阅读说明：本技术 排水器及其排水控制方法 (Water trap and its water discharge control method ) 是由 郑兴林 王可可 沈剑波 于 2018-05-16 设计创作，主要内容包括：本发明提供了一种排水器及其排水控制方法,包括底座、传动轴、阀装置、阀芯止转结构、第一转轮、第二转轮、离合轮、操作组件以及驱动组件,第一转轮、离合轮、第二转轮依次设置在传动轴上,该阀芯的连接轴与传动轴之间设置有阀芯止转结构,离合轮与传动轴之间设置有离合止转结构,操作组件用于驱动离合轮在传动轴的轴向上移动。与现有技术对比,该排水器具备对阀芯的手动控制和自动控制相互切换的功能,即便在发生电力故障时,也能切换至手动控制方式来控制阀芯转动,从而能够有效防止设备损坏,并能避免周边的环境发生受潮的现象。(The present invention provides a kind of water trap and its water discharge control methods, including pedestal, transmission shaft, valve gear, spool spline structure, the first runner, the second runner, castle wheel, operating assembly and driving assembly, first runner, castle wheel, the second runner are successively set on transmission shaft, spool spline structure is provided between the connecting shaft and transmission shaft of the spool, clutch spline structure is provided between castle wheel and transmission shaft, operating assembly is for driving castle wheel to move up in the axis of transmission shaft.It is compared with the prior art, the drainage fixture is standby to manually control and automatically controls the function of mutually switching to spool, even if when power failure occurs, also manual control mode can be switched to and carry out control valve core rotation, so as to effectively prevent equipment damage, and it is avoided that there is a phenomenon where make moist for the environment on periphery.)

1. a kind of water trap characterized by comprising

Pedestal；

Hollow transmission shaft, is rotatably supported on pedestal；

Valve gear comprising with a channel valve seat and be that axis is rotatably arranged in institute with the axis of the transmission shaft State in valve seat and can open and close the spool in the channel, the spool have extend to except the valve seat and with transmission The connecting shaft of axis connection, the valve seat are set on the base；

Spool spline structure is arranged between the connecting shaft and the transmission shaft and keeps the two relatively unrotatable；

First runner is rotatably sleeved on the transmission shaft；

Second runner is rotatably sleeved on the transmission shaft and is arranged with the first runner interval；

Castle wheel, being capable of opposite institute between first runner and second runner and in the axial direction of the transmission shaft It is mobile to state transmission shaft；

Clutch spline structure is arranged between the castle wheel and the transmission shaft and keeps the two relatively unrotatable；

Operating assembly, for driving the castle wheel to move up in the axis of the transmission shaft；And

Driving assembly, for driving first runner to rotate, the driving component be set on the base and with described first turn Wheel connection；

First runner is formed with multiple first teeth, the side of second runner towards castle wheel towards the side of castle wheel Multiple second teeth are formed with, the opposite sides of the castle wheel is respectively formed with for cooperating with the first of first tooth engagement Tooth and for the second cooperating teeth with second tooth engagement.

2. water trap according to claim 1, which is characterized in that further include end cap and two bearing assemblies, described in two Bearing assembly includes being fixed at the bearing block of the bottom plate and being sheathed on the transmission shaft and be maintained at the bearing Stop bit bearing on seat；Two bearing assemblies be divided into first bearing component and between first bearing component and valve seat second Bearing assembly；The operating assembly includes operating nut and the reversing shaft that is connected and fixed with the castle wheel；The end cap is fixed It is enclosed an inner space on the bearing block of the first bearing component and with the bearing block, the operating nut is with institute The axis for stating transmission shaft is that axis is rotatably arranged in inner space；The reversing shaft can in the axial direction of the transmission shaft It is movably inserted in the transmission shaft and is coaxially disposed with the transmission shaft, one end of the reversing shaft extends to transmission shaft Except end and driving end is formed, the operating nut has the nut bore for driving end merging；The side at the driving end It is formed with threaded portion on wall, the thread fiting part with threaded portion cooperation is formed on the inner wall of the nut bore.

3. water trap according to claim 2, which is characterized in that the clutch spline structure includes locking pin, it is described from Close the clutch through-hole for offering on wheel and passing through for the locking pin, offered on the transmission shaft passed through for the locking pin and with The limiting slot being connected to inside the transmission shaft, the limiting slot are located in the middle part of the transmission shaft and prolong along the axial direction of the transmission shaft It stretches, the commutation through-hole passed through for the locking pin is offered on the reversing shaft.

