CN113977824B - Tire film cooling device - Google Patents

Abstract

The invention relates to the technical field of tire processing, in particular to a tire rubber sheet cooling device. The steering device comprises a base and support columns arranged at the left end and the right end of the surface of the base, wherein a support shaft is movably clamped between the two support columns, the right end of the support shaft horizontally penetrates through the support column on the right side to be connected with an output shaft of a driving motor arranged on the support column on the right side, a steering sleeve is movably sleeved on the support shaft on the right side, limiting plates are fixedly sleeved on the support shafts at the left end and the right end of the steering sleeve respectively, and the limiting plates on the right side are movably abutted on the side wall of the support column on the right side. The device has reasonable structural design, adopts a physical cooling mode, saves time and labor during operation, greatly reduces the labor intensity of workers, saves space resources, reduces unnecessary waste, effectively prevents the film from deforming, reduces the quality of the product, and solves a plurality of problems in the prior art.

Description

Tire film cooling device

Technical Field

The invention relates to the technical field of tire processing, in particular to a tire rubber sheet cooling device.

Background

Rubber is an elastic polymer which can be obtained from the sap of some plants or can be manufactured artificially, and therefore, according to the processing mode, rubber can be classified into synthetic rubber and natural rubber. The tire is one of main products using rubber, and provides a guarantee for keeping good grip between the vehicle and the ground. The rubber sheet is one of the main materials for manufacturing tires, and the rubber sheet is obtained by mixing the raw materials such as carbon black, natural/synthetic rubber, oil, additives, accelerators, etc. together, and sufficiently mixing the raw materials with an internal mixer or an open mill to obtain a rubber sheet suitable for manufacturing each component of the tire, and then subjecting the produced rubber sheet to the subsequent extrusion process, rolling process, cutting process, bonding process, molding process, spraying process, and vulcanizing process to manufacture the tire. After the film is manufactured, the film is easy to deform due to the fact that the film has a certain temperature, and therefore the film needs to be cooled down in time, so that the film has a certain strength, and the subsequent winding process is facilitated.

However, the existing cooling device is very simple, most of the cooling devices are used for naturally cooling films by placing the films on a film hanging rod, and the operation mode has a plurality of inconveniences: firstly, naturally cooling, consuming time and labor, and additionally increasing the labor intensity of workers; secondly, occupying space resources, and causing unnecessary waste; thirdly, in the cooling process, the film can stretch and deform under the action of self gravity, so that the quality of the film is reduced.

Disclosure of Invention

The invention provides a tyre film cooling device for overcoming the defects of the prior art, which has reasonable structural design, adopts a physical cooling mode, saves time and labor during operation, greatly reduces labor intensity of workers, saves space resources, reduces unnecessary waste, effectively prevents the deformation of the film, reduces the quality of products and solves a plurality of problems in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a tire film cooling device, including the base and set up the support column at the both ends about the base surface, horizontal activity joint back shaft between two support columns, the right-hand member level of back shaft passes the support column on right side and sets up the driving motor output shaft on this side support column and link to each other, the epaxial movable sleeve of turning to is established to the back shaft on right side, the epaxial fixed cover that sets up the limit dish respectively of the both ends about the turning to the sleeve, the limit dish activity butt on right side support column lateral wall on its right side, be equipped with the screw thread section on the back shaft between left side support column and the left limit dish, a cooling mechanism screw thread cover is established on the screw thread section of back shaft, be equipped with the support at the base surface symmetry respectively just turning to the both ends position about the turning to the sleeve, be equipped with output mechanism between the horizontal section at two support tops, the activity joint guide roll between the vertical section of two support, the guide roll is on a parallel with turning to the setting of turning to the sleeve, and the guide roll bottom is in same horizontal plane with turning to the sleeve top.

