阅读说明：本技术 一种建筑保温隔热板及其加工方法 (Building heat-insulating plate and processing method thereof ) 是由 孙越 于 2021-08-04 设计创作，主要内容包括：本发明涉及建筑工程技术领域,具体为一种建筑保温隔热板及其加工方法；能够降低温度的传递,起到很好的隔热的作用；该方法包括以下步骤：S1：将隔热部安装在两个夹持架上,使隔热部贴合在水管的上端；S2：将活动板从上方插入到固定板上,活动板和固定板之间形成隔热腔；S3：向隔热部内注入适量的水,使活动板和固定板之间的隔热部被填充撑起后阻隔在活动板和固定板之间；S4：将水管的首端和末端分别连通进水管和出水管,并接入外接水源,使水管内的水一直处于流动的状态。(The invention relates to the technical field of building engineering, in particular to a building heat-preservation and heat-insulation plate and a processing method thereof; the temperature transfer can be reduced, and a good heat insulation effect is achieved; the method comprises the following steps: s1: mounting the heat insulation part on the two clamping frames to enable the heat insulation part to be attached to the upper end of the water pipe; s2: inserting a movable plate onto a fixed plate from above, wherein a heat insulation cavity is formed between the movable plate and the fixed plate; s3: injecting a proper amount of water into the heat insulation part to ensure that the heat insulation part between the movable plate and the fixed plate is blocked between the movable plate and the fixed plate after being filled and supported; s4: the head end and the tail end of the water pipe are respectively communicated with the water inlet pipe and the water outlet pipe and are connected with an external water source, so that the water in the water pipe is always in a flowing state.)

1. A building heat preservation heat insulating board which is characterized in that: including thermal-insulated portion (1), fixed plate (2), hydraulic stem (201) and fly leaf, the fly leaf is pegged graft on fixed plate (2), installs two hydraulic stem (201) on fixed plate (2), and the expansion end and the fly leaf of two hydraulic stem (201) are connected, are equipped with between fly leaf and fixed plate (2) and carry out thermal-insulated portion (1) of separation to the heat exchange.

2. The building insulation panel according to claim 1, wherein: the building heat-preservation and heat-insulation plate further comprises clamping frames (101), trapezoidal edges (202) and a returning frame (206), the fixing plate (2) is fixedly connected with the returning frame (206), the returning frame (206) is provided with the two trapezoidal edges (202), the two trapezoidal edges (202) are respectively movably connected with one clamping frame (101), and two ends of the heat-insulation part (1) are respectively fixed on the two clamping frames (101).

3. The building insulation panel according to claim 2, wherein: the material of heat insulating part (1) is the rubber bag of smooth surface, and the one end of heat insulating part (1) is equipped with water injection pipe (102).

4. The building insulation panel according to claim 2, wherein: the building heat-preservation and heat-insulation plate further comprises a screw rod (104), a guide post (105) and an extrusion part, the guide post (105) is fixedly connected between the two clamping frames (101), the screw rod (104) is rotatably connected between the two clamping frames (101), two ends of the screw rod (104) are respectively in threaded connection with the extrusion part, and the two extrusion parts are movably connected with the guide post (105); the two extrusion parts are respectively sleeved at two ends of the heat insulation part (1).

5. The building insulation panel according to claim 4, wherein: the extrusion part comprises a hinged frame (4), U-shaped frames (401), a sliding frame (402) and a grooved rod (406), the hinged frame (4) is in threaded connection with the screw (104), two ends of the hinged frame (4) are respectively hinged with one U-shaped frame (401), the sliding frame (402) is hinged between the two U-shaped frames (401), and the inner ends of the two U-shaped frames (401) are respectively fixedly connected with one grooved rod (406); the thermal insulation (1) is located between the hinge frame (4) and the carriage (402).

6. The building insulation panel according to claim 5, wherein: the extrusion part further comprises a worm (403), push rods (404) and sliding columns (405), a first double-shaft motor is fixedly connected to the sliding frame (402), two ends of the first double-shaft motor are respectively connected with one worm (403), the two worms (403) are respectively in threaded connection with one push rod (404), the two push rods (404) are all in sliding connection with the sliding frame (402), the two push rods (404) are respectively in fixed connection with one sliding column (405), and the two sliding columns (405) are respectively in sliding connection with the two slot rods (406).