4. water trap according to claim 3, which is characterized in that the transmission shaft include the first shell of column, the second shell of column and The intermediate shell of column of connection between, the limiting slot are located on the intermediate shell of column；The intermediate shell of column, which has, is located at it Opposite sides and the first confined planes abutted respectively with the first runner and the second confined planes abutted with the second runner, described first Confined planes are arranged around first shell of column, and second confined planes are arranged around second shell of column.

5. water trap according to claim 2, which is characterized in that be provided with the first elastic element, institute in the transmission shaft The first elastic element is stated to support in the other end face opposite with the driving end of the reversing shaft.

6. water trap according to claim 2, which is characterized in that between second runner and the second bearing component It is provided with the second elastic element, second elastic element is supported with second runner and the second bearing component respectively.

7. water trap according to any one of claims 1 to 6, which is characterized in that the spool spline structure includes setting In connecting shaft and cross-sectional shape be non-circular interconnecting piece and be opened on the transmission shaft and with the interconnecting piece The spool rotation stop hole that cross-sectional shape matches.

8. water trap according to any one of claims 1 to 6, which is characterized in that the driving component includes having one to stretch The electric pushrod and push rod cup of contracting bar, the electric pushrod pivotal attachment is on pedestal, one end of push rod cup and the telescopic rod Outer end be connected and fixed, other end pivotal attachment is on the first runner.

9. water trap according to any one of claims 1 to 6, which is characterized in that be connected with handle on second runner Component, the Handleset include handle and handle connection sheet, and the handle passes through the handle connection sheet and described second turn Wheel is connected and fixed.

10. a kind of water discharge control method, using water trap as described in any one of claim 1 to 9, which is characterized in that described Water discharge control method includes,

Drive the operating assembly that the castle wheel and first turn described is separated and made with second runner by the castle wheel Wheel engagement connection, controls second runner by the operating assembly and rotates, with channel described in on-off；

Drive the operating assembly that the castle wheel and second turn described is separated and made with first runner by the castle wheel Wheel engagement connection, drives the second runner to rotate, with channel described in on-off.

Technical field

The present invention relates to a kind of water trap and water discharge control methods.

Background technique

Currently, water trap can be divided into Manual water drainage device and two kinds of automatic water trap according to structure.Traditional automatic water trap, Generally comprise solenoid valve, however, in equipment damage or power failure, can not manual control valve, therefore, the environment that will cause periphery is long Phase dampness or equipment damage；In addition, for the caliber pipe below of DN (nominal diameter, inside nominal diameter) 32, it is existing Some electric water drainer on/off valve dynamics is insufficient, when valve can be caused by the impurity of clay, hair etc the sphere of valve It can not rotate, result in blockage.

Summary of the invention

The purpose of the present invention is to provide a kind of water trap and its water discharge control methods, existing in the prior art to solve Water trap, which does not have, manually controls and automatically controls the function of mutually switching to spool, is unable to control when power failure occurs Valve core rotation, the technical issues of so as to cause equipment damage.

A kind of water trap provided by the invention comprising:

Pedestal；

Hollow transmission shaft, is rotatably supported on pedestal；

Valve gear comprising with a channel valve seat and be that axis can be rotatably set with the axis of the transmission shaft In the valve seat and the spool in the channel can be opened and closed, the spool have extend to except the valve seat and with It is driven the connecting shaft of axis connection, the valve seat is set on the base；

Spool spline structure is arranged between the connecting shaft and the transmission shaft and keeps the two relatively unrotatable；

First runner is rotatably sleeved on the transmission shaft；

Second runner is rotatably sleeved on the transmission shaft and is arranged with the first runner interval；

Castle wheel, being capable of phase between first runner and second runner and in the axial direction of the transmission shaft It is mobile to the transmission shaft；

Clutch spline structure is arranged between the castle wheel and the transmission shaft and keeps the two relatively unrotatable；

Operating assembly, for driving the castle wheel to move up in the axis of the transmission shaft；And

Driving assembly, for driving first runner to rotate, the driving component is set on the base and with described the The connection of one runner；

First runner is formed with multiple first teeth towards the side of castle wheel, and second runner is towards castle wheel Side is formed with multiple second teeth, and the opposite sides of the castle wheel is respectively formed with for first with first tooth engagement Cooperating teeth and for the second cooperating teeth with second tooth engagement.

