in two sides first sprays at a high speed in wheel 20 circumference two sides the first screw type pair chamber 10 of chamber, and the second high energy gas exists It takes turns pressure rise after assembling in 20 circumference two sides the first screw type pair chamber 10 of chamber and is revolved forward outward along the direction that impeller rotates Turn to spray across to the corresponding 20 circumference periphery top of wheel chamber of the first impeller cavity 7 through 10 puff prot 15 of the first screw type pair chamber Enter in the first relatively low impeller cavity 7 of pressure, push 7 front vane 4 of the first impeller cavity and oppresses in the first impeller cavity 7 5 downlink of movable tongue, release energy to 7 front vane 4 of the first impeller cavity push impeller rotation acting, with continuing for impeller Rotation takes turns 20 circumference of chamber when 7 front vane 4 of the first impeller cavity turns to the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second When the second screw type pair 10 air inlet 14 of chamber of two sides, the second high energy gas in the first impeller cavity 10 is again through the first impeller sky 7 liang of side wheel pieces of chamber, 18 bottom stomata 19 enters the relatively lower wheel of pressure with 20 the second secondary 10 air inlet 14 of chamber of circumference two sides of wheel chamber In 20 the second secondary chamber 10 of circumference two sides of chamber, after the second high energy gas is assembled in wheel 20 circumference two sides the second screw type pair chamber 10 of chamber Pressure rise simultaneously rotates outside leap to corresponding 20 circumference of wheel chamber of negative one impeller cavity 7 forward along the direction of impeller rotation outward On disc, sprays into the relatively low negative one impeller cavity 7 of pressure to oppress simultaneously through 10 puff prot 15 of the second screw type pair chamber and bear 5 downlink of movable tongue in one impeller cavity 7 releases energy to 7 front vane 4 of negative one impeller cavity and pushes impeller rotation acting, With the rotation of impeller, the second high energy gas also passes through repeatedly 20 circumference two sides screw type pair chamber 10 of disengaging wheel chamber and Xiang Qian Impeller blade 4 release energy after be finally reduced to time can gas and with the rotation of impeller cavity 7 to 20 exhaust outlet 9 of impeller wheel chamber, Enter exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber to be discharged.High energy with the rotation of impeller, at 20 air inlet 8 of impeller wheel chamber Gas by continue by each impeller cavity 7 in, high energy gas in each impeller cavity 7 will be the same as the first, second leaf It takes turns the high energy gas in cavity 7 and equally enters wheel 20 circumference two sides screw type pair chamber 10 of chamber, then through 20 periphery of impeller wheel chamber On through puff prot 15 spray into the relatively low impeller cavity 7 of preceding pressure push impeller blade 4 do work, until with impeller sky When the rotation of chamber 7 to impeller wheel 20 exhaust outlet 9 of chamber, just enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged, in high energy gas Energy be converted to mechanical energy through impeller and exported by wheel shaft 3, it is lower greatly that wheel shaft 3 drives fan 17 rotate driving temperature together Gas enters ventilating duct 22 and is discharged after having the flow deflector 25 of support and heat sinking function.As can be seen that the wheel circle of chamber 20 in work All two sides screw type pair chambers 10 have storage and the conversion dynamic function of high energy gas, take turns in 20 circumference two sides screw type pair chamber 10 of chamber The higher high energy gas of the pressure of storage sprays into preceding pressure phase through taking turns 20 circumference two sides pair chamber of chamber, 10 puff prot 15 again again To in lower impeller cavity 7 and push 7 front vane 4 of impeller cavity make impeller rotation acting, make same high energy gas in impeller The each screw type pair chamber 10 in 20 circumference two sides of wheel chamber that can be repeatedly passed into during rotating a circle, then again through taking turns chamber Each 10 puff prot 15 of screw type pair chamber in 20 circumference two sides sprays into compressing in the relatively low impeller cavity 7 of preceding pressure again 5 downlink of movable tongue simultaneously pushes 7 front vane 4 of impeller cavity to make impeller rotation acting, that is to say, that 20 circumference two of chamber is taken turns in work Side screw type pair chamber 10 has same high energy gas multiple during impeller rotates a circle under the cooperation of movable tongue 4 Storage, conversion, the function of discharging high energy gas energy again are collected, same high energy gas is allowed repeatedly to do work impeller blade 4, Energy release conversion times of the same high energy gas in impeller rotates a circle are improved, make the wheeled acting device of the utility model in phase With having higher energy conversion efficiency under operating pressure compared with the existing technology, fan 17 is driven to drive while wheel shaft 3 rotates The lower atmosphere of dynamic temperature enters ventilating duct 22 and flows through wheel body hinge 24 and flow deflector 25, cools down to wheel body 2, shell 1, allows Bearing 16 works within the temperature range that can be born, effective protection bearing 16, so that bearing 16 is worked more reliable lasting.

Figure 21, Figure 22, Figure 23, Figure 24 show the 8th embodiment of the wheeled acting device of the utility model, can by attached drawing To find out, the novel wheel-type acting device shown in the present embodiment is by being mainly made of shell 1, impeller, and the impeller is by taking turns Body 2, wheel shaft 3, blade 4 are constituted, and the blade 4 is mounted on 2 excircle of wheel body, and 4 width of blade is greater than 2 width of wheel body, There is wheel piece 18 to separate among two blade 4,2 center of wheel body is equipped with wheel shaft 3, fills on one end of wheel shaft 3 in the shell 1 There is bearing 16, the impeller is mounted in 1 inner impeller wheel chamber 20 of shell, and the size of the impeller wheel chamber 20 matches with impeller, The impeller keeps small airtight gap with wheel 20 internal chamber wall of chamber, keeps sealing as far as possible but not with wheel 20 internal chamber wall of chamber contact, institute Stating has air inlet 8 and exhaust outlet 9 on 1 lubrication groove chamber 20 of shell, there is control valve 11, the air inlet 8 and exhaust at the air inlet 8 Mouthfuls 9 are communicated by air intake duct 12 and exhaust duct 13 with outside respectively, 1 lubrication groove chamber of shell, 20 air inlet 8 with exhaust outlet 9 apart With impeller blade 4, there are multiple screw type pair chambers 10 being arranged successively in corresponding wheel 20 circumference two sides of chamber to farthest semicircle, described The air inlet 14 of screw type pair chamber 10 is other than 2 periphery of impeller wheel body with corresponding 20 inner periphery two of wheel chamber of impeller blade 4 Side is simultaneously communicated with wheel chamber 20, the screw type pair chamber 10 since air inlet 14 helically type along impeller direction of rotation to impeller wheel 20 outer circle exhaust outlet of chamber, 9 sidespin is gone to above the excircle periphery of impeller wheel chamber 20 through 10 puff prot 15 of screw type pair chamber with each Self-corresponding side impeller wheel chamber 20 communicates, and the screw type pair chamber 10 is in convergence shape from air inlet 14 to puff prot 15, described The wheel screw type pair chamber 10 that is arranged successively of 20 circumference two sides of chamber successively becomes larger since 10 air inlet 14 of screw type pair chamber.