7. The building insulation panel according to claim 2, wherein: the building heat-preservation and heat-insulation plate comprises a circulating water cooling part, wherein the circulating water cooling part is arranged on the fixing plate (2), and the circulating water cooling part is positioned between the heat-insulation part (1) and the fixing plate (2).

8. The building insulation panel according to claim 7, wherein: circulating water cooling portion is including solid fixed ring (203) and water pipe (5), and water pipe (5) are snakelike orbit and install on fixed plate (2), two solid fixed ring (203) of fixed connection on fixed plate (2), and the both ends of water pipe (5) are fixed respectively on two solid fixed ring (203), and the head end and the end of water pipe (5) are all worn out the rear end of returning type frame (206).

9. The building insulation panel according to claim 8, wherein: circulating water cooling portion still includes horizontal spout (204), lantern ring (501) and extension rod (502), the kink on water pipe (5) all is flexible hose, what every kink both ends were connected all is the PVC hard tube, on water pipe (5) lie in a plurality of hard tubes between head end and the end respectively the cover establish a lantern ring (501), extension rod (502) of fixed connection respectively on a plurality of lantern rings (501), be equipped with horizontal spout (204) on time type frame (206), all sliding connection are in horizontal spout (204) in a plurality of extension rod (502).

10. A method of processing a building insulating panel according to claim 9, characterised in that: the method comprises the following steps:

s1: mounting the heat insulation part (1) on the two clamping frames (101) to enable the heat insulation part (1) to be attached to the upper end of the water pipe (5);

s2: inserting a movable plate onto the fixed plate (2) from above, wherein a heat insulation cavity is formed between the movable plate and the fixed plate (2);

s3: injecting a proper amount of water into the heat insulation part (1) to enable the heat insulation part (1) between the movable plate and the fixed plate (2) to be blocked between the movable plate and the fixed plate (2) after being filled and supported;

s4: the head end and the tail end of the water pipe (5) are respectively communicated with the water inlet pipe and the water outlet pipe and are connected with an external water source, so that the water in the water pipe (5) is always in a flowing state.

Technical Field

The invention relates to the technical field of building engineering, in particular to a building heat-preservation and heat-insulation plate and a processing method thereof.

Background

Building heat insulation boards are generally used in the building industry, and are common building materials, so that heat transfer caused by air convection can be effectively avoided, and a heat insulation effect is achieved.

The heat insulation plate is a wall body which is frequently used in building engineering, but the existing heat insulation plate has poor heat insulation effect in the using process, and the heat on the higher side of the temperature difference cannot be sufficiently absorbed, so that the problem of poor heat insulation effect is caused, the use comfort of a user is influenced, and therefore, the building heat insulation plate for the building engineering field is produced.

Disclosure of Invention

The invention aims to provide a building heat-preservation and heat-insulation plate and a processing method thereof, which can reduce the temperature transfer and play a good role in heat insulation.

The invention provides the following technical scheme:

a building heat preservation heat insulating board which is characterized in that: including thermal-insulated portion, fixed plate, hydraulic stem and fly leaf, the fly leaf is pegged graft on the fixed plate, installs two hydraulic stems on the fixed plate, and the expansion end and the fly leaf of two hydraulic stems are connected, are equipped with between fly leaf and the fixed plate to carry out the thermal-insulated portion of separation to the heat exchange.

The building heat-insulation and heat-preservation plate further comprises clamping frames, trapezoidal edges and a mould returning frame, the mould returning frame is fixedly connected to the fixing plate, two trapezoidal edges are arranged on the mould returning frame, the two trapezoidal edges are respectively and movably connected with one clamping frame, and two ends of the heat-insulation portion are respectively fixed on the two clamping frames.

The material of thermal-insulated portion is the rubber bag of smooth surface, can prop up when the injected water, and the one end of thermal-insulated portion is equipped with the water injection pipe for inject water into in the thermal-insulated portion.

