CN114400969A - Solar panel with fixed point cooling structure - Google Patents

Abstract

The invention discloses a solar panel with a fixed-point cooling structure, which comprises a solar panel body and the fixed-point cooling structure, wherein the fixed-point cooling structure comprises a box body, a through cavity is formed in one end in the box body, the lower end face of one side of the box body, which faces to an opening of the through cavity, is close to the solar panel body, the inner wall of one side, which is far away from the solar panel, of the through cavity is communicated with a sliding cavity, and a telescopic mechanism is arranged in the sliding cavity. The water bag is driven to slide to the high-temperature position of the solar panel by the telescopic mechanism, then the water bag is filled by low-temperature water, the water bag can be driven to move to the high-temperature position of the solar panel by the sliding mechanism to carry out cooling work, so that fixed-point cooling is achieved, the cooling loss is reduced, meanwhile, water energy in the water bag after cooling is recovered, the effects of recycling and reducing the cost are achieved, in addition, the cooling speed can be accelerated and the cooling efficiency is improved by a mode that the water pump circularly flows the low-temperature water in the water bag.

Description

Solar panel with fixed point cooling structure

Technical Field

The invention relates to the technical field of solar panels, in particular to a solar panel with a fixed-point cooling structure.

Background

Solar energy is widely applied, but the limitation of solar energy is not only at the time of cloudy days or at night, and sultry high-temperature weather is also a barrier, and the solar panel can generate current and voltage by absorbing sunlight, but if the temperature continues to rise, the recombination speed of electron hole pairs on the solar panel can be accelerated, so that the generated energy is reduced. The existing solar panel cooling technology mostly utilizes the factors of the surrounding environment to achieve the cooling effect according to the environment where the solar panel is located, however, the cooling method is too large in use limitation and has no universality, the cooling mode which is mostly adopted is like fan cooling, and like a large solar device which is spliced by a plurality of solar panels, the whole surface temperature has difference due to different illumination angles, the efficiency is lower due to the fact that the fan is used for cooling, and the cost is higher.

Disclosure of Invention

The solar panel with the fixed-point cooling structure provided by the invention has wide usability, does not need to consider geographical environment factors, can perform fixed-point cooling on the surface of the whole solar device, improves the cooling efficiency, and solves the defects that some cooling means are good, but are greatly limited by geographical, environmental and other factors, cannot be widely applied, can only perform whole cooling, and cannot perform fixed-point cooling on the surface of solar energy.

The invention provides the following technical scheme: a solar panel with a fixed-point cooling structure comprises a solar panel body and the fixed-point cooling structure, wherein the fixed-point cooling structure comprises a box body, a through cavity is formed in one end in the box body, the box body and one side end face, with the same opening direction of the through cavity, of the box body are arranged close to the solar panel body, the through cavity is communicated with a sliding cavity from the inner wall of one side of the solar panel body, a telescopic mechanism is arranged in the sliding cavity, a connecting block is arranged in the through cavity in a sliding mode, a water bag is fixedly connected to one end face, facing the solar panel, of the connecting block, the telescopic mechanism can fill water in the water bag, a locking mechanism is arranged at one end, far away from the water bag, in the connecting block, a sealing mechanism is arranged at one end, facing the water bag, of the sealing mechanism can seal the water bag, a cavity is communicated with one side of the inner wall of the through cavity in the box body, and a connecting piece is arranged in the cavity in a sliding mode, be equipped with fixture in the connecting piece, fixture can be right the connecting block carries out centre gripping and fixed, the box is close to a solar panel body terminal surface and is located the fixed mounting that is equipped with of cavity downside, be equipped with slide mechanism in the mounting, slide mechanism can drive the water pocket removes in solar panel body upper end.

Further, telescopic machanism is including being located the flexible motor of sliding chamber one side, flexible motor is close to box one end power is connected with the motor shaft, the motor shaft is located sliding chamber inside and outside round surface threaded connection has flexible piece, flexible piece is close to solar panel body one end and extends to lead to the intracavity with the connecting block is connected, fixedly connected with water inlet hose in the flexible piece, water inlet hose one end is located lead to the intracavity, the other end is connected with external water pump, the lock chamber has all been seted up to both sides in the flexible piece.