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is through the impeller wheel chamber 20 on shell 1 Air intake duct 12 enters 20 air inlet 8 of impeller wheel chamber, opens the control valve 11 at air inlet 8, and the high energy gas at air inlet 8 exists Referred to herein as the first high energy gas enters in wheel chamber 20 through control valve 11, and the impeller cavity 7 at air inlet 8 is referred to herein as the first leaf Cavity 7 is taken turns, the first high energy gas hits the front vane 4 of the first impeller cavity 7 first, releases to the front vane 4 of the first impeller cavity 7 Exoergic amount pushes front vane 4 to make wheel rotation, and the first high energy gas is reduced by the blocking flow velocity of 7 front vane 4 of the first impeller cavity, The first high energy gas at wheel 20 air inlet 8 of chamber continues to spray into the high energy gas made in the first impeller cavity 7 in first impeller cavity 7 Body pressure increases rapidly, when 7 front vane 4 of the first impeller cavity turn to wheel the screw type pair chamber 10 of 20 circumference two sides of chamber first this In referred to as the first secondary 10 air inlet 14 of chamber when, the first high energy gas in the first impeller cavity 7 is respectively through taking turns 20 inner periphery of chamber Secondary 10 air inlet 14 of chamber in two sides first sprays at a high speed in lower 20 the first secondary chamber 10 of circumference two sides of wheel chamber of pressure, the first high energy gas Body aggregation in 20 the first secondary chamber 10 of circumference two sides of wheel chamber makes to take turns the pressure rise in 20 the first secondary chamber 10 of circumference two sides of chamber, takes turns chamber The first high energy gas in 20 the first secondary chambers 10 of circumference two sides is rotated along 20 the first secondary chamber 10 of circumference two sides of wheel chamber along impeller First impeller cavity 7 being rotated forward outward to the front of the first impeller cavity 7 of direction to be referred to herein as negative one impeller cavity 7 right On the 20 excircle periphery of wheel chamber answered, it is lower that the puff prot 15 respectively through 20 the first secondary chamber 10 of circumference two sides of wheel chamber sprays into pressure Negative one impeller cavity 7 in, release energy to 7 front vane 4 of negative one impeller cavity push impeller rotation acting, with the rotation of impeller Turn, when 7 front vane 4 of negative one impeller cavity turns to the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second abbreviated here as wheel chamber When 20 the second secondary 10 air inlet 14 of chamber of circumference two sides, the first high energy gas in negative one impeller cavity 10 is again respectively through taking turns chamber 20 Secondary 10 air inlet 14 of chamber in inner periphery two sides second enters in lower 20 the second secondary chamber 10 of circumference two sides of wheel chamber of pressure, negative one impeller High energy gas pressure reduction in cavity 7, after the first high energy gas is assembled in 20 the second secondary chamber 10 of circumference two sides of wheel chamber respectively Pressure rise and along the direction that impeller rotates rotate forward outward to the impeller cavity 7 of the front of the second impeller cavity 7 referred to here as On the corresponding 20 circumference periphery of wheel chamber of two impeller cavity 7 that is negative, respectively through 20 circumference two sides 10 puff prot of the second secondary chamber of wheel chamber 15 spray into lower minus two impeller cavity 7 of pressure, release energy to minus two impeller cavities, 7 front vane 4 and impeller rotation is pushed to do Function, with the rotation of impeller, the first high energy gas is by repeatedly 20 circumference two sides screw type pair chamber 10 of disengaging wheel chamber and Xiang Qian Impeller blade 4 release energy after be finally reduced to time can gas and with the rotation of impeller cavity 7 to 20 exhaust outlet 9 of impeller wheel chamber, Enter exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber to be discharged, equally, turns over impeller wheel chamber 20 in 7 rear blade 4 of the first impeller cavity When air inlet 8, the high energy gas at 20 air inlet 8 of impeller wheel chamber is not entered back into the first impeller cavity 7,20 air inlet of impeller wheel chamber We will be referred to as the second high energy gas and will spray into the second impeller cavity 7 at this time for high energy gas at mouthfuls 8, continue to hit just 7 front vane 4 of the second impeller cavity namely the first impeller cavity, 7 rear blade 4 of 20 air inlet 8 of impeller wheel chamber is turned over, second is high Energy gas releases energy to 7 front vane 4 of the second impeller cavity pushes impeller persistently to rotate acting, when 7 frontal lobe of the second impeller cavity The second high energy gas point when piece 4 turns to 20 the first secondary 10 air inlet 14 of chamber of inner periphery two sides of wheel chamber, in the second impeller cavity 7 It is not sprayed at a high speed in 20 the first secondary chamber 10 of circumference two sides of wheel chamber through 20 circumference two sides 10 air inlet 14 of the first secondary chamber of wheel chamber, the second leaf The second high energy gas pressure reduction in cavity 7 is taken turns, the second high energy gas is respectively in 20 the first secondary chamber 10 of circumference two sides of wheel chamber After aggregation pressure rise and along impeller rotate direction rotated forward outward to corresponding 20 circumference of wheel chamber of the first impeller cavity 7 Above periphery, it is empty that the first relatively low impeller of pressure is sprayed into through 20 the first secondary 10 puff prot 15 of chamber of circumference two sides of wheel chamber respectively In chamber 7, releases energy to 7 front vane 4 of the first impeller cavity and push impeller rotation acting, when 4 turns of 7 front vane of the first impeller cavity When moving the wheel screw type pair chamber 10 of 20 circumference two sides of chamber second and taking turns 20 pair 10 air inlet 14 of chamber of inner periphery two sides second of chamber, the The second high energy gas in one impeller cavity 10 enters pressure through 20 the second secondary 10 air inlet 14 of chamber of circumference two sides of wheel chamber respectively again In relatively low 20 the second secondary chamber 10 of circumference two sides of wheel chamber of power, the high energy gas pressure reduction in the first impeller cavity 7, second is high Can gas assemble in the secondary chamber 10 in 20 circumference two sides second of wheel chamber respectively after pressure rise and the direction rotated along impeller it is outside It rotates forward to the corresponding 20 circumference periphery of wheel chamber of negative one impeller cavity 7, respectively through 20 the second secondary chamber of circumference two sides of wheel chamber 10 puff prots 15 spray into the relatively lower negative one impeller cavity 7 of pressure, release energy and push away to 7 front vane 4 of negative one impeller cavity The rotation acting of movable vane wheel, with the rotation of impeller, the second high energy gas also passes through repeatedly disengaging wheel 20 circumference two sides spiral of chamber Type pair chamber 10 and be finally reduced to after releasing energy to preceding impeller blade 4 time can gas and with the rotation of impeller cavity 7 to leaf Wheel wheel 20 exhaust outlet 9 of chamber, enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and is discharged.With the rotation of impeller, impeller wheel chamber 20 High energy gas at air inlet 8 by continue by each impeller cavity 7 in, high energy gas in each impeller cavity 7 Wheel 20 circumference two sides screw type pair chamber 10 of chamber will be equally respectively enterd with the high energy gas in the first, second impeller cavity 7, then It is rotated forward upwards along 20 circumference two sides screw type pair chamber 10 of wheel chamber to being sprayed respectively through puff prot 15 on 20 periphery of impeller wheel chamber Entering in the relatively low impeller cavity 7 of preceding pressure pushes impeller blade 4 to do work, until with the rotation of impeller cavity 7 to impeller When taking turns 20 exhaust outlet 9 of chamber, just enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged.As can be seen that the wheel circle of chamber 20 in work All two sides screw type pair chambers 10 equally have the function of storing high energy gas, storage in 20 circumference two sides screw type pair chamber 10 of wheel chamber The higher high energy gas of pressure again through wheel 20 outer circumference surface of chamber on 10 puff prot 15 of two sides pair chamber spray into preceding pressure again In relatively low impeller cavity 7 and 7 front vane 4 of impeller cavity is pushed to make impeller rotation acting, makes same high energy gas in leaf The each screw type pair chamber 10 in 20 circumference two sides of wheel chamber that wheel can be passed into repeatedly during rotating a circle, then again respectively It is taken turns each 10 puff prot 15 of screw type pair chamber in 20 circumference two sides of chamber and sprays into the relatively low impeller cavity 7 of preceding pressure again Interior 7 front vane 4 of promotion impeller cavity makes impeller rotation acting, that is to say, that 20 circumference two sides screw type pair chamber of chamber is taken turns in work 10 pairs of same high energy gas have the function of that repeatedly collect storage discharges high energy gas again, allows during impeller rotates a circle Same high energy gas repeatedly does work to impeller blade 4, improves energy of the same high energy gas in impeller rotates a circle Conversion times are discharged, single wheeled work doing impeller is under identical operating pressure relative to existing skill in the wheeled acting device of the utility model Single wheeled work doing impeller in art has higher energy conversion efficiency, realizes energy saving and efficiency increasing purpose.