The building heat-insulation plate further comprises a screw, a guide post and two extrusion parts, wherein the two extrusion parts are respectively in threaded connection at two ends of the screw, the two extrusion parts are respectively in sliding connection at two ends of the guide post, the guide post is fixedly connected between the two clamping frames, the screw is rotatably connected between the two clamping frames, the two extrusion parts are respectively clamped at the front end and the rear end of the heat-insulation part, and the two extrusion parts are located between the two clamping frames.

Building heat preservation heat insulating board includes circulating water cooling portion, and circulating water cooling portion tiling is on the fixed plate, and the laminating of heat insulating portion is in the upper end of circulating water cooling portion, and when circulating water cooling portion switch-on recirculated cooling water, the circulating water cooling portion can absorb the temperature of heat insulating portion and outwards transmit away to play the effect to heat insulating portion cooling.

A method for processing a building heat-insulating board comprises the following steps:

s1: mounting the heat insulation part on the two clamping frames to enable the heat insulation part to be attached to the upper end of the water pipe;

s2: inserting a movable plate onto a fixed plate from above, wherein a heat insulation cavity is formed between the movable plate and the fixed plate;

s3: injecting a proper amount of water into the heat insulation part to ensure that the heat insulation part between the movable plate and the fixed plate is blocked between the movable plate and the fixed plate after being filled and supported;

s4: the head end and the tail end of the water pipe are respectively communicated with the water inlet pipe and the water outlet pipe and are connected with an external water source, so that the water in the water pipe is always in a flowing state.

Drawings

FIG. 1 is a process diagram of a building insulation panel and a method for manufacturing the same;

FIG. 2 is a schematic view showing a structure for adjusting the size of an insulating chamber;

FIG. 3 is a schematic view showing a structure of a heat insulating part;

FIG. 4 is a schematic view showing the structure of the heat insulating part in cooperation with two pressing parts;

FIG. 5 is a schematic view showing a structure for adjusting the distance between two pressing portions;

FIG. 6 is a schematic view showing a structure of the pressing part;

FIG. 7 shows a schematic view of a portion of the structure of FIG. 6;

FIG. 8 is a schematic view showing a structure of a water pipe mounted on a fixing plate;

FIG. 9 is a schematic view of a structure for adjusting the density of a water pipe;

FIG. 10 is a schematic view of the movable plate;

FIG. 11 shows a schematic view of the construction of the top plate;

FIG. 12 is a schematic view showing the construction of the frame;

FIG. 13 is a schematic view showing the mating structure of the top plate and the frame;

FIG. 14 is a schematic view showing the overall structure;

fig. 15 shows a partially enlarged view of fig. 14.

Description of the drawings: a heat insulating part 1; a holder 101; a water injection pipe 102; a bore seat 103; a screw 104; a guide post 105; a fixed plate 2; a hydraulic rod 201; a trapezoidal edge 202; a fixing ring 203; a horizontal chute 204; a loop bar 205; a swage mount 206; a top plate 3 a; the circular table shaft 3a 1; the hand catch groove 3a 2; a frame 3 b; the connecting frame 3b 1; the guide groove 3b 2; notches 3b 3; the plunger 3b 4; the baffle 3b 5; a hinge frame 4; a U-shaped frame 401; a carriage 402; a worm 403; a push rod 404; a spool 405; a slot bar 406; a water pipe 5; a collar 501; an extension rod 502; a motor frame 503; a lead screw 504; a guide rod 505; long screws 506.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Referring to fig. 2-3, the present invention provides an embodiment for coping with different temperature differences by adjusting the size of the thermal insulation chamber:

a building heat preservation and insulation board comprises a heat insulation part 1, a fixed plate 2, hydraulic rods 201 and movable plates, wherein screw holes are formed in the fixed plate 2 and used for inserting screws so as to fix the fixed plate 2 at a used position, the movable plates are vertically inserted in the fixed plate 2, a heat insulation cavity is formed between the movable plates and the fixed plate 2 and can block heat exchange between the fixed plate 2 and the movable plates so as to play a role in heat preservation and insulation, two hydraulic rods 201 are arranged between the movable plates and the fixed plate 2, the two hydraulic rods 201 are respectively and fixedly connected to the left end and the right end of the fixed plate 2, the movable ends of the two hydraulic rods 201 are fixedly connected with the movable plates, when the two hydraulic rods 201 are started, the movable plates can be driven to slide up and down on the fixed plate 2, so that the distance between the movable plates and the fixed plate 2 is changed, the size of the heat insulation cavity is changed, and when the temperature difference between the two sides of the movable plates and the fixed plate 2 is larger, can adjust thermal-insulated chamber grow, be applicable to the great environment of the both sides difference in temperature, carry out the efficient thermal-insulated, otherwise, when the difference in temperature of 2 both sides of fly leaf and fixed plate is less, can adjust thermal-insulated chamber and diminish, be applicable to the less environment of the both sides difference in temperature to use under the environment of different differences in temperature of reply.