Furthermore, locking mechanical system is including offering in the coupling block keep away from the connection chamber of water pocket one end, in the coupling block and be located the coupling chamber both sides all seted up can in the lock chamber cavity that is linked together, the slip is equipped with the locking piece in the lock chamber cavity.

Furthermore, the locking piece is located the fixed first magnet that is equipped with of locking piece intracavity one end, the second electro-magnet of locking piece intracavity, the locking piece with the fixed locking piece spring that is equipped with between the locking piece intracavity wall, one side the locking piece is kept away from flexible piece one end face fixedly connected with stay cord.

Further, the closing mechanism include with connect the water cavity that leads to that intracavity one side inner wall is linked together, lead to water cavity one end can with the outer disc sealing connection of water hose, lead to the water cavity other end with the water pocket is connected, it has closed chamber to lead to water intracavity inner wall intercommunication, it is equipped with the closing plate to slide in the closed chamber, the closing plate with fixed compression spring that is equipped with between the closed chamber, the closing plate is kept away from lead to water a chamber terminal surface with the stay cord is kept away from locking piece one end fixed connection.

Further, a water suction pump is fixedly arranged at one end in the connecting block, and the water sac is close to the connecting pipe which is fixedly arranged on two sides of one end face of the connecting block.

Furthermore, one side the connecting pipe with a terminal surface fixed connection of suction pump, the opposite side the connecting pipe with another terminal surface fixed connection of suction pump.

Further, fixture is including being located the centre gripping chamber in the connecting piece, centre gripping intracavity bilateral symmetry just slides and is equipped with the grip block, centre gripping chamber both sides inner wall all is fixed and is equipped with the third electro-magnet, the grip block is kept away from centre gripping chamber center terminal surface fixed be equipped with can with third electro-magnet ferromagnetism connected's fourth magnet, the grip block is kept away from centre gripping chamber center terminal surface with fixed return spring that is equipped with between the third electro-magnet.

Furthermore, a fixing shaft is arranged in the clamping cavity in a sliding mode, one end of the fixing shaft extends into the through cavity and is fixedly connected with one end face of the connecting block, and the other end of the fixing shaft can slide in the cavity.

Further, slide mechanism includes the slider chamber, just be located in the mounting the fixed sliding motor that is equipped with in slider chamber one side, sliding motor is close to slider chamber one end power is connected with the pivot, the pivot is kept away from sliding motor one end extends to slider intracavity threaded connection has the slider, the slider up end with terminal surface fixed connection under the connecting piece.

The invention has the following beneficial effects:

1. the water bag is driven to slide to the high-temperature part of the solar panel by the telescopic mechanism, then the water bag is filled by low-temperature water, and then the water bag can be driven to move to the high-temperature part of the solar panel by the sliding mechanism to carry out cooling work by unlocking the water bag, so that fixed-point cooling is achieved, the cooling loss is reduced, and meanwhile, water energy in the water bag after cooling is recovered, so that the effects of recycling and reducing the cost are achieved.

2. The invention cools the high-temperature part through the water bag, and simultaneously circularly flows the low-temperature water in the water bag through the water suction pump, thereby accelerating the cooling speed and improving the cooling efficiency.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is a schematic view of the structure at B-B in FIG. 1;

FIG. 4 is an enlarged view of FIG. 1 at C;

FIG. 5 is an enlarged view of FIG. 3 at D;

FIG. 6 is an expanded view of the present invention;

FIG. 7 is a schematic diagram of the method of the present invention.