Optionally, the cooling mechanism comprises a C-shaped air guide cover movably and butt-jointed to the surface of the base, the opening side of the C-shaped air guide cover faces forward, a left sealing plate is arranged at the left end of the C-shaped air guide cover, the supporting shaft movably passes through the left sealing plate and is connected with the left sealing plate through threads, the C-shaped air guide cover comprises an air guide plate at the upper side, an arc-shaped air guide plate in the middle and a sliding plate at the lower side, the air guide plate and the arc-shaped air guide plate are arranged in a hollow manner and are mutually communicated, a plurality of separation plates are respectively arranged in a cavity formed by the air guide plate and the arc-shaped air guide plate in a staggered manner along the length direction, a gap is reserved between one separation plate and the outer end of the inner wall of the air guide plate, a gap is reserved between the separation plate adjacent to the separation plate and the outer end of the inner wall of the arc-shaped air guide plate, each separation plate separates the cavity into a snake-shaped channel, a plurality of exhaust holes are arranged on the inner wall of the C-shaped air guide cover along the snake-shaped channel direction, and an air inlet pipe is arranged on the outer side wall of the C-shaped air guide cover in a communication manner; and a right sealing plate is arranged on a right support column opposite to the position of the C-shaped wind scooper, and the support shaft movably penetrates through the right sealing plate.

Optionally, a pushing seat is arranged on the left side wall of the left sealing plate and is sleeved on the threaded section of the supporting shaft through threads.

Optionally, two sliding rails are respectively arranged on the surface of the base corresponding to the position of the sliding plate in parallel along the length direction of the base, and sliding grooves matched with the two sliding rails are respectively arranged at the bottom of the sliding plate.

Optionally, still including setting up the secondary cooling mechanism on the sliding plate, the secondary cooling mechanism is including the left cardboard of level setting on left closing plate right side wall, left cardboard is on a parallel with the back shaft setting, and is located the back shaft front side, corresponds on the right closing plate that corresponds left cardboard position to be equipped with left cardboard matched with right cardboard, left cardboard passes through the connecting piece with right cardboard and links to each other, is equipped with a plurality of fin on left cardboard and right cardboard surface along its length direction interval respectively, sets up the recess on the sliding plate to left cardboard and right cardboard position, and both ends symmetry are equipped with the cylinder respectively about the recess, and the piston rod of two cylinders links firmly the stripper plate bottom both ends that set up at the level respectively, is equipped with a plurality of fin down at stripper plate bottom along its length direction interval respectively.

Optionally, the connecting piece is including setting up the left card post in left cardboard outer end bottom front and back both sides, corresponds at the right cardboard outer end bottom that corresponds two left card post positions and is equipped with right draw-in groove, is equipped with right card post at right cardboard outer end tip, corresponds the left card post position the left cardboard outer end tip and is equipped with left draw-in groove.

Optionally, a reinforcing rib connected with the left sealing plate is arranged on the surface of the left clamping plate, and a reinforcing rib connected with the right sealing plate is arranged on the surface of the right clamping plate.

Optionally, a limiting clamping strip clamped on the inner wall of the C-shaped wind scooper is arranged on the left side wall of the right sealing plate.

Optionally, the left end and the right end of the steering sleeve corresponding to the positions of each limiting disc are respectively provided with clamping grooves matched with the steering sleeve.

Optionally, the output mechanism includes the horizontal parallel arrangement at the conveying roller between two support horizontal segment, and a belt winds and establishes on two conveying rollers, and a support is worn out to the axle head level activity of one conveying roller, links to each other with the output motor output shaft that sets up in the support outside, and the squeeze roll is established to the activity card between two supports of the conveying roller top of front side.

The invention adopts the technical proposal and has the advantages that: the structure design is reasonable, adopts the mode of physical cooling, and labour saving and time saving is got up in the operation, very big reduction workman's intensity of labour, saves space resource, reduces unnecessary extravagant, effectively prevents film self to take place deformation, and the product quality who brings reduces.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged schematic view of the portion A in FIG. 1;

FIG. 3 is a schematic perspective view of a cooling mechanism;

FIG. 4 is an enlarged view of the portion B of FIG. 3;

FIG. 5 is a schematic perspective view of the air deflector in the C-shaped air deflector with the inner side wall removed;

FIG. 6 is a schematic perspective view of the air deflector in the C-shaped air deflector with the inner side wall removed;

FIG. 7 is a schematic perspective view of the cooling mechanism, belt, steering sleeve, removed;