It further, further include end cap and two bearing assemblies, two bearing assemblies include being fixed at institute State the bearing block of bottom plate and the stop bit bearing for being sheathed on the transmission shaft and being maintained on the bearing block；Two bearing assemblies It is divided into first bearing component and the second bearing component between first bearing component and valve seat；The operating assembly includes behaviour The reversing shaft making nut and being connected and fixed with the castle wheel；The end cap is fixed on the bearing block of the first bearing component And be enclosed an inner space with the bearing block, the operating nut with the axis of the transmission shaft be axis rotationally Setting is in the interior space；The reversing shaft be movably inserted in the axial direction of the transmission shaft in the transmission shaft and with Transmission shaft coaxial arrangement, one end of the reversing shaft extend to except the end of transmission shaft and form driving end, the behaviour Making nut has the nut bore being placed in for the driving end；Threaded portion, the nut bore are formed on the side wall at the driving end Inner wall on be formed with the threaded portion cooperation thread fiting part.

Further, the clutch spline structure includes locking pin, offers on the castle wheel and wears for the locking pin The clutch through-hole crossed, offer on the transmission shaft passed through for the locking pin and with the limit that is connected to inside the transmission shaft Slot, the limiting slot are located in the middle part of the transmission shaft and offer confession in the axially extending of the transmission shaft, the reversing shaft The commutation through-hole that the locking pin passes through.

Further, the transmission shaft includes the first shell of column, the intermediate shell of column of the second shell of column and connection between, institute Limiting slot is stated to be located on the intermediate shell of column；The intermediate shell of column has positioned at its opposite sides and abuts respectively with the first runner The first confined planes and the second confined planes for being abutted with the second runner, first confined planes be arranged around first shell of column, Second confined planes are arranged around second shell of column.

Further, the first elastic element is provided in the transmission shaft, first elastic element is supported to be changed described To in the other end face opposite with the driving end of axis.

Further, it is provided with the second elastic element between second runner and the second bearing component, described Two elastic elements are supported with second runner and the second bearing component respectively.

Further, the spool spline structure includes setting in connecting shaft and cross-sectional shape is non-circular connection Portion and the spool rotation stop hole for being opened on the transmission shaft and matching with the cross-sectional shape of the interconnecting piece.

Further, the driving component includes electric pushrod and push rod cup with a telescopic rod, the electric pushrod Pivotal attachment is on pedestal, and one end of push rod cup and the outer end of the telescopic rod are connected and fixed, and other end pivotal attachment is first On runner.

Further, Handleset is connected on second runner, the Handleset includes that handle is connected with handle Piece, the handle are connected and fixed by the handle connection sheet and second runner.

A kind of water discharge control method provided by the invention, using above-mentioned water trap, which includes,

Drive the operating assembly that the castle wheel and described are separated and made with second runner by the castle wheel The engagement connection of one runner, controls second runner by the operating assembly and rotates, with channel described in on-off；

Drive the operating assembly that the castle wheel and described are separated and made with first runner by the castle wheel The engagement connection of two runners, drives the second runner to rotate, with channel described in on-off.

It is compared with the prior art, water trap provided by the invention, including transmission shaft, valve gear, the first runner, second turn Wheel, castle wheel, operating assembly and driving assembly, valve gear include spool, are arranged between the connecting shaft and transmission shaft of the spool The spool spline structure for having and keeping the two relatively unrotatable, being provided between castle wheel and transmission shaft turn the two cannot opposite Dynamic clutch spline structure, in this way, the drainage fixture is standby to manually control and automatically control the function of mutually switching to spool, i.e., Just when power failure occurs, it can also switch to manual control mode and carry out control valve core rotation, so as to effectively prevent equipment Damage, and it is avoided that there is a phenomenon where make moist for the environment on periphery.

It is compared with the prior art, water discharge control method provided by the invention can be realized using above-mentioned water trap to valve Core manually controls and automatically controls mutually switching, so that the switch of ground spool can be effectively controlled.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of water trap provided in an embodiment of the present invention；

Fig. 2 is the decomposition diagram of water trap provided in an embodiment of the present invention；

Fig. 3 is the cross-sectional view in the direction O-O in Fig. 1；

Fig. 4 is the cross-sectional view in the direction P-P in Fig. 1；

Fig. 5 is the enlarged drawing in the portion A in Fig. 4.