In the figure: 11. a box body; 12. a telescopic motor; 13. a motor shaft; 14. a slide chamber; 15. a water inlet hose; 16. a cavity; 17. a fixing member; 18. a cavity is communicated; 19. a water pump; 20. a connecting pipe; 21. a slider cavity; 22. a lock spring; 23. a first magnet; 24. a telescopic block; 25. a lock cavity; 26. a locking block; 27. a lock block cavity; 28. a water bladder; 29. connecting blocks; 30. a connecting cavity; 31. pulling a rope; 32. a closed cavity; 33. a closing plate; 34. a slide motor; 35. a compression spring; 36. a water through cavity; 37. a first electromagnet; 38. a slider; 39. a rotating shaft; 40. a return spring; 41. a second magnet; 42. a clamping block; 43. a connecting member; 44. a clamping cavity; 45. a second electromagnet; 46. and fixing the shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a solar panel with a fixed point cooling structure of this embodiment includes a solar panel body and a fixed point cooling structure, the fixed point cooling structure includes a box body 11, a through cavity 18 is formed at one end in the box body 11, a side end face of the box body 11, which is the same as an opening direction of the through cavity 18, is disposed near the solar panel body, the through cavity 18 is communicated with a slide cavity 14 at a side inner wall thereof, which is far from the solar panel body, a telescopic mechanism is disposed in the slide cavity 14, a connecting block 29 is slidably disposed in the through cavity 18, the connecting block 29 is fixedly connected with a cooler, such as a water bag 28, toward the side end face of the solar panel body, the telescopic mechanism can fill water into the water bag 28, the telescopic mechanism includes a telescopic motor 12 disposed at one side of the slide cavity 14, a motor shaft 13 is dynamically connected to one end face of the telescopic motor 12, which is near the box body 11, the motor shaft 13 is disposed inside and outside the slide cavity 14, a telescopic block 24 is threadedly connected to a circular face, one end of the telescopic block 24, which is adjacent to the solar panel body extends into the through cavity 18 and is connected to the connecting block 29, fixedly connected with water hose 15 in the flexible piece 24, 15 one end of water hose are located logical chamber 18, and the 15 other end of water hose is connected with external water pump, and lock chamber 25 has all been seted up to both sides in the flexible piece 24.

Keep away from water pocket 28 one end in connecting block 29 and be equipped with locking mechanical system, locking mechanical system can drive connecting block 29 and telescopic machanism and carry out unblock and locking before, locking mechanical system is including seting up in connecting block 29 and keeping away from the connection chamber 30 of water pocket 28 one end, flexible piece 24 and connection chamber 30 inner wall sliding connection, just be located in connecting block 29 and connect chamber 30 both sides and all set up the locking piece chamber 27 that can be linked together in locking piece 25, it is equipped with locking piece 26 to slide in locking piece chamber 27, locking piece 26 is located the fixed first magnet 23 that is equipped with of one end in locking piece chamber 27, it is fixed with first electro-magnet 37 of being connected with first magnet 23 magnetism to keep away from flexible piece 24 one side inner wall in locking piece chamber 27, locking piece 26 keeps away from between flexible piece 24 a terminal surface and the locking piece chamber 27 inner wall and is fixed and is equipped with locking piece spring 22, locking piece spring 22 is in natural state, one side locking piece 26 keeps away from flexible piece 24 terminal surface fixedly connected with stay cord 31. A sealing mechanism is arranged at one end, facing the water bag 28, of the connecting block 29 and can seal the interior of the water bag 28, the sealing mechanism comprises a water passing cavity 36 communicated with the inner wall of one side of the connecting cavity 30, one end of the water passing cavity 36 can be in sealing connection with the outer circular surface of the water inlet hose 15, the other end of the water passing cavity 36 is connected with the water bag 28, the inner wall of the water passing cavity 36 is communicated with a sealing cavity 32, a sealing plate 33 is arranged in the sealing cavity 32 in a sliding mode, the sealing plate 33 can seal the water passing cavity 36, a compression spring 35 is fixedly arranged between the end face, far away from the water passing cavity 36, of the sealing plate 33 and the inner wall of the sealing cavity 32, the compression spring 35 is in a compression state, the end face, far away from the water passing cavity 36, of the sealing plate 33 is fixedly connected with one end, far away from the locking block 26, of the pulling rope 31, and the sealing plate 33 can be driven to slide through the pulling rope 31 when the locking block 26 slides. The cavity 16 is communicated with one side of the inner wall of the through cavity 18 in the box body 11, the connecting piece 43 is arranged in the cavity 16 in a sliding mode, a clamping mechanism is arranged in the connecting piece 43 and can clamp and fix the connecting piece 29, the clamping mechanism comprises a clamping cavity 44 located in the connecting piece 43, clamping blocks 42 are symmetrically arranged in the clamping cavity 44 in a sliding mode, the inner walls of two sides of the clamping cavity 44 are fixedly provided with second electromagnets 45, one end face, far away from the center of the clamping cavity 44, of each clamping block 42 is fixedly provided with a second magnet 41 capable of being magnetically connected with the second electromagnets 45, and a return spring 40 is fixedly arranged between one end face, far away from the center of the clamping cavity 44, of each clamping block 42 and the second electromagnets 45. A fixing shaft 46 is slidably arranged in the clamping cavity 44, one end of the fixing shaft 46 extends into the through cavity 18 and is fixedly connected with one end face of the connecting block 29, the other end of the fixing shaft 46 can slide in the cavity 16, and the fixing shaft 46 can be clamped and fixed by the clamping blocks 42 on the two sides.