FIG. 8 is a schematic perspective view of a steering sleeve;

in the figure, 1, a base; 2. a support column; 3. a support shaft; 4. a driving motor; 5. a steering sleeve; 6. a limiting disc; 7. a threaded section; 8. a bracket; 9. a guide roller; 10. a C-shaped wind scooper; 1001. an air deflector; 1002. an arc-shaped air deflector; 1003. a sliding plate; 1004. a cavity; 11. a left sealing plate; 12. a squeeze roll; 13. a partition plate; 14. an exhaust hole; 15. an air inlet pipe; 16. a right sealing plate; 17. a pushing seat; 18. a slide rail; 19. a chute; 20. a left clamping plate; 21. a right clamping plate; 22. a connecting piece; 2201. a left clamping column; 2202. a right clamping groove; 2203. a right clamping column; 2204. a left clamping groove; 23. a top fin; 24. a groove; 25. a cylinder; 26. an extrusion plate; 27. a lower fin; 28. reinforcing ribs; 29. limiting clamping strips; 30. a clamping groove; 31. a conveying roller; 32. a belt; 33. and outputting a motor.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present invention will be described in detail below with reference to the following detailed description and the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced otherwise than as described herein, and thus the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," etc. indicate or refer to an azimuth or a positional relationship based on that shown in the drawings, and are merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or element in question must have a specific azimuth, be configured and operated in a specific azimuth, and therefore should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In this application, unless explicitly stated and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be. In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1-8, a tire film cooling device comprises a base 1 and support columns 2 arranged at the left end and the right end of the surface of the base 1, wherein a support shaft 3 is movably clamped between the two support columns 2 horizontally, the right end of the support shaft 3 horizontally passes through the right support column 2 and is connected with an output shaft of a driving motor 4 arranged on the support column 2, a steering sleeve 5 is movably sleeved on the right support shaft 3, limit discs 6 are fixedly sleeved on the support shafts 3 at the left end and the right end of the steering sleeve 5 respectively, the limit discs 6 at the right side are movably abutted on the side wall of the right support column 2, a thread section 7 is arranged on the support shaft 3 between the left support column 2 and the left limit disc 6, a cooling mechanism thread sleeve is arranged on the thread section 7 of the support shaft 3, brackets 8 are symmetrically arranged on the surface of the base 1 opposite to the left end and the right end of the steering sleeve 5 respectively, an output mechanism is arranged between the horizontal sections of the tops of the two brackets 8, a guide roller 9 is movably clamped between the vertical sections of the two brackets 8, the guide roller 9 is arranged parallel to the steering sleeve 5, and the guide roller 9 is positioned at the bottom of the guide roller 5 and the guide roller 5 is in the same horizontal plane.

Optionally, the cooling mechanism includes a C-shaped air guide cover 10 movably abutted to the surface of the base 1, an opening side of the C-shaped air guide cover 10 faces forward, a left sealing plate 11 is provided at a left end of the C-shaped air guide cover 10, the support shaft 3 movably passes through the left sealing plate 11 and is connected with the left sealing plate 11 by threads, the C-shaped air guide cover 10 includes an air guide plate 1001 at an upper side, an arc-shaped air guide plate 1002 in the middle and a sliding plate 1003 at a lower side, the air guide plate 1001 and the arc-shaped air guide plate 1002 are hollow and are mutually communicated, a plurality of partition plates 13 are respectively staggered in a cavity 1004 formed by the air guide plate 1001 and the arc-shaped air guide plate 1002 along a length direction thereof, a gap is reserved between one partition plate 13 and an outer end of an inner wall of the air guide plate 1001, a gap is reserved between the partition plate 13 adjacent to the partition plate and an outer end of the inner wall of the arc-shaped air guide plate 1002, each partition plate 13 partitions the cavity 1004 into a serpentine channel, a plurality of air outlet holes 14 are arranged on the inner wall of the C-shaped air guide cover 10 along a serpentine channel direction, and an air inlet pipe 15 is communicated on the outer side wall of the C-shaped air guide cover 10; a right sealing plate 16 is arranged on the right support column 2 opposite to the position of the C-shaped wind scooper 10, and the support shaft 3 movably penetrates through the right sealing plate 16.