Figure 25, Figure 26 show the utility model the 9th embodiment of wheeled acting device, by attached drawing as can be seen that this implementation The novel wheel-type acting device exemplified is mainly made of shell 1, impeller, there is insulating layer 23, the heat preservation on the shell 1 There is heat-insulating material in layer 23, the impeller is made of wheel body 2, wheel shaft 3, blade 4, and the blade 4 is mounted on 2 outer circle of wheel body Zhou Shang, 2 center of wheel body are equipped with wheel shaft 3, and the impeller is mounted in 1 inner impeller wheel chamber 20 of shell, the impeller wheel chamber 20 Size match with impeller, the impeller keeps small airtight gap with wheel 20 internal chamber wall of chamber, keep as far as possible sealing but not with The contact of 20 internal chamber wall of chamber is taken turns, has air inlet 8 and exhaust outlet 9 on the 1 lubrication groove chamber 20 of shell, the air inlet 8 and exhaust outlet 9 divide It is not communicated by air intake duct 12 and exhaust duct 13 with outside, 1 lubrication groove chamber of shell, 20 air inlet 8 is with 9 lie farthest away of exhaust outlet Semicircle with having semi-circular shape pair chamber 10, the semi-circular shape pair chamber 10 in corresponding 20 peripheral circumferential of wheel chamber of impeller blade 4 C-shaped 20 air inlet 8 of impeller wheel chamber that is wrapped in cross section on the semicircle of 9 lie farthest away of exhaust outlet and with impeller blade 4 Corresponding impeller wheel chamber 20 is peripheral, has multiple skewed C-shaped partitions 27, the skewed C in the semi-circular shape pair chamber 10 Shape partition 27 is vented along impeller direction of rotation from 20 air inlet of impeller wheel chamber, 8 side to impeller wheel chamber using C-shaped both ends line as axle center Mouth 9 rolls tiltedly, and the skewed C-shaped partition 27 is from 20 air inlet of impeller wheel chamber, 8 side to 20 exhaust outlet of impeller wheel chamber, 9 side by semi-ring Shape pair chamber 10 is separated into the skewed C-shaped pair chamber Room 10 of multistage, the C-shaped medial surface both ends of the surface of the skewed C-shaped pair chamber 10 have into Port 14 is communicated with 20 two sides of impeller wheel chamber in the corresponding position in 4 bottom of impeller blade, the C of the skewed C-shaped pair chamber 10 There is puff prot 15 to communicate on 20 periphery of impeller wheel chamber with impeller wheel chamber 20 among shape medial surface, the C-shaped pair chamber puff prot 15 are less than C-shaped pair chamber air inlet 14.

Basic functional principle: when work, the high energy gas with certain temperature and pressure is by the impeller wheel chamber 20 on shell 1 Air intake duct 12 sprays into impeller wheel chamber 20 through 20 air inlet 8 of impeller wheel chamber, and the high energy gas at air inlet 8 is referred to herein as first High energy gas initially enters in the impeller cavity 7 at wheel 20 air inlet 8 of chamber is known as the first impeller cavity 7 for the time being here, and first is high The front vane 4 of the first impeller cavity of energy air impingement 7, releases energy to the front vane 4 of the first impeller cavity 7 and pushes front vane 4 Make wheel rotation, the load acted on impeller at this time is larger, and wheel rotation is slower, and the first high energy gas is by the first impeller cavity The blocking flow velocity of 7 front vanes 4 reduces, and takes turns the first high energy gas at 20 air inlet 8 of chamber and continues to spray into the first impeller cavity 7, High energy gas pressure in first impeller cavity 7 increases rapidly, when 7 front vane 4 of the first impeller cavity turns to first segment inclination When shape C-shaped pair chamber 10 is abbreviated here as first secondary 10 liang of side-inlets 14 of chamber, the first high energy gas in the first impeller cavity 7 from The corresponding first secondary 10 liang of side-inlets 14 of chamber in 4 two sides of the bottom of blade spray at a high speed in the secondary chamber 10 of pressure lower first, and first High energy gas aggregation in the first secondary chamber 10 makes the pressure rise in the first secondary chamber 10, the first high energy gas in the first secondary chamber 10 It is empty that negative one impeller is referred to herein as along first impeller cavity 7 that the first secondary chamber 10 crosses forward 7 front of the first impeller cavity It is sprayed into the lower negative one impeller cavity 7 of pressure after chamber 7 through the first secondary 10 puff prot 15 of chamber and hits negative one impeller cavity frontal lobe Piece 4, releases energy to 7 front vane 4 of negative one impeller cavity and pushes impeller rotation acting, and 7 front vane 4 of negative one impeller cavity turns to When the skewed C-shaped pair chamber 10 of second segment is abbreviated here as the second secondary chamber 10, the first high energy gas in negative one impeller cavity 10 will Enter in the secondary chamber 10 of pressure lower second through second secondary 10 liang of side-inlets 14 of chamber again, the high energy in negative one impeller cavity 7 Gas pressure reduces, and pressure rise and crosses minus two leaf of front forward after the first high energy gas is assembled in the second secondary chamber 10 Wheel cavity 7 sprays into relatively lower minus two impeller cavity 7 of pressure through the second secondary 10 puff prot 15 of chamber and hits minus two impellers sky 7 front vane 4 of chamber releases energy to minus two impeller cavities, 7 front vane 4 and pushes impeller rotation acting, leaf behind the first impeller cavity 7 When piece 4 turns over impeller wheel 20 air inlet 8 of chamber, the high energy gas at 20 air inlet 8 of impeller wheel chamber does not enter back into the first impeller cavity 7 Interior, the first high energy gas one section of skewed C-shaped pair chamber 10 of every process in the first impeller cavity 7 will be through secondary 10 two sides air inlet of chamber Mouthfuls 14 spray into secondary chambers 10 and then spray into the relatively lower impeller cavity 7 of pressure through secondary 10 puff prot 15 of chamber forward and push leaf The acting of 7 front vane 4 of cavity is taken turns, the first high energy gas pressure gradually reduces, and with the rotation of impeller, the first high energy gas is through excessive The skewed C-shaped pair chamber 10 of secondary disengaging and be finally reduced to after releasing energy to preceding impeller blade 4 time can gas and with impeller The rotation of cavity 7 enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and is discharged, equally, first to 20 exhaust outlet 9 of impeller wheel chamber When 7 rear blade 4 of impeller cavity turns over impeller wheel 20 air inlet 8 of chamber, high energy gas at 20 air inlet 8 of impeller wheel chamber at this time we Will be referred to as the second high energy gas will continue to spray into the second impeller cavity 7, continues shock and has just turned over 20 air inlet of impeller wheel chamber 7 front vane 4 of the second impeller cavity namely the first impeller cavity, 7 rear blade 4 of mouth 8, the second high energy gas are empty to the second impeller 7 front vane 4 of chamber, which releases energy, pushes impeller persistently to rotate acting, when 7 front vane 4 of the second impeller cavity turns to the first secondary chamber 10 When two side-inlets 14, the second high energy gas in the second impeller cavity 7 sprays at a high speed through first secondary 10 liang of side-inlets 14 of chamber In first secondary chamber 10, the second high energy gas assembles pressure rise in the first secondary chamber 10 and crosses the first impeller cavity 7 forward High-speed flow beam, which is formed, by the first secondary 10 fumarole 15 of chamber ejection hits preceding first impeller cavity, 7 front vane 4, Xiang Preceding 7 front vane 4 of the first impeller cavity, which releases energy, pushes impeller