On this basis, still be equipped with thermal-insulated portion 1 between fly leaf and the fixed plate 2, after injecting water into thermal-insulated portion 1, thermal-insulated portion 1 is filled and is propped up, and thermal-insulated portion 1 that is equipped with water is located the thermal-insulated intracavity between fly leaf and the fixed plate 2, and further carries out the separation to the heat exchange between fly leaf and the fixed plate 2, and the water in the fixed plate 2 also can absorb the heat of the higher one side of temperature simultaneously to further reduce the transmission of temperature plays fine thermal-insulated effect.

Further, when the thermal-insulated portion 1 is equipped with water in, through controlling two hydraulic stem 201, drive the fly leaf and remove to the direction of fixed plate 2, the interval diminishes between fly leaf and the fixed plate 2, and then the thermal-insulated portion 1 of extrusion takes place deformation, the thermal-insulated portion 1 that will prop up flattens, it tiles between fixed plate 2 and fly leaf to make thermal-insulated portion 1 warp the back, area of contact between the top surface of thermal-insulated portion 1 and fixed plate 2 and the bottom surface of fly leaf is bigger, thereby carry out thermal absorption to the whole thermal-insulated chamber between fly leaf and the fixed plate 2, thereby absorb and block heat transfer to the heat of the bigger area between the two boards.

Referring to fig. 2-3, the present invention provides an embodiment of targeted thermal insulation for a location with a higher temperature in a thermal insulation cavity:

the building heat-insulating board also comprises a clamping frame 101, a trapezoidal edge 202 and a back-shaped frame 206, the top surface of the fixing plate 2 is fixedly connected with the back-shaped frame 206, when the heat insulating part 1 is pressed to be deformed and laid on the fixing plate 2, the swage mount 206 can restrict the heat insulating part 1 from overflowing outward, the heat insulation part 1 is limited, the front end and the rear end of the rectangular frame 206 are respectively fixedly connected with a transverse trapezoidal edge 202, the two trapezoidal edges 202 are respectively connected with another clamping frame 101 in a sliding manner, the front end and the rear end of the heat insulation part 1 are respectively clamped and fixed by the two clamping frames 101, the two clamping frames 101 can drive the heat insulation part 1 to horizontally slide on the two trapezoidal edges 202, thereby changing the position of the heat insulation part 1 in the heat insulation cavity, when the temperature heat at a certain position is concentrated and the temperature is concentrated and increased, the heat insulation part 1 is adjusted to move to a position with concentrated temperature, and then a certain position in the heat insulation cavity can be insulated in a targeted manner.

The material of thermal-insulated portion 1 is the rubber bag of smooth surface to can prop up when the injected water, be similar to the form of hot-water bottle, and can take place deformation when receiving the extrusion, the one end of thermal-insulated portion 1 is equipped with water injection pipe 102 for to injecting water in the thermal-insulated portion 1, the holding frame 101 of front end is worn out to water injection pipe 102, is equipped with the valve on the water injection pipe 102.

Referring to fig. 4-5, the present invention provides an embodiment of heat absorption and insulation for a horizontal, elongated shape location where heat is concentrated:

the building heat-preservation and heat-insulation plate further comprises a screw 104, a guide post 105 and extrusion parts, wherein the two extrusion parts are respectively in threaded connection with two ends of the screw 104, the two extrusion parts are respectively in sliding connection with two ends of the guide post 105, the guide post 105 is fixedly connected between the two clamping frames 101, the screw 104 is rotatably connected between the two clamping frames 101, the two extrusion parts are respectively clamped at the front end and the rear end of the heat-insulation part 1, the two extrusion parts are positioned between the two clamping frames 101, when the screw 104 is rotated, the two extrusion parts are driven to be close to each other, the two extrusion parts simultaneously move inwards to smooth out two ends of the heat-insulation part 1, simultaneously, water in the heat-insulation part 1 is pushed towards the middle part of the heat-insulation part 1, so that the water in the heat-insulation part 1 is gathered at the middle part of the heat-insulation part 1, and the middle part of the heat-preservation and heat-insulation part 1 is driven to deform towards the left side and the right side within a small range under the extrusion of the water due to be constant in volume, therefore, the heat insulation part 1 is extruded to form a horizontal strip-shaped water bag, heat absorption and heat insulation can be carried out on the horizontal strip-shaped position where heat is concentrated, meanwhile, the depth of water in the horizontal strip-shaped water bag after extrusion is deep, and accordingly heat accumulation can be further weakened.

Referring to fig. 6, the present invention provides an embodiment of heat absorption and insulation for a vertical elongated position:

the extrusion part comprises a hinge frame 4, a U-shaped frame 401, a sliding frame 402 and a grooved rod 406; a hinged frame 4 is hinged between the lower ends of the two U-shaped frames 401, and a sliding frame 402 is hinged between the upper ends of the two U-shaped frames 401; the heat insulation part 1 is positioned between the hinge frame 4 and the sliding frame 402, the hinge frame 4 is in threaded connection with the screw 104, two U-shaped frames 401 are respectively fixedly connected with a groove rod 406 at the position close to the position hinged with the sliding frame 402, the two groove rods 406 can be rotated to drive the two U-shaped frames 401 to rotate around the position hinged with the sliding frame 402, the extrusion part is converted into a U shape from a long strip shape, the four U-shaped frames 401 simultaneously rotate towards the direction close to the heat insulation part 1 and extrude the left end and the right end of the heat insulation part 1, the heat insulation part 1 is extruded and deformed into a vertical long strip shape, heat absorption and heat insulation can be carried out on the position of the vertical long strip shape, the depth of water in the vertical long strip water bag after extrusion is deep, and heat accumulation can be further eliminated and weakened.

Further, when the four U-shaped frames 401 are controlled to rotate inwards, the two extrusion parts are driven to move inwards, so that water in the heat insulation part 1 is further extruded to gather to the middle part of the heat insulation part 1, the heat insulation part 1 is changed into a shape approaching to a circle, and heat absorption and heat insulation can be performed on the position of the circle;

in addition, by changing the position of the heat insulating part 1, the round or strip-shaped temperature gathering part at different positions can be insulated.

Referring to fig. 7, the present invention provides an embodiment in which the pressing portion is converted from a strip shape to a U shape:

the extrusion part further comprises worms 403, push rods 404 and sliding columns 405, the sliding frame 402 is movably connected with two push rods 404, the two push rods 404 are respectively in threaded connection with one worm 403, the two worms 403 are respectively fixedly connected to output shafts at two ends of a double-shaft motor, the first double-shaft motor is fixedly connected to the sliding frame 402, the outer ends of the two push rods 404 are respectively fixedly connected with one sliding column 405, the two sliding columns 405 are respectively in sliding connection with the two groove rods 406, the first double-shaft motor is started to drive the two push rods 404 to slide towards the outer ends through the two worms 403, the two sliding columns 405 slide in the two groove rods 406 to drive the two U-shaped frames 401 to rotate towards the direction close to the heat insulation part 1, and therefore the extrusion heat insulation part 1 deforms.

Referring to fig. 8, the present invention provides an embodiment of cooling the heat insulating part 1, so that the heat insulating part 1 can continuously absorb external heat and transmit the heat to the outside through the circulating water cooling part:

building heat preservation heat insulating board includes circulating water cooling portion, and circulating water cooling portion tiles on fixed plate 2, and the laminating of heat insulating portion 1 is in the upper end of circulating water cooling portion, when circulating water cooling portion switch-on recirculated cooling water, circulating water cooling portion can absorb heat insulating portion 1's temperature and outwards transmit away, thereby play the effect to heat insulating portion 1 cooling, make the outside heat of absorption that heat insulating portion 1 can last, and pass through circulating water cooling portion with the heat and outwards transmit away, make heat insulating portion 1's temperature be unlikely to too high and lose the effect of absorbing the heat.