Optionally, a pushing seat 17 is arranged on the left side wall of the left sealing plate 11, and is sleeved on the threaded section 7 of the supporting shaft 3 in a threaded manner. Further improves the stability of the C-shaped wind scooper 10 when moving on the bottom plate 1, so that the thread section 7 of the supporting shaft 3 can better push the C-shaped wind scooper 10 through the pushing seat 17.

Optionally, two sliding rails 18 are respectively arranged on the surface of the base 1 corresponding to the position of the sliding plate 1003 in parallel along the length direction of the base, and sliding grooves 19 matched with the two sliding rails 18 are respectively arranged at the bottom of the sliding plate 1003. When the C-shaped wind scooper 10 moves on the base 1, an auxiliary guiding function is realized, so that the C-shaped wind scooper 10 always moves along the axial direction of the supporting shaft 3.

Optionally, the secondary cooling mechanism further comprises a secondary cooling mechanism arranged on the sliding plate 1003, the secondary cooling mechanism comprises a left clamping plate 20 horizontally arranged on the right side wall of the left sealing plate 11, the left clamping plate 20 is parallel to the supporting shaft 3 and positioned at the front side of the supporting shaft 3, a right clamping plate 21 matched with the left clamping plate 20 is correspondingly arranged on the right sealing plate 16 corresponding to the position of the left clamping plate 20, the left clamping plate 20 is connected with the right clamping plate 21 through a connecting piece 22, a plurality of upper fins 23 are respectively arranged on the surfaces of the left clamping plate 20 and the right clamping plate 21 along the length direction interval, grooves 24 are respectively formed in the sliding plate 1003 opposite to the positions of the left clamping plate 20 and the right clamping plate 21, air cylinders 25 are respectively symmetrically arranged at the left end and the right end of the grooves 24, piston rods of the two air cylinders 25 are respectively fixedly connected with the two ends of the bottom of a horizontally arranged extruding plate 26, and a plurality of lower fins 27 are respectively arranged at the bottom of the extruding plate 26 along the length direction interval.

Optionally, the connecting piece 22 includes left clamping columns 2201 disposed on front and rear sides of the bottom of the outer end of the left clamping plate 20, a right clamping groove 2202 is correspondingly disposed at the bottom of the outer end of the right clamping plate 21 corresponding to the two positions of the left clamping columns 2201, a right clamping column 2203 is disposed at the end of the outer end of the right clamping plate 21, and a left clamping groove 2204 is correspondingly disposed at the end of the outer end of the left clamping plate 20 corresponding to the position of the right clamping column 2203.

Optionally, a reinforcing rib 28 connected to the left sealing plate 11 is provided on the surface of the left clamping plate 20, and a reinforcing rib 28 connected to the right sealing plate 16 is provided on the surface of the right clamping plate 21. The stability of the left clamping plate 20 on the left sealing plate 11 and the stability of the right clamping plate 21 on the right sealing plate 16 are improved.

Optionally, a limiting clamping strip 29 clamped on the inner wall of the C-shaped wind scooper 10 is arranged on the left side wall of the right sealing plate 16. When the C-shaped air guide cover 10 moves, the position of the C-shaped air guide cover 10 can be further fixed by being clamped on the limiting clamping strip 29 on the right sealing plate 16, so that the stability of the C-shaped air guide cover 10 in the blowing process is improved.

Optionally, clamping grooves 30 matched with the steering sleeve 5 are respectively arranged at the left end and the right end of the steering sleeve 5 corresponding to the positions of the limiting plates 6. The position of the steering sleeve 5 on the support shaft 3 is better fixed, so that the steering sleeve 5 rotates radially more stably.

Optionally, the output mechanism includes a conveying roller 31 horizontally arranged in parallel between the horizontal sections of the two brackets 8, a belt 32 is wound on the two conveying rollers 31, the shaft end of one conveying roller 31 horizontally and movably passes through one bracket 8, the shaft end is connected with an output shaft of an output motor 33 arranged outside the bracket 8, and a squeeze roller 12 is movably clamped between the two brackets 8 above the conveying roller 31 at the front side.