rotation acting, when 7 rear blade 4 of the second impeller cavity continues to turn When crossing impeller wheel 20 air inlet 8 of chamber, the high energy gas at 20 air inlet 8 of impeller wheel chamber does not enter back into the second impeller cavity 7 equally Interior, equally, the second high energy gas in the second impeller cavity 7 passes through one section of skewed C-shaped pair chamber 10 as the rotation of impeller is every It will be sprayed into through 10 liang of side-inlets 14 of secondary chamber in secondary chamber 10 once, the second high energy gas pressure gradually reduces, the second high energy gas Body is finally reduced to after repeatedly passing in and out skewed C-shaped pair chamber more than 10 times and releasing energy to impeller blade 4 with the rotation of impeller It is secondary can gas and as the rotation of impeller cavity 7 is to 20 exhaust outlet 9 of impeller wheel chamber, enter exhaust duct through 20 exhaust outlet 9 of impeller wheel chamber 13 discharges, with the lasting rotation of impeller, the high energy gas at 20 air inlet 8 of impeller wheel chamber will go successively to pass through below each In a impeller cavity 7, behind high energy gas in each impeller cavity 7 will be with the high energy gas in the first, second impeller cavity 7 It equally constantly passes in and out skewed C-shaped pair chamber 10 and does identical acting movement to preceding impeller blade 4, until with impeller When the rotation of cavity 7 to impeller wheel 20 exhaust outlet 9 of chamber, just enters exhaust duct 13 through 20 exhaust outlet 9 of impeller wheel chamber and be discharged.It can in work To find out, skewed C-shaped pair chamber 10 has aggregating storing out of impeller cavity 7 through skewed 10 liang of side-inlets 14 of C-shaped pair chamber The higher high energy gas of the pressure of penetrating, the interior higher high energy gas of pressure assembled of skewed C-shaped pair chamber 10 is again through skewed C 10 puff prot 15 of shape pair chamber sprays into the relatively low impeller cavity 7 of preceding pressure and 7 front vane 4 of impeller cavity is pushed to do Function, in multiple skewed C-shaped pair chambers 10 that same high energy gas can be passed into gradually during impeller rotates a circle, Then it sprays into the relatively low impeller cavity 7 of preceding pressure through each skewed 10 puff prot 15 of C-shaped pair chamber to impeller again 7 front vane of cavity more than 4 times actings, make impeller that can export bigger torsion and higher power under identical operating pressure, That is skewed C-shaped pair chamber 10 has repeatedly recycling to same high energy gas during impeller rotates a circle in work Assemble the effect discharged again, allows same high energy gas repeatedly to do work impeller blade 4, improve same high energy gas in leaf The energy release conversion times in rotating a circle are taken turns, the wheeled acting device of the utility model made is under identical operating pressure relative to existing There is the wheeled acting device in technology that there is higher energy conversion efficiency, realizes energy saving and efficiency increasing purpose.

Figure 27, Figure 28, Figure 29, Figure 30 show the utility model the tenth embodiment of wheeled acting device, can be with by attached drawing Find out, the novel wheel-type acting device shown in the present embodiment is mainly made of shell 1, impeller, has insulating layer on the shell 1 23, have heat-insulating material in the insulating layer 23,1 inner impeller of shell there are two and be mounted on same root wheel shaft 3, institute It states the first impeller to be made of wheel body 2, wheel shaft 3, blade 4, tongue piece 5, the size of the first impeller wheel chamber 20 is with the first impeller phase Matching, first impeller keep small airtight gap with wheel 20 internal chamber wall of chamber, keep sealing as far as possible but not with taking turns 20 inner cavity of chamber Wall contacts, and has air inlet 8 and exhaust outlet 9,20 air inlet of the first impeller wheel chamber on first impeller wheel chamber 20 in the shell 1 There is pressure sensitive control valve 11 at 8, the air inlet 8 and air intake duct 12 on the first impeller wheel chamber 20 communicate, the air intake duct 12 communicate with outside, and the exhaust outlet 9 on the first impeller wheel chamber 20 is connected to the air inlet 8 ' on the second impeller, and described first Impeller blade 4 is mounted on 2 excircle of the first impeller wheel body, first impeller be blade 4 with wheel body 2 with wide unshrouded impeller Structure has with blade with wide and can be up and down tongue piece 5, the tongue piece 5 between adjacent two blade 4 of first impeller A side carry out active connection with movable axis 6 with 4 top margin of blade in adjacent two blade 4, the movable axis 6 is in up time On the 4 face top margin of blade of needle side, the tongue piece 5 with movable axis 6 be the adjacent another blade 4 in another edge of axle center blade face above and below Sliding, top dead centre are no more than corresponding 4 top margin of blade, 4 face camber its arc of blade corresponding to 5 active edges of tongue piece Degree and the sliding radian of 5 sliding edge of tongue piece match, and keep sealing, the shell 1 as far as possible in the case where tongue piece 5 is free to slide Interior first impeller wheel chamber, 20 air inlet 8 on the semicircle of 9 lie farthest away of exhaust outlet with the corresponding wheel chamber 20 of the first impeller blade 4 Have multiple arc-shaped secondary chambers 10 on outer circumference surface, the arc-shaped secondary chamber 10 since 20 air inlet of impeller wheel chamber, 8 side to wheel chamber 20 exhaust outlet, 9 side is arranged successively and becomes larger one by one, and the arc-shaped secondary chamber 10 has secondary chamber 10 in 20 air inlet of impeller wheel chamber, 8 side Air inlet 14 is communicated with impeller wheel chamber 20, and secondary 10 puff prot 15 of chamber is in 20 exhaust outlet of impeller wheel chamber, 9 side and forward across next A pair 10 air inlet 14 of chamber followed by impeller wheel chamber 20 communicate, and the arc-shaped secondary chamber 10 is from air inlet 14 to puff prot 15 in convergence Shape, second impeller are made of wheel body 2 ', wheel shaft 3, blade 4 ', and second impeller blade 4 ' is mounted on 2 ' excircle of wheel body On, the wheel shaft 3 is mounted in the concentric axis at 2 center of the second impeller wheel body 2 ' and the first impeller wheel body, second impeller It is mounted in shell 1 in second impeller wheel chamber 20 ', the size of the second impeller wheel chamber 20 ' matches with the second impeller, described Second impeller keeps small airtight gap with wheel 20 ' internal chamber wall of chamber, and holding as far as possible seals but not with taking turns the contact of 20 ' internal chamber wall of chamber, Second impeller wheel chamber 20 ' above has air inlet 8 ' and exhaust outlet 9 ', the 20 ' air inlet 8 ' of the second impeller wheel chamber in the shell 1 It is connected to 20 exhaust outlet 9 of the first impeller wheel chamber, the exhaust outlet 9 ' on the second impeller wheel chamber 20 ' is by exhaust duct 13 ' with outer Portion communicates, in the shell 1 second impeller wheel chamber, 20 ' air inlet 8 ' on the semicircle of 9 ' lie farthest away of exhaust outlet with the second impeller Multiple spiral type pair chambers 10 ', the spiral type pair chamber 10 ' are arranged in sequence on the corresponding 20 ' outer circumference surface of wheel chamber of blade 4 ' Within vortex sheet with wheel chamber 20 ' communicate, the spiral type pair chamber 10 ' along swirl direction in convergence shape, the convergence shape spiral type pair The most narrow end of chamber 10 ' is in 20 ' air inlet of impeller wheel chamber, 8 ' side, and the 10 ' most wide end of convergence shape spiral type pair chamber is in impeller wheel chamber 20 ' 9 ' side of exhaust outlet.