Main element symbol description

100: water trap 10: pedestal

20: 201: the first shell of column of transmission shaft

202: the second shell of columns 203: intermediate shell of column

204: the first confined planes, 205: the second confined planes

206: limiting section

30: valve gear 301: valve seat

302: spool 303: channel

304: connecting shaft 305: bonnet,

306: bottom flange 307: valve body

308: accommodating space 309: water inlet

310: water outlet

40: spool spline structure 401: interconnecting piece

402: spool rotation stop hole

50: the first runner, 501: the first tooth

60: the second runner, 601: the second tooth

70: 701: the first cooperating teeth of castle wheel

702: the second cooperating teeth

80: operating assembly 801: operating nut

802: reversing shaft 803: driving end

804: operation portion 805: nut bore

806: threaded portion 807: thread fiting part

90: driving assembly 901: electric pushrod

902: push rod cup 903: handspike bearing

110: clutch spline structure 111: locking pin

112: clutch through-hole 113: limiting slot

114: commutation 115: the first clutch through-hole of through-hole

116: the second clutch through-hole, 117: the first limiting slot

118: the second limiting slots

120: bearing assembly 121: first bearing component

122: second bearing component 123: bearing block

124: stop bit bearing 125: limit baffle

130: end cap 131: inner space

140: Handleset 141: handle

142: handle connection sheet 150: locating piece

160: inductive component 161: supporting vertical plate

162: 170: the first elastic element of inductor

180: the second elastic elements 190: gasket

Specific embodiment

In order to which technical problems, technical solutions and advantages to be solved are more clearly understood, tie below Accompanying drawings and embodiments are closed, the present invention will be described in further detail.It should be appreciated that described embodiment is of the invention one Section Example, instead of all the embodiments.Based on described the embodiment of the present invention, those of ordinary skill in the art exist Every other embodiment obtained, shall fall within the protection scope of the present invention under the premise of without creative work.

In order to make those skilled in the art more fully understand technical solution of the present invention, below with reference to specific attached drawing to this The realization of invention is described in detail.

Unless otherwise defined, the technical term or scientific term used herein should be in fields of the present invention and has The ordinary meaning that the personage of general technical ability is understood.Used in present patent application specification and claims " the One ", " second " and similar word are not offered as any sequence, quantity or importance, and are used only to distinguish different Component part.Equally, the similar word such as "one" or " one " does not indicate that quantity limits yet, but indicates that there are at least one.

It is a preferred embodiment provided by the invention as shown in Fig. 1 to 5.

Water trap 100 provided in this embodiment, including pedestal 10, transmission shaft 20, valve gear 30, spool spline structure 40, First runner 50, the second runner 60, castle wheel 70, operating assembly 80 and driving assembly 90, transmission shaft 20 are in hollow setting, and It is rotatably supported on pedestal 10；Valve gear 30 includes the valve seat 301 that is arranged on pedestal 10 and with the axis of transmission shaft 20 Be the spool 302 that axis is rotatably arranged in valve seat 301, valve seat 301 has a channel 303, spool 302 can open and The channel 303 is closed, spool 302 has the connecting shaft 304 for extending to except valve seat 301 and connecting with transmission shaft 20, the connection The spool spline structure 40 for being provided between axis 304 and transmission shaft 20 and keeping the two relatively unrotatable；First runner 50 and Two runners 60 are rotatably sleeved on respectively on transmission shaft 20, and the first runner 50 and the setting of the second runner 60 interval；Castle wheel 70 are arranged between the first runner 50 and the second runner 60 and can move relative to transmission shaft 20 in the axial direction of transmission shaft 20, from It closes and is provided with clutch spline structure 110 between wheel 70 and transmission shaft 20, so that the two is relatively unrotatable, operating assembly 80 is used for Driving castle wheel 70 is moved up in the axis of transmission shaft 20；Driving assembly 90 is arranged on pedestal 10 and connects with the first runner 50 It connects, with driving the first rotation rotation；First runner 50 is formed with multiple first teeth 501 towards the side of castle wheel 70, and second turn 60 sides towards castle wheel 70 of wheel are formed with multiple second teeth 601, the opposite sides of castle wheel 70 be respectively formed with for The first cooperating teeth 701 that first tooth 501 engages and the second cooperating teeth 702 for being engaged with the second tooth 601.In this way, using Spool spline structure 40 is set between spool 302 and transmission shaft 20, the two can not relatively rotate, in rotation axis rotation, spool 302 interlock with the rotation, to open and close the border channel 303；Using the setting clutch spline structure between castle wheel 70 and transmission shaft 20 110, and the movement of castle wheel 70 is controlled by operating assembly 80, move castle wheel 70 axially on transmission shaft 20 along it It is dynamic, and select to engage with the first runner 50 and the second runner 60 in a manner of selecting one, the first runner 50 is connect with driving assembly 90 And driven by driving assembly 90, in this way, driving assembly 90 makes the first runner when castle wheel 70 engages connection with the first runner 50 50 rotations, to drive castle wheel 70 to rotate, transmission shaft 20 is rotated with castle wheel 70 and is rotated together, and is rotated with movable valve plug 302, With the on-off channel 303；After driving castle wheel 70 mobile by operating assembly 80 and engage connection with the second runner 60, it can pass through The rotation of the second runner 60 is driven, so that castle wheel 70 rotates, transmission shaft 20 is rotated with castle wheel 70 and rotated together, and is driven Spool 302 rotates, with the on-off channel 303.