Before the device is used, the exhaust pipe of the blower needs to be connected to the air inlet pipe 15 of the C-shaped air guide cover 10. The film is inserted between the two brackets 8, wound on the steering sleeve 5 from below the right clamping plate 21, wound on the outer side of the guide roller 9, and finally passed between the squeeze roller 12 and the belt 32.

When the device is used, the driving motor 4 is started to work, the output shaft of the driving motor 4 drives the supporting shaft 3 to rotate, so that the C-shaped wind scooper 10 slides rightwards on the base 1 through the pushing seat 17, and the C-shaped wind scooper 10 moves along the sliding rail 18 through the sliding groove 19 arranged at the bottom of the sliding plate 1003. Until the right end of the C-shaped air guide cover 10 abuts against the right sealing plate 16, at this time, the left clamping column 2201 of the left clamping plate 20 is clamped into the right clamping groove 2202 of the right clamping plate 21, and the right clamping column 2203 of the right clamping plate 21 is clamped into the left clamping groove 2204 of the left clamping plate 20, so that the accurate abutting joint of the left clamping plate 20 and the right clamping plate 21 is realized. And the C-shaped wind scooper 10 is covered outside the steering sleeve 5. At the same time, the two air cylinders 25 are started to work, and the piston rods of the air cylinders 25 push the extrusion plate 26 upwards, so that the extrusion plate 26 pushes up the film and clings to the bottoms of the left clamping plate 20 and the right clamping plate 21. The blower blows air from the air inlet pipe 15 into the C-shaped air guide cover 10, fills the cavity 1004 along the partition plates 13 arranged in a serpentine shape, and finally blows out at a high speed through the air outlet holes 14 on the C-shaped air guide cover 10. On the one hand, the film on the steering sleeve 5 is cooled, on the other hand, wind blows on the upper fins 23 and the lower fins 27, and then the squeeze plate 26, the left clamping plate 20 and the right clamping plate 21 are cooled in time, so that the squeeze plate 26, the left clamping plate 20 and the right clamping plate 21 always keep the cooling effect on the film. The belt 32 is driven to rotate by the start of the output motor 33, and then the film is extruded by the extrusion roller 12, so that the film is pulled to move backward on the belt 32 and smoothly moves to the next process. The device has reasonable structural design, adopts a physical cooling mode, saves time and labor during operation, greatly reduces the labor intensity of workers, saves space resources, reduces unnecessary waste, effectively prevents the film from deforming, reduces the quality of the product, and solves a plurality of problems in the prior art.

The above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention and are intended to be within the scope of the appended claims and description; any alternative modifications or variations to the embodiments of the present invention will fall within the scope of the present invention for those skilled in the art.

The present invention is not described in detail in the present application, and is well known to those skilled in the art.

Claims (9)

1. A tyre film cooling device is characterized by comprising a base and support columns arranged at the left end and the right end of the surface of the base, wherein a support shaft is horizontally movably clamped between the two support columns, the right end of the support shaft horizontally passes through the support column on the right side and is connected with an output shaft of a driving motor arranged on the support column on the side, a steering sleeve is movably sleeved on the support shaft on the right side, limit plates are fixedly sleeved on the support shafts at the left end and the right end of the steering sleeve respectively, the limit plates on the right side are movably abutted on the side wall of the support column on the right side, a thread section is arranged on the support shaft between the support column on the left side and the limit plates on the left side, a cooling mechanism is sleeved on the thread section of the support shaft in a thread way, the cooling mechanism comprises a C-shaped wind scooper movably abutted on the surface of the base, the opening side of the C-shaped wind scooper faces forward, the left end of the C-shaped air guide cover is provided with a left sealing plate, the supporting shaft movably penetrates through the left sealing plate and is connected with the left sealing plate through threads, the C-shaped air guide cover comprises an air guide plate at the upper side, an arc-shaped air guide plate in the middle and a sliding plate at the lower side, the air guide plate and the arc-shaped air guide plate are arranged in a hollow mode and are mutually communicated, a plurality of separation plates are respectively arranged in a cavity formed by the air guide plate and the arc-shaped air guide plate in a staggered mode along the length direction, a gap is reserved between one separation plate and the outer end of the inner wall of the air guide plate, a gap is reserved between the separation plate adjacent to the separation plate and the outer end of the inner wall of the arc-shaped air guide plate, each separation plate separates the cavity into a snake-shaped channel, a plurality of exhaust holes are formed in the inner wall of the C-shaped air guide cover along the direction of the snake-shaped channel, and an air inlet pipe is arranged on the outer side wall of the C-shaped air guide cover in a communicated mode; a right sealing plate is arranged on a right support column opposite to the position of the C-shaped wind scooper, and the support shaft movably penetrates through the right sealing plate; the two support brackets are symmetrically arranged on the surfaces of the base right and left ends of the steering sleeve respectively, an output mechanism is arranged between the horizontal sections at the tops of the two support brackets, a guide roller is movably clamped between the vertical sections of the two support brackets, the guide roller is parallel to the steering sleeve, and the bottom of the guide roller and the top of the steering sleeve are in the same horizontal plane.