Basic functional principle: when work, when the high energy gas with certain temperature and pressure is by the air intake duct 12 on shell 1 When entering the first impeller wheel 20 air inlet 8 of chamber, the pressure sensitive of pressure sensitive control valve 11 at air inlet 8 by high energy gas It automatically turns on, high energy gas is referred to herein as the first high energy gas, and the first high energy gas enters most after 20 air inlet 8 of third wheel chamber Close impeller cavity 7 is referred to herein as in first impeller cavity 7, and the first high energy gas pushes down on first impeller cavity first The front vane 4 in first impeller cavity 7 of 5 slide downward of movable tongue and shock on 7, to before first impeller cavity 7 Blade 4, which releases energy, pushes front vane 4 to make the first wheel rotation, and the first high energy gas is by first 7 front vane 4 of impeller cavity Stop flow velocity to be lowered into first impeller cavity 7, rises the high energy gas pressure in first impeller cavity 7 rapidly Height, the movable tongue 5 in first impeller cavity 7 is in low level under the pressure compression of the first high energy gas, when first leaf When the front vane 4 of wheel cavity 7 turns to first arc-shaped secondary chamber 10 referred to as the first arc-shaped secondary 10 air inlet 14 of chamber, first The first high energy gas in a impeller cavity 7 sprays into the first arc-shaped secondary chamber 10 through the first arc-shaped secondary 10 air inlet 14 of chamber, Movable tongue 5 in first impeller cavity 7 under the influence of centrifugal force upward sliding push in first impeller cavity 7 the One high energy gas accelerates into the first arc-shaped secondary chamber 10, makes pressure rise in the first arc-shaped secondary chamber 10, first is arc-shaped The first high energy gas in secondary chamber 10 is due to being formed high-speed flow beam by convergent contour cavity wall about beam acceleration, the first high energy gas at this time The pressure energy of body crosses over forward first impeller cavity 7 along the first arc-shaped secondary chamber 10 at flow velocity energy, high-speed flow beam The impeller cavity 7 of front is known as spraying into pressure at a high speed through the first arc-shaped secondary most narrow end puff prot 15 of chamber 10 after negative one impeller cavity 7 In lower minus two impeller cavity 7 of power, releases energy to minus two impeller cavities, 7 front vane 4 and push minus two impeller cavities, 7 front vane 4 make the rotation acting of the second impeller, and flow velocity is lowered into minus two leaf after high-speed flow beam hits minus two impeller cavities, 7 front vane 4 It takes turns in cavity 7, the movable tongue 5 that pressure rise is oppressed in minus two impeller cavity 7 in minus two impeller cavity 7 makes its downlink, with The rotation of first impeller, when minus two impeller cavity 7 turns to 10 air inlet 14 of the next arc-shaped secondary chamber i.e. arc-shaped pair of third When 10 air inlet 14 of chamber, the first high energy gas in minus two impeller cavity 7 is again through arc-shaped secondary 10 air inlet 14 of the chamber spray of third Enter in the arc-shaped secondary chamber 10 of third, equally uplink promotion is negative under the influence of centrifugal force for the movable tongue 5 in minus two impeller cavity 7 The first high energy gas in two impeller cavities 7 accelerates into the arc-shaped secondary chamber 10 of third, pressure in the arc-shaped secondary chamber 10 of third It increases, the first high energy gas accelerates to form high-speed flow again as the convergent contour cavity wall of the arc-shaped secondary chamber 10 of third continues to narrow Beam, high-speed flow beam are crossed over forward after minus three, minus four impeller cavity 7 along the arc-shaped secondary chamber 10 of third through the arc-shaped pair chamber 10 of third The puff prot 15 of most narrow end sprays at a high speed in lower minus five impeller cavity 7 of pressure, discharges to minus five impeller cavities, 7 front vane 4 Energy pushes minus four or five impeller cavity, 7 front vane 4 that the first impeller is made persistently to rotate acting, and it is empty that high-speed flow beam hits minus five impeller Flow velocity is lowered into minus five impeller cavity 7 after 7 front vane 4 of chamber, and pressure rises in minus five impeller cavity 7, and minus five impeller is empty 5 compression downlink of movable tongue on chamber 7, with the lasting rotation of the first impeller, when minus five impeller cavity 7 turns to next circle When arc pair chamber 10 is the 5th arc-shaped secondary 10 air inlet 14 of chamber, the first high energy gas in minus five impeller cavity 7 will be along minus five 7 front vane 4 of impeller cavity sprays into the 5th arc-shaped secondary chamber 10 through the 5th arc-shaped secondary 10 air inlet 14 of chamber, minus five impeller cavity Equally also uplink pushes the first high energy gas in minus five impeller cavity 7 to accelerate to movable tongue 5 in 7 under the influence of centrifugal force Into in the 5th arc-shaped secondary chamber 10, the first high energy gas adds as the convergent contour cavity wall of the 5th arc-shaped secondary chamber 10 continues to narrow Fast third time forms high-speed flow beam, and high-speed flow beam crosses over forward minus six, minus seven impeller cavity 7 along the 5th arc-shaped secondary chamber 10 It is sprayed at a high speed in lower minus eight impeller cavity 7 of pressure by the 5th arc-shaped secondary most narrow end puff prot 15 of chamber 10, to minus eight leaf Wheel 7 front vane 4 of cavity, which releases energy, pushes minus eight impeller cavities, 7 front vane 4 to make the rotation acting of the first impeller, and high-speed flow beam is hit Flow velocity is lowered into minus eight impeller cavity 7 after hitting minus eight impeller cavities, 7 front vane 4, and pressure rises in minus eight impeller cavity 7 5 downlink of movable tongue in minus eight impeller cavity 7 is oppressed simultaneously, continues to rotate with impeller, the first high energy gas will be continuous Constantly enter arc-shaped secondary chamber 10 through impeller cavity 7 and form high-speed flow beam and sprayed through puff prot 15 and hits preceding impeller Blade 4 releases energy to preceding blade 4 and pushes the rotation acting of the first impeller, and power is exported through wheel shaft 3, the first high energy gas When rotating to impeller wheel 20 exhaust outlet 9 of chamber with impeller cavity 7, enter the second impeller wheel chamber 20 ' through 20 exhaust outlet 9 of impeller wheel chamber Air inlet 8 ' is interior, when first 7 rear blade 4 of impeller cavity turns over impeller wheel 20 air inlet 8 of chamber, 20 air inlet 8 of impeller wheel chamber The high energy gas at place does not enter back into first impeller cavity 7, meanwhile, the second high energy gas spray at 20 air inlet 8 of impeller wheel chamber Enter in second impeller cavity 7 and hits first impeller cavity, 7 rear blade 4 for just having turned over 20 air inlet 8 of impeller wheel chamber It is exactly second impeller cavity, 7 front vane 4, oppresses 5 downlink of movable tongue in second impeller cavity 7, the second high energy gas It releases energy to second 4 first time of 7 front vane of impeller cavity and second impeller cavity, 7 front vane 4 is pushed to make the first impeller Lasting rotation acting, when second 7 front vane 4 of impeller cavity turns to the first arc-shaped