Above-mentioned water trap 100, including transmission shaft 20, valve gear 30, the first runner 50, the second runner 60, castle wheel 70, Operating assembly 80 and driving assembly 90, valve gear 30 include spool 302, the connecting shaft 304 of the spool 302 and transmission shaft 20 it Between be provided with and both make relatively unrotatable spool spline structure 40, being provided between castle wheel 70 and transmission shaft 20 makes two The relatively unrotatable clutch spline structure 110 of person, in this way, drive castle wheel 70 mobile by control operating assembly 80, thus It being engaged in a manner of selecting one with the first runner 50 or with the second runner 60, the first runner 50 is driven by driving assembly 90 and is rotated, the Two runners 60 are rotated by manual mode, when castle wheel 70 rotates, are able to drive transmission shaft 20 and spool 302 rotates, in this way, should Water trap 100, which has, manually controls and automatically controls the function of mutually switching to spool 302, even if power failure occurs When, it can also switch to manual control mode and carry out the rotation of control valve core 302, so as to effectively prevent equipment damage, and be avoided that There is a phenomenon where make moist for the environment on periphery.

Referring to Fig. 1 to 5, the pedestal 10 of L-type can be fixedly mounted it by fasteners such as screws, and the pedestal 10 is to pacify Fill and support above-mentioned component.

Referring to Fig. 1 to 5, valve gear 30 includes the valve seat 301 and spool 302 with channel 303, and valve seat 301 is arranged the bottom of at On seat 10, spool 302 is rotatably arranged in valve seat 301, and can open and close channel 303.In the present embodiment, valve Seat 301 includes the valve body 307 of bonnet, 305, bottom flange 306 and tubulose, and bonnet, 305, bottom flange 306 pass through the fastening such as screw Part is closely connected and is fixedly mounted on pedestal 10, and an accommodating space 308 is enclosed between bonnet, 305 and bottom flange 306, Valve body 307 is mounted in the accommodating space 308, and above-mentioned channel 303 is arranged on valve body 307, and channel 303 extends to valve body 307 both ends are respectively formed water inlet 309 and water outlet 310, and water inlet 309 and water outlet 310 dock water inlet pipe (figure respectively Do not show) and outlet conduit (not shown), spool 302 be mounted in valve body 307, and can be connected to and separate water inlet pipe and water outlet Pipeline.

Referring to Fig. 1 to 5, transmission shaft 20 is rotatably supported on pedestal 10, and transmission shaft 20 is substantially in hollow ladder Axis, one end are un-rotatably connect with spool 302, and energy band movable valve plug 302 rotates.In the present embodiment, it is set on pedestal 10 It is equipped with bearing assembly 120, the quantity of bearing assembly 120 is but is not limited to two, and two bearing assemblies 120 are in transmission shaft 20 It is arranged side by side in axial direction, and includes bearing block 123 and stop bit bearing 124, bearing block 123 passes through the fixed peace of the fasteners such as screw On pedestal 10, transmission shaft 20 is maintained on bearing block 123 by stop bit bearing 124.Specifically, stop bit bearing 124 On be provided with limit baffle 125, the peripheral surface of stop bit bearing 124 offers baffle mounting groove, and baffle mounting groove is along position-arresting axis 124 entire circumferentially extending is held, limit baffle 125 is arranged on baffle mounting groove and (i.e. should with the inner surface of bearing block 123 A side surface towards another bearing block 123 on bearing block 123) it abuts, in this way, due to being provided with limit baffle 125, to limit Made stop bit bearing 124 along transmission shaft 20 it is axial to bearing block 123 outside (side surface opposite with inner surface it Direction is mobile outside), and transmission shaft 20 and bearing assembly 120 are easy for assemble or unload, and installs the structure relative securement of inter-axle shaft 20.