2. The tire film cooling device of claim 1, wherein the left side wall of the left sealing plate is provided with a pushing seat which is sleeved on the thread section of the supporting shaft through threads.

3. The tire rubber sheet cooling device according to claim 1, wherein two sliding rails are respectively arranged on the surface of the base corresponding to the sliding plate in parallel along the length direction of the base, and sliding grooves matched with the two sliding rails are respectively arranged on the bottom of the sliding plate.

4. The tire film cooling device according to claim 1, further comprising a secondary cooling mechanism arranged on the sliding plate, wherein the secondary cooling mechanism comprises a left clamping plate horizontally arranged on the right side wall of the left sealing plate, the left clamping plate is parallel to the supporting shaft and positioned at the front side of the supporting shaft, a right clamping plate matched with the left clamping plate is correspondingly arranged on the right sealing plate corresponding to the position of the left clamping plate, the left clamping plate is connected with the right clamping plate through a connecting piece, a plurality of upper fins are arranged on the surfaces of the left clamping plate and the right clamping plate along the length direction at intervals respectively, grooves are formed in the sliding plate opposite to the positions of the left clamping plate and the right clamping plate, air cylinders are symmetrically arranged at the left end and the right end of the grooves respectively, piston rods of the two air cylinders are fixedly connected with two ends of the bottom of the extrusion plate horizontally arranged respectively, and a plurality of lower fins are arranged at the bottom of the extrusion plate along the length direction interval respectively.

5. The tire film cooling device of claim 4, wherein the connecting member comprises left clamping columns arranged on front and rear sides of the bottom of the outer end of the left clamping plate, right clamping grooves are correspondingly formed in the bottoms of the outer ends of the right clamping plates corresponding to the two left clamping columns, right clamping columns are arranged at the end parts of the outer ends of the right clamping plates, and left clamping grooves are correspondingly formed in the end parts of the outer ends of the left clamping plates corresponding to the positions of the right clamping columns.

6. The tire rubber sheet cooling device according to claim 5, wherein the left clamping plate surface is provided with a reinforcing rib connected with the left sealing plate, and the right clamping plate surface is provided with a reinforcing rib connected with the right sealing plate.

7. The tire rubber sheet cooling device according to claim 1, wherein a limiting clamping strip clamped on the inner wall of the C-shaped wind scooper is arranged on the left side wall of the right sealing plate.

8. The tire film cooling device of claim 1, wherein the left and right ends of the steering sleeve corresponding to each of the limiting disc positions are respectively provided with a clamping groove matched with the steering sleeve.

9. The apparatus of claim 1, wherein the output mechanism comprises two conveyor rollers horizontally arranged in parallel between the horizontal sections of the two brackets, a belt is wound around the two conveyor rollers, the shaft end of one conveyor roller horizontally moves out of one bracket and is connected with the output shaft of the output motor arranged outside the bracket, and a squeeze roller is movably clamped between the two brackets above the conveyor roller on the front side.