Referring to fig. 8, the present invention provides an embodiment of continuously cooling the heat insulating part 1:

circulating water cooling portion is including solid fixed ring 203 and water pipe 5, water pipe 5 is snakelike orbit and distributes on fixed plate 2, solid fixed ring 203 of head end and the end difference fixed connection of water pipe 5, two solid fixed ring 203 are all fixed connection on fixed plate 2, the head end and the end of water pipe 5 pass the rear end of returning type frame 206, the head end and the end of water pipe 5 communicate inlet tube and outlet pipe respectively, and access external water source, make the water in the water pipe 5 be in the state that flows always, the temperature risees after heat is absorbed to heat portion 1, the heat of heat portion 1 can be absorbed to the water in the water pipe 5, water in the water pipe 5 is in the state that flows, thereby outwards carry the heat of heat portion 1 along with the flow of water with absorbing, the heat of heat portion 1 is continuously absorbed to the heat portion 1 that insulates against heat, thereby continuously cool down the processing.

Referring to fig. 9, the present invention provides an embodiment of continuously cooling the heat insulating part 1 having a changed form:

the circulating water cooling part also comprises a transverse sliding groove 204, sleeve rings 501 and extension rods 502, the bent parts on the water pipe 5 are all flexible hoses, both ends of each bent part are connected with PVC hard pipes, one sleeve ring 501 is respectively sleeved on a plurality of hard pipes between the head end and the tail end on the water pipe 5, the extension rods 502 are respectively fixedly connected on the sleeve rings 501, the horizontal transverse sliding groove 204 is arranged at the position on the return frame 206, which is contacted with the fixed plate 2, the extension rods 502 are all connected in the transverse sliding groove 204 in a sliding manner, and the extension rods 502 are pulled to drive the hard pipes on the water pipe 5 to move, thereby driving a plurality of hard pipes on the water pipe 5 to be mutually close or distributed in a dispersed way, and adjusting the covered area of the water pipe 5 according to the shape of the heat insulation part 1, the water pipe 5 is always kept in contact with the heat insulating part 1 having the changed form, and the heat insulating part 1 having the changed form can be continuously cooled.

A method for processing a building heat-insulating board comprises the following steps:

s1: mounting the heat insulating part 1 on the two holding frames 101, and attaching the heat insulating part 1 to the upper end of the water pipe 5;

s2: inserting a movable plate onto the fixed plate 2 from above, wherein a heat insulation cavity is formed between the movable plate and the fixed plate 2;

s3: injecting a proper amount of water into the heat insulation part 1 to enable the heat insulation part 1 between the movable plate and the fixed plate 2 to be blocked between the movable plate and the fixed plate 2 after being filled and supported;

s4: the head end and the tail end of the water pipe 5 are respectively communicated with the water inlet pipe and the water outlet pipe and are connected with an external water source, so that the water in the water pipe 5 is always in a flowing state.

The circulating water cooling part further comprises a motor frame 503, a screw rod 504 and a guide rod 505, the guide rod 505 is fixed on the fixing plate 2, the guide rod 505 is connected with the motor frame 503 in a sliding mode, a double-shaft motor II is fixed on the motor frame 503, two ends of the double-shaft motor II are respectively fixedly connected with the screw rod 504, and the extension rods 502 are symmetrically in threaded connection with the two screw rods 504.

Referring to fig. 9 to 10, the present invention provides an embodiment in which water pipe 5 can be in contact with heat insulation part 1 to the maximum extent when the form of heat insulation part 1 is changed:

the double-shaft motor II is started to drive the two lead screws 504 to rotate, the two lead screws 504 respectively drive the plurality of extension rods 502 on the lead screws to be close to or far away from each other to slide, so that the hard pipes on the water pipes 5 are driven to be close to each other or be far away from each other to be dispersed through the plurality of lantern rings 501, the distribution density of the water pipes 5 is changed according to the distribution width of the heat insulation part 1, when the heat insulation part 1 is flattened, the water pipes 5 are dispersed and kept in contact with the whole heat insulation part 1, when the heat insulation part 1 is pressed into a vertical strip shape, the water pipes 5 are distributed and kept in contact with the strip heat insulation part 1, when the shape of the heat insulation part 1 is changed, the water pipes 5 can be kept in contact with the heat insulation part 1 to the maximum extent, and the temperature reduction treatment is carried out on the water pipes;

further, motor frame 503 can slide about on guide arm 505 to can drive the water pipe that is in the middle part on the water pipe 5 and remove, make the water pipe can follow the change of the position of thermal-insulated portion 1 and change, with the state that thermal-insulated portion 1 kept in contact, threaded connection has set screw on the motor frame 503, screws the set screw with the rigidity of the water pipe in middle part.