Referring to Fig. 1 to 5, the first runner 50, the second runner 60 are rotatably sleeved on transmission shaft 20 and are spaced each other, And be located between the stop bit bearing 124 of two bearing assemblies 120, the first runner 50 is connect with driving assembly 90.In the present embodiment In, driving assembly 90 includes electric pushrod 901 and push rod cup 902 with a telescopic rod (not shown), and electric pushrod 901 pivots It is attached on pedestal 10.Push rod cup 902 is mounted on the front end of electric pushrod 901 and is threadedly coupled with the outer end of telescopic rod, pedestal 10 are equipped with handspike bearing 903, and handspike bearing 903 is fixedly mounted on pedestal 10 by fasteners such as screws, electric pushrod 901 Rear end be articulated on handspike bearing 903, the pivot joint of the edge of push rod cup 902 and the first runner 50, in this way, the first runner 50 by For the driving of driving assembly 90 to rotate relative to transmission shaft 20, which is to be driven using automatically controlled (or automatic control) mode It is dynamic, to form automatic rotating wheel；Second runner 60 is driven using manual mode, to form hand wheel.It is noted that due to Electric pushrod 901 has powerful thrust, even if because hardness is low or sticking is easy to produce the miscellaneous of blocking inside valve gear 30 Matter causes spool 302 to block, and also the first runner 50 can be driven come the switch of control valve core 302 by electric pushrod 901, to keep away Exempt to make water trap 100 that there is better structural stability there is a phenomenon where blocking generation in blowdown, be not easy to plug.

Referring to Fig. 1 to 5, castle wheel 70, between the first runner 50 and the second runner 60 and in the axial direction of transmission shaft 20 On can be moved freely with respect to transmission shaft 20, and castle wheel 70 is un-rotatably connect with transmission shaft 20.First runner 50 towards The side of castle wheel 70 is formed with multiple first teeth 501, and the second runner 60 is formed with multiple second towards the side of castle wheel 70 Tooth 601, the opposite sides of castle wheel 70 be respectively formed with the first cooperating teeth 701 for being engaged with the first tooth 501 and for Second cooperating teeth 702 of the second tooth 601 engagement.In the present embodiment, transmission shaft 20 includes the first shell of column 201, the second shell of column 202 With connection intermediate shell of column 203 between, the outer diameter and the second column of the outer diameter of intermediate shell of column 203 compared with the first shell of column 201 The outer diameter of section 202 is big, and intermediate shell of column 203 has the first confined planes 204 and the second confined planes 205 positioned at its opposite sides, the One confined planes 204 are arranged around the first shell of column 201, and the second confined planes 205 are arranged around the second shell of column 202.Two bearing assemblies 120 points are first bearing component 121 and the second bearing component 122 between first bearing component 121 and valve seat 301, are passed First shell of column 201 of moving axis 20 is plugged on the stop bit bearing 124 of first bearing component 121, the first runner 50 be set in this On one shell of column 201, and abutted respectively with 124 end face of stop bit bearing of first bearing component 121 and the first confined planes 204, from And the first runner 50 is maintained on the first shell of column 201 in the axial direction.Second shell of column 202 of transmission shaft 20 is plugged in second bearing On the stop bit bearing 124 of component 122, the second runner 60 is set on second shell of column 202, and respectively with second bearing component 122 124 end face of stop bit bearing and the second confined planes 205 abut, so that the second runner 60 is maintained at second in the axial direction On shell of column 202.

Referring to Fig. 1 to 5, spool 302 has the connecting shaft 304 for extending to except valve seat 301 and connecting with transmission shaft 20, valve Be provided with spool spline structure 40 between the connecting shaft 304 and transmission shaft 20 of core 302, prevent connecting shaft 304 and transmission shaft 20 from It relatively rotates.In the present embodiment, connecting shaft 304 and transmission shaft 20 are coaxially disposed, and spool spline structure 40 includes setting even In spindle 304 and cross-sectional shape is non-circular interconnecting piece 401 and is opened in cross on transmission shaft 20 and with interconnecting piece 401 The spool rotation stop hole 402 that cross sectional shape matches.The cross-sectional shape of interconnecting piece 401 is but is not limited to rectangle, spool rotation stop Hole 402 is formed in the end of the second shell of column 202 and is connected to the inside of transmission shaft 20, the cross-sectional shape in spool rotation stop hole 402 Match with the cross-sectional shape of interconnecting piece 401.

In another embodiment, transmission shaft 20 can be used 304 device of connecting shaft with connecting shaft 304 and be connected and fixed.