secondary 10 air inlet 14 of chamber, second The acting that the second high energy gas in impeller cavity 7 repeats the first high energy gas of front acts, i.e. in second impeller cavity 7 The second high energy gas sprayed into along the first 10 air inlet 14 of arc-shaped secondary chamber along second 7 front vane 4 of impeller cavity, the second high energy Gas forms high-speed flow beam with the acceleration that continues to narrow of first arc-shaped secondary 10 convergent contour cavity wall, at this time the second high energy gas Pressure energy at flow velocity energy, high-speed flow beam is along the first arc-shaped secondary chamber 10 forward across after first impeller cavity 7 It is sprayed at a high speed in the lower negative one impeller cavity 7 of pressure through the first arc-shaped secondary most narrow end puff prot 15 of chamber 10, and oppresses negative one 5 downlink of movable tongue in impeller cavity 7 releases energy to 7 front vane 4 of negative one impeller cavity pushes 7 frontal lobe of negative one impeller cavity Piece 4 makes the rotation acting of the first impeller, and flow velocity is lowered into negative one after high-speed flow beam hits 7 front vane 4 of negative one impeller cavity Increase cavity pressure in impeller cavity 7, with the rotation of the second impeller, the second high energy gas is equally continuously through impeller cavity 7 Hit preceding impeller blade 4 again into arc-shaped secondary chamber 10 and push the rotation acting of the first impeller, the second high energy gas until with When impeller cavity 7 arrives impeller wheel 20 exhaust outlet 9 of chamber, enter the 20 ' air inlet of the second impeller wheel chamber through 20 exhaust outlet 9 of the first impeller wheel chamber Mouth 8 ' is interior, and with the rotation of the second impeller, second 7 rear blade 4 of impeller cavity turns over 20 air inlet 8 of impeller wheel chamber, impeller wheel Third high energy gas at 20 air inlet 8 of chamber will continue to spray into third impeller cavity 7, and third high energy gas continues to hit rigid Just turns over second impeller cavity, 7 rear blade 4 namely 7 front vane 4 of third impeller cavity of 20 air inlet 8 of impeller wheel chamber and press Compel 5 downlink of movable tongue in third impeller cavity 7, third high energy gas was released to 4 first time of 7 front vane of third impeller cavity Exoergic amount simultaneously pushes 7 front vane 4 of third impeller cavity that the second impeller is made persistently to rotate acting, likewise as holding for the second impeller Continuous rotation, subsequent each high energy gas constantly repeats to do identical acting movement as the high energy gas of front, until with each When impeller cavity 7 arrives impeller wheel 20 exhaust outlet 9 of chamber, each high energy gas become time after the acting that continuously releases energy can gas from It is interior that first impeller wheel chamber, 20 exhaust outlet 9 enters 20 ' air inlet 8 ' of the second impeller wheel chamber.When time energy gas also with certain energy When body is by entering the second impeller wheel 20 ' air inlet 8 ' of chamber in 20 exhaust outlet 9 of the first impeller wheel chamber on shell 1, secondary energy gas Referred to herein as first time energy gas enters nearest impeller cavity 7 ' referred to herein as through 20 ' air inlet 8 ' of the second impeller wheel chamber First impeller cavity 7 ' is interior, and energy gas hits the front vane 4 ' of first impeller cavity 7 ' first for the first time, to first leaf The front vane 4 ' of wheel cavity 7 ', which releases energy, pushes front vane 4 ' to make wheel rotation, and energy gas is by first impeller cavity for the first time The blocking flow velocitys of 7 ' front vanes 4 ' reduces, for the first time can gas interior, the first impeller sky that persistently spray into first impeller cavity 7 ' The interior high energy gas pressure of chamber 7 ' increases rapidly, when first 7 ' front vane 4 ' of impeller cavity turns to first spiral type pair chamber 10 ' here referred to as the first secondary chamber 10 ' when, first impeller cavity 7 ' interior first time can gas it is preceding along first impeller cavity 7 ' 4 ' top margin of blade sprays into interior the is formationed convolution vortex of the first spiral type pair chamber 10 ', at this time for the first time can gas flow rate raising and with The convergent contour vortex wall of first Scrawl pair chamber 10 ' continues to narrow and accelerates to form high speed convolution vortex core, for the first time can gas Pressure energy at flow velocity energy, high speed circle round vortex core along the first Scrawl pair chamber 10 ' vortex wall cycle through Scrawl Secondary chamber 10 ' most narrow end mouth high speed ejection second of shock, first 7 ' front vane 4 ' of impeller cavity, to first impeller cavity 7 ' Front vane 4 ' releases energy for the second time pushes blade 4 ' to make the rotation acting of the second impeller again, at this time first impeller cavity 7 ' Rear blade 4 ' hits first 7 ' front vane 4 ' of impeller cavity there are no 20 ' air inlet 8 ' of impeller wheel chamber, high-speed eddy beam is turned over Afterwards with 20 ' air inlet 8 ' of the second impeller wheel chamber place then spray into time can gas to enter first impeller cavity 7 ' together interior, the First time in one impeller cavity 7 ' can gas pressure rise, with the rotation of the second impeller, after first impeller cavity 7 ' Blade 4 ' turns over 20 ' air inlet 8 ' of the second impeller wheel chamber, and time energy gas at 20 ' air inlet 8 ' of the second impeller wheel chamber place does not enter back into First impeller cavity 7 ' is interior, while the rotation of first 7 ' front vane 4 ' of impeller cavity is to the second spiral type pair chamber 10 ', and first The interior first time energy gas of impeller cavity 7 ' will spray into second along first 7 ' front vane of impeller cavity, 4 ' top margin second and be vortexed The interior formation of type pair chamber 7 ' convolution vortex, the interior first time energy gas pressure of first impeller cavity 7 ' reduce, for the first time can gas Second interior as 10 ' convergence type vortex wall of the second Scrawl pair chamber narrows and accelerates to form height in the second Scrawl pair chamber 10 ' Speed convolution vortex core, high speed circle round vortex core along the second Scrawl pair chamber 10 ' spirotheca cycle through the second Scrawl pair chamber 10 ' most Narrow end mouth, which is sprayed, hits first 7 ' front vane 4 ' of impeller cavity for third time, for the first time can gas to first impeller cavity 7 ' Front vane 4 ' releases energy for the third time and blade 4 ' is pushed to make the rotation acting of the second impeller, with the rotation of the second impeller, first Secondary energy gas is in first impeller cavity 7 ', one Scrawl pair chamber 10 ' of interior every process just with noted earlier in Scrawl pair The primary convolution vortex of the interior formation of chamber 10 ', convolution vortex will discharge primary energy to first 7 ' front vane 4 ' of impeller cavity every time Amount for the first time can the multiple weight of gas warp when rotating to the second impeller wheel 20 ' exhaust outlet 8 ' of chamber with first impeller cavity 7 ' Become low energy gases after releasing energy again and is discharged by 20 ' exhaust outlet 9 ' of the second impeller wheel chamber into exhaust duct 13 '.First leaf While wheel 7 ' rear blade 4 ' of cavity turns over the second impeller wheel 20 ' air inlet 8 ' of chamber, 20 ' air inlet 8 ' of the second impeller wheel chamber place It is secondary can gas referred to herein as second can gas will to continue to spray into second impeller cavity 7 ' interior and hit and just turned over the second leaf First impeller cavity, 7 ' rear blade 4 ' namely second 7 ' front vane 4 ' of impeller cavity of wheel wheel 20 ' air inlet 8 ' of chamber, the Secondary energy gas releases energy for the first time to second 7 ' front vane 4 ' of impeller cavity and pushes second 7 ' frontal lobe of impeller cavity Piece 4 ' makes the second impeller persistently rotate acting, when second 7 ' front vane 4 ' of impeller cavity turns to the first spiral type pair chamber 10 ', The second interior high energy gas of second impeller cavity 7 ' acts the acting for repeating front first time energy gas, i.e. second leaf It is interior along second 7 ' front vane of impeller cavity, 4 ' top margin the first Scrawl pair chamber 10 ' of penetrating to take turns second interior of energy gas of cavity 7 ' Form convolution vortex, second can gas in the interior convergent contour whirlpool with the first Scrawl pair chamber 10 ' of the first Scrawl pair chamber 10 ' Spirotheca continues to narrow and accelerates to be formed high speed convolution vortex core, and the pressure energy of second of energy gas is at flow velocity energy, high speed Convolution vortex core is hit along the vortex wall cycle of the first Scrawl pair chamber 10 ' through Scrawl pair chamber most narrow end mouth high speed ejection for the second time Second 7 ' front vane 4 ' of impeller cavity is hit, release energy for the second time to second 7 ' front vane 4 ' of impeller cavity and pushes second A 7 front vane 4 ' of impeller cavity makes the rotation acting of the second impeller, since the rear blade 4 ' of second impeller cavity 7 ' at this time does not have also Turn over 20 ' air inlet 8 ' of the second impeller wheel chamber, high-speed eddy beam hit second impeller cavity, 7 ' front vane 4 ' it is rear with the and What 20 ' air inlet 8 ' of impeller wheel chamber place sprayed into time can gas interior, second impeller cavity that enter second impeller cavity 7 ' together Second in 7 ' can gas pressure increase, with the rotation of the second impeller, second 7 ' rear blade 4 ' of impeller cavity turns over the Time energy gas of two impeller wheel chambers, 20 ' air inlet 8 ', 20 ' air inlet 8 ' of the second impeller wheel chamber place does not enter back into second impeller sky Chamber 7 ', while second 7 ' front vane 4 ' of impeller cavity rotation, to the second Scrawl pair chamber 10 ', second impeller cavity 7 ' is interior Second of energy gas spray into the interior shape of the second Scrawl pair chamber 10 ' along second 7 ' front vane of impeller cavity, 4 ' top margin for the second time again It is vortexed at circling round, second interior of energy gas pressure of second impeller cavity 7 ' reduces, and second of energy gas is in the second Scrawl Secondary chamber 10 ' is interior to accelerate to be formed high speed convolution vortex core, high speed convolution as 10 ' convergent contour vortex wall of the second Scrawl pair chamber narrows Vortex core sprays third time through the second most narrow end mouth of Scrawl pair chamber 10 ' along the spirotheca cycle of the second Scrawl pair chamber 10 ' and hits Second 7 ' front vane 4 ' of impeller cavity, second of energy gas release energy for the third time to second 7 ' front vane 4 ' of impeller cavity And second 7 ' front vane 4 ' of impeller cavity is pushed to make the rotation acting of the second impeller, with the rotation of the second impeller, second of energy Gas enters Scrawl in second impeller cavity 7 ', one Scrawl pair chamber 10 ' of interior every process as energy gas for the first time Secondary chamber 10 ' forms high speed convolution vortex core and discharges primary energy to second 7 ' front vane 4 ' of impeller cavity, until with second When impeller cavity 7 ' rotates to the second impeller wheel 20 ' exhaust outlet 13 ' of chamber, second after being repeated several times and releasing energy can gas Have become low energy gases and be discharged through 20 ' exhaust outlet 13 ' of the second impeller wheel chamber into exhaust duct 13 ', when second impeller cavity When 7 ' rear blades 4 ' turn over the second impeller wheel 20 ' air inlet 8 ' of chamber, 20 ' air inlet 8 ' of the second impeller wheel chamber place time can gas this In be known as third time can gas will to continue to spray into third impeller cavity 7 ' interior, third time can gas continue shock and just turned over the Second impeller cavity, the 7 ' rear blade 4 ' namely 7 ' front vane of third impeller cavity of two impeller wheel chambers, 20 ' air inlet 8 ' 4 ', third time energy gas releases energy for the first time to 7 ' front vane 4 ' of third impeller cavity and pushes third impeller cavity 7 ' Front vane 4 ' makes the second impeller persistently rotate acting, and third time energy gas can be repeated with preceding first, second time gas Identical acting movement is done, with the lasting rotation of the second impeller, the subsequent each energy gas interior into each impeller cavity 7 ' Body equally repeats the acting movement of front time energy gas, and the 7 ' front vane 4 ' of impeller cavity towards respective place repeats to discharge energy Amount pushes the second impeller persistently to rotate acting, and power is exported through wheel shaft 3, and each energy gas rotates to the with impeller cavity 7 ' When two impeller wheel 20 ' exhaust outlets 9 ' of chamber, each energy gas becomes low energy gases through exhaust duct after continuously repeating and releasing energy 13 ' discharges.As can be seen that the first impeller shares a wheel shaft 3 with the second impeller in work, the first impeller is with the second impeller in string Connection acting structure, what wheel shaft 3 exported is the power summation of the first impeller and the second impeller, it can thus be seen that same root wheel shaft 3 On not only can also equally connect and be done equipped with multiple equipped with a work doing impeller or dress of connecting there are two work doing impeller Function impeller, when being equipped with multiple work doing impellers, the power summation of multiple work doing impellers is exported through wheel shaft 3 jointly, the first impeller wheel chamber Arc-shaped secondary chamber 10 on 20 equally all has with the Scrawl pair chamber 10 ' on the second impeller wheel chamber 20 ' absorbs storage high energy gas High energy gas is simultaneously converted to the effect and function that high-speed flow beam is used to that blade 4 is pushed to do work, in the first impeller, high energy by body Gas is every will to be converted primary and discharge primary energy to preceding impeller blade 4 by an arc-shaped secondary chamber 10, the Same high energy gas during one impeller rotates a circle in impeller cavity 7, which can be repeated several times, to release energy, and makes high energy gas The energy conversion efficiency of body has obtained effective raising, and the movable tongue 5 on the first impeller can make full use of impeller to rotate again High energy gas in the centrifugal force boosting impeller cavity 7 of generation accelerates into arc-shaped secondary chamber 10, and movable tongue 5 gives high energy gas Play the role of a power-assisted into secondary chamber, in addition, uplink allows movable tongue 5 to movable tongue 5 under the influence of centrifugal force again 