On the basis, a long screw 506 is connected to the motor frame 503 through a thread, a hole seat 103 is fixedly connected to the front end of the clamping frame 101, and the long screw 506 is arranged corresponding to the hole seat 103. The long screw 506 is rotated and inserted into the socket 103 so that the heat insulating part 1 and the water pipe 5 are moved in synchronization with each other, and when the long screw 506 is separated from the socket 103, the heat insulating part 1 can be moved independently.

The movable plate comprises a top plate 3a and a frame 3b, the two top plates 3a are connected to the frame 3b in a relatively sliding mode, the two top plates 3a can be drawn out of the frame 3b, and rectangular grooves are formed in the bottom surfaces of the two top plates 3 a.

The movable plate further comprises a circular truncated cone shaft 3a1, a guide groove 3b2 and a notch 3b3, two ends of the frame 3b are respectively provided with one guide groove 3b2, two ends of the two top plates 3a are respectively and fixedly connected with the two circular truncated cone shafts 3a1, the two top plates 3a are respectively and slidably connected in the two oppositely arranged guide grooves 3b2 through the four circular truncated cone shafts 3a1, the middle of the frame 3b is provided with four notches 3b3, and the four circular truncated cone shafts 3a1, close to each other, on the two top plates 3a respectively correspond to the four notches 3b 3; the notch 3b3 communicates with the guide groove 3b 2.

Referring to fig. 10-13, the present invention provides an embodiment of performing a rapid cool down process:

the temperature of the surface of the two top plates 3a, which is in contact with the heat insulation part 1, is low, the surface area of the bottom surface of the top plate 3a is increased due to the rectangular grooves in the bottom surfaces of the two top plates 3a, so that the two top plates 3a are pulled out and turned over and then inserted into the frame 3b again, the surface with the low temperature faces upwards, the surface with the larger surface area faces upwards, high temperature in the middle and outside can be further centered, the temperature is rapidly reduced, and the high temperature is absorbed and blocked;

further, when the usage environment or the installation environment of the fixing plate 2 is not convenient for the two top plates 3a to be drawn out from the front and rear ends of the frame 3b, the inner end of the top plate 3a is pulled upward, the inner end of the top plate 3a is pulled up, and then the top plate 3a is pulled inward, so that the two circular truncated cone shafts 3a1 at the outer end of the top plate 3a slide to the two notches 3b3 corresponding to the inner end, thereby separating the top plate 3a, and then the top plate 3a is turned over and then the top plate 3a is reset in the opposite step.

The movable plate further comprises connecting frames 3b1 and baffle plates 3b5, two ends of the frame 3b are respectively inserted with a baffle plate 3b5, two ends of the two baffle plates 3b5 respectively block the four notches 3b3 to prevent the inner end of the top plate 3a from tilting upwards, two locking screws are respectively in threaded connection with the two baffle plates 3b5, the two locking screws are respectively tightly propped against the two connecting frames 3b1 to fix the positions of the two baffle plates 3b5, and the two connecting frames 3b1 are respectively fixedly connected with two ends of the frame 3 b; the movable ends of the two hydraulic rods 201 are fixedly connected with the two connecting frames 3b1 respectively.

The movable plate further comprises a hand buckle groove 3a2, the upper end and the lower end of the inner end of the top plate 3a are respectively provided with a hand buckle groove 3a2, so that the inner end of the top plate 3a can be conveniently lifted upwards.

The four corners of the fixing plate 2 are respectively fixedly connected with one loop bar 205, the frame 3b is fixedly connected with four insertion bars 3b4, and the four insertion bars 3b4 are inserted into the four loop bars 205.