Referring to Fig. 1 to 5, operating assembly 80 passes through operation for driving castle wheel 70 to move up in the axis of transmission shaft 20 The control of component 80 moves along its axis castle wheel 70 on transmission shaft 20, to be selected in a manner of selecting one and first turn Wheel 50 or the engagement connection of the second runner 60.In the present embodiment, operating assembly 80 includes operating nut 801 and connects with castle wheel 70 Connect fixed reversing shaft 802.End cap 130 is installed on the outside of the bearing block 123 of first bearing component 121, which passes through spiral shell The fasteners such as nail are fixedly connected with bearing block 123 and close to form an inner space 131, and operating nut 801 is with the axis of transmission shaft 20 Line is that axis is rotatably arranged in inner space 131, and is kept in the axial direction by end cap 130 and bearing block 123；Reversing shaft 802 are movably inserted in transmission shaft 20 in the axial direction of transmission shaft 20 and are coaxially disposed with transmission shaft 20, reversing shaft 802 One end extends to except the end of transmission shaft 20 and forms driving end 803；Operating nut 801, which stretches out, forms behaviour except end cap 130 Make portion 804, operating nut 801 has the nut bore 805 being placed in for driving end 803, is formed with spiral shell on the side wall at the driving end 803 Line portion 806 is formed with the thread fiting part 807 being threadedly engaged with threaded portion 806 on the inner wall of nut bore 805.In this way, can pass through Such as spanner tool twists the operation portion 804 of operating nut 801, rotates operating nut 801, because operating nut 801 is in axis To will not be subjected to displacement, therefore the rotation of operating nut 801 can make the reversing shaft 802 being threadedly engaged therewith mobile, to drive Castle wheel 70 is mobile, and engages connection with the first runner 50 or the second runner 60.It is noted that rotating clockwise operation spiral shell Mother 801 drives castle wheel 70 to leave the second runner 60, engages with the first runner 50, band movable valve plug 302 after electric pushrod 901 is powered Rotation, realize the automatic control of spool 302；Rotation process nut 801 counterclockwise drives castle wheel 70 to leave the first runner 50, it is engaged with the second runner 60, stirs rotation of the handle with movable valve plug 302, realize manually controlling for spool 302.

Referring to Fig. 1 to 5, clutch spline structure 110 is provided between castle wheel 70 and transmission shaft 20 so that castle wheel 70 with Transmission shaft 20 is relatively unrotatable, and in the present embodiment, clutch spline structure 110 includes locking pin 111, opens up on castle wheel 70 Have the clutch through-hole 112 passed through for locking pin 111, offered on transmission shaft 20 passed through for locking pin 111 and in transmission shaft 20 The limiting slot 113 of portion's connection, limiting slot 113 are located on the intermediate shell of column 203 of transmission shaft 20 and along the axially extending of transmission shaft 20, The commutation through-hole 114 passed through for locking pin 111 is offered on reversing shaft 802.112 quantity of clutch through-hole on castle wheel 70 be but Two are not limited to, the line between the center of two clutch through-holes 112 is on the axis of castle wheel 70, two clutch through-holes 112 be respectively the smaller second clutch through-hole 116 of diameter of the first clutch through-hole 115 and diameter compared with the first clutch through-hole 115.Limit The groove width and the diameter of locking pin 111 of position slot 113 match, and the quantity of limiting slot 113 is but is not limited to two, respectively that This parallel the first limiting slot 117 and the second limiting slot 118, locking pin 111 pass through the first clutch through-hole 115, first limit After position slot 117, commutation through-hole 114, the second limiting slot 118, it is threadedly coupled fixation with the second clutch through-hole 116, in this way, castle wheel 70 pay fixation with the lock of reversing shaft 802, and castle wheel 70 and reversing shaft 802 can be mobile relative to transmission shaft 20 in limiting slot 113.

Referring to Fig. 1 to 5, Handleset 140 is connected on the second runner 60, Handleset 140 includes handle 141 and handle Connection sheet 142, handle 141 are connected and fixed by handle connection sheet 142 with the second runner 60, in the present embodiment, Handleset 140 are mounted on the side of the second runner 60, and handle connection sheet 142 is connected and fixed by the fastener of screw with the second runner 60, Handle 141 is removably affixed in handle connection sheet 142, in this way, passing through behaviour after castle wheel 70 is engaged with the second runner 60 Make handle 141 so that the second runner 60 rotates, thus the rotation of control valve core 302.