7 volume of impeller cavity of top becomes smaller, pushes so that high energy gas sprays into impeller wheel chamber 20 through arc-shaped secondary chamber 10 again The time and distance that blade 4 does work have obtained effective extension, and play transfiguration delay synergistic when high energy gas does work to blade 4 Effect, and as the effect of the raising 5 power-assisted transfiguration delay synergistic of movable tongue of wheel speed can stronger, movable tongue 5 Effective pressure of the high energy gas in secondary chamber 10 is enhanced, movable tongue 5 effectively extends the high energy in arc-shaped secondary chamber 10 The timeliness that gas does work to impeller blade further improves the energy conversion efficiency that high energy gas does work to impeller blade, High energy gas become after multiplicating releases energy in the first impeller time can gas enter again and pass through the in the second impeller Scrawl pair chamber 10 ' in two impellers is converted to blade 4 ' again to release energy, during the second impeller rotates a circle The interior same primary energy gas of impeller cavity 7 ' repeats to release energy to blade 4 ' finally to become low energy gases again again, makes high energy More thorough, the further energy conversion efficiency improved to high energy gas of the energy conversion release of gas.

By the narration to above ten embodiments as can be seen that the effect of secondary chamber is with electricity in the wheeled acting device of the utility model Capacitor effect in road is identical, plays the role of energy storage, converts, releases energy, when work, the major function of secondary chamber is by impeller The high energy gas of relative quiescent is transformed to the dynamic high energy gas with certain kinetic energy in cavity, allows dynamic with certain kinetic energy State high energy gas pushes impeller rotation to impeller blade release kinetic energy acting again, the output of work doing impeller wheel shaft be impeller wheel chamber into The intracavitary high energy gas of high energy gas and each pair at port is in impeller rotary course jointly to impeller acting release With joint efforts, secondary chamber can allow same high energy gas repeatedly to release energy acting to impeller blade, effectively enhance outputting torsion, mention High energy conversion efficiency, torsion output is bigger for the work doing impeller of no secondary chamber, the thermal efficiency is higher, i.e., identical High energy gas air pressure conditions under enhance outputting torsion, energy conversion efficiency is improved, with the raising of wheel speed, same Under the revolving speed of sample the more higher pair chamber energy storage of the pressure of high energy gas mention effect effect it is stronger, when revolving speed is lower, act on tongue piece Centrifugal force it is smaller, the position of tongue piece active edges is relatively low, and the volume of impeller cavity is larger above tongue piece, when revolving speed is higher, The centrifugal force acted on tongue piece is larger, and the position of tongue piece active edges is relatively high, and the volume of impeller cavity becomes above tongue piece It is smaller, change the volume of impeller cavity above tongue piece with the variation of wheel speed, that is to say, that according to the height of revolving speed Week/capacity of impeller can be automatically adjusted, unnecessary air consumption in work is reduced, achievees the purpose that energy-conservation of consumption reduction, activity The high energy gas in centrifugal force boosting impeller cavity that tongue piece can make full use of impeller rotation to generate again accelerates into secondary chamber, That is movable tongue plays the role of a power-assisted during entering secondary chamber to the high energy gas in impeller cavity, also Have, the upper impeller cavity volume exercised above movable tongue becomes smaller to movable tongue under the influence of centrifugal force, so that high energy Gas is again introduced into when impeller wheel chamber pushes blade acting from secondary chamber plays the role of delay synergistic again, with wheel speed Raising movable tongue power-assisted transfiguration delay synergistic effect it is stronger, movable tongue just plays one with the collocation of secondary chamber High low speed complementary, power-assisted enhancing effect, not only increase high energy gas in secondary chamber and release energy again the dynamics of acting, more into One step improves the energy conversion efficiency of high energy gas.The wheeled acting device technique of the utility model can not only change in high, low speed When adjust automatically capacity, the variation that adjust automatically outputting torsion adapts to load needs, adaptive response with higher and wider Torsion export modification scope, outputting torsion can also be enhanced under identical volume, same high energy gas air pressure conditions, mentioned High-energy conversion efficiency makes it realize the energy conversion effect that multistage work doing impeller just has on single work doing impeller, and And compact-sized simple easily manufacture, material is saved, is reduced costs, energy conservation is adequately achieved, proposes effect, the purpose of cost declining, Oil consumption is high, the thermal efficiency is low, outputting torsion is small when overcoming complicated wheeled acting apparatus structure, the work of manufacture difficulty high, low speed Problem, make wheeled acting device that can be widely used and popularize on land route, it can be seen that, the utility model wheeled acting dress Tool compared with prior art is set to have made marked progress and remarkable result.The application is not only limited to above ten kinds of embodiments, with Can be interchanged in upper ten kinds of embodiments whether there is or not, mutually convert, in second embodiment, in the shell on wheel shaft 3 there are two Work doing impeller realizes acting technology in parallel, and different secondary cavity configuration technologies is applied in two work doing impellers, and the such as the 5th implements In example, two different secondary cavity configuration technologies are applied on the work doing impeller, as in the tenth embodiment, wheel shaft in the shell There are two work doing impellers to realize series connection acting technology on 3, if the second impeller in second embodiment is in the tenth embodiment First impeller is equally arc-shaped secondary chamber, but applies different arrangement architecture technologies, it can be seen that, the wheeled acting dress of the utility model Setting can not only be realized by a work doing impeller, can also be realized by multiple work doing impellers, in multiple work doing impeller structures In acting technology in parallel not only may be implemented series connection acting technology also may be implemented, the wheeled acting device of the utility model individually doing work It is not only limited to single secondary cavity configuration on impeller, is also possible to the more secondary cavity configurations being made of multiple secondary chambers, is not only limited to one The secondary cavity configuration of kind form is also possible to the mixing pair cavity configuration being made of multiple secondary chambers of diversified forms, above ten implementations Structure in example can according to need realization and exchange variation.

All changes are within the application protection scope thereon.