As further optimizing, locating piece 150 is fixedly installed on pedestal 10, in Manual operation handle 141 To 141 stop bit of handle, to prevent handle 141 from swinging towards the direction of pedestal 10, locating piece 150 is located at 141 lower section of handle and leads to It crosses the fasteners such as screw to be fixedly mounted on pedestal 10, it should be pointed out that when spool 302 is manually operated, handle 141 is swung After on to locating piece 150, the state of close passage 303 at spool 302, in such manner, it is possible to improve in manual operation to spool The 302 effective property of operation.

As further optimizing, inductive component 160 is installed on pedestal 10, which includes setting the The supporting vertical plate 161 of one runner, 50 side and the inductor 162 being mounted in the supporting vertical plate 161, the inductor 162 can be with It is all the existing inductors 162 that can incude the first rotation rotation angle in the prior art, in this way, being driven in driving assembly 90 When rotating the first rotation, the rotational angle of the first rotation is monitored by inductor 162, and turn to opening in spool 302 Driving assembly 90 is set to stop driving behind position and closed position, to improve the operation precision of spool 302.

Referring to Fig. 1 to 5, the first elastic element 170 is provided in transmission shaft 20, the first elastic element 170, which is supported, to commutate In the other end face opposite with driving end 803 of axis 802.In the present embodiment, projection is formed on the inner wall of the second shell of column 202 There is limiting section 206, the first elastic element 170 is but is not limited to spring, is elastically compressed in transmission shaft 20, the first elasticity One end of element 170 is supported on the limiting section 206, and the other end is supported on the end face of reversing shaft 802, thus to reversing shaft 802 generate the pretightning force to 130 direction of end cap, make to have between the threaded portion 806 being threadedly coupled and thread fiting part 807 enough Reliability and compactness, prevent connection loosen.

Referring to Fig. 1 to 5, it is provided with the second elastic element 180 between the second runner 60 and second bearing component 122, second Elastic element 180 is supported with the second runner 60 and second bearing component 122 respectively, in the present embodiment, the second elastic element 180 For but be not limited to spring, be elastically compressed between the second runner 60 and second bearing component 122, the second elastic element 180 pair of second runner 60 generates axial pretightning force, to guarantee the second confined planes 205 of transmission shaft 20 and the table of the second runner 60 There is enough compactnesses between face, be in close contact the joint surface of transmission shaft 20 and the second runner 60 and there is enough frictions Power is free to prevent the second runner 60 second runner 60 when being not affected by external force (driving force applied to the second runner 60) effect Rotation.

Specifically, one end of the second elastic element 180 is resisted against the second runner 60 by a gasket 190, and the other end passes through Another gasket 190 is resisted against the stop bit bearing 124 of second bearing component 122, in this way, it is convenient for the installation of the second elastic element 180, And structure is more firm.

The water discharge control method provided in an embodiment of the present invention using above-mentioned water trap 100 is made with reference to the accompanying drawing detailed Explanation.

Operating assembly 80 is driven to separate and make castle wheel 70 and the first runner 50 to engage with the second runner 60 castle wheel 70 Connection controls the rotation of the second runner 60 by operating assembly 80, with on-off channel 303.In the present embodiment, behaviour is rotated clockwise Make nut 801, operating nut 801 drives reversing shaft 802 and opposite transmission shaft 20 moves together with the fixed castle wheel 70 of reversing shaft 802 It is dynamic, so that castle wheel 70 is made to separate with the second runner 60 and engage with the first runner 50, its telescopic rod after electric pushrod 901 is powered It stretches out, the push rod cup 902 being connected on the telescopic rod pushes the rotation of the first runner 50, to make 70 turns of castle wheel be engaged with It is dynamic, while castle wheel 70 rotates, drives transmission shaft 20 and spool 302 to rotate, realize the automatic control of spool 302.

Operating assembly 80 is driven to separate and make castle wheel 70 and the second runner 60 to engage with the first runner 50 castle wheel 70 Connection drives the second runner 60 to rotate, with on-off channel 303.In the present embodiment, rotation process nut 801 counterclockwise, operation Nut 801 drives reversing shaft 802 and with the fixed castle wheel 70 of reversing shaft 802 together relative to the movement of transmission shaft 20, to make clutch Wheel 70 is separated with the first runner 50 and engage with the second runner 60, stirs handle 141 and the second runner 60 is pushed to rotate, thus make and The castle wheel 70 of engagement rotate, while castle wheel 70 rotates, drive transmission shaft 20 and spool 302 to rotate, realize spool 302 manually control.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Made any modification, equivalent replacement or improvement etc., should all be included in the protection scope of the present invention within mind and principle.