Box 11 is close to a solar panel body terminal surface and is located the fixed mounting 17 that is equipped with of 16 downside of cavity, be equipped with slide mechanism in mounting 17, slide mechanism can drive water pocket 28 and remove in solar panel body upper end, slide mechanism includes slider chamber 21, just be located the fixed sliding motor 34 that is equipped with in slider chamber 21 one side in the mounting 17, sliding motor 34 is close to 21 terminal surface power in slider chamber and is connected with pivot 39, pivot 39 is kept away from sliding motor 34 one end and is extended to 21 female connection in slider chamber and have slider 38, terminal surface fixed connection under slider 38 up end and the connecting piece 43, slider 38 sliding energy drives connecting piece 43 synchronous motion. One end is fixed in connecting block 29 and is equipped with suction pump 19, and water pocket 28 is close to connecting block 29 terminal surface both sides and all is fixed and is equipped with connecting pipe 20, and one side connecting pipe 20 and 19 terminal surface fixed connection of suction pump, opposite side connecting pipe 20 and 19 another terminal surface fixed connection of suction pump, and after being full of water in the water pocket 28, water in the water pocket 28 can be driven to the suction pump 19 and the circulation flows.

When the local part or a certain module of the solar panel body is overheated, the instrument detects and positions the position with overheated temperature, the telescopic motor 12 is started to rotate forwards, the telescopic motor 12 drives the motor shaft 13 to rotate, the motor shaft 13 drives the telescopic block 24 to slide in the sliding cavity 14 through threaded connection to a position corresponding to the heating position of the solar panel body and then stops moving, at the moment, the telescopic block 24 moves to drive the connecting block 29 to slide in the through cavity 18, after the telescopic block 24 drives the connecting block 29 to stop moving, the telescopic motor 12 stops, at the moment, the external water pump enters low-temperature clean water into the water passing cavity 36 through the water inlet hose 15 so as to enter the water bag 28 to fill the water bag 28, meanwhile, the first electromagnet 37 is started to drive the first magnet 23 to slide through magnetic connection, the first magnet 23 drives the locking block 26 to slide in the direction far away from the connecting cavity 30 through fixed connection to enter the corresponding locking block cavity 27, at the moment, the locking block 26 is separated from the abutting state with the inner wall of the locking cavity 25, so that the unlocking between the connecting block 29 and the telescopic block 24 is driven, meanwhile, after the locking block 26 at one side slides into the corresponding locking block cavity 27, the locking block cavity 27 is loosened, the sealing plate 33 is driven to slide into the water through cavity 36 by the self-restoring force of the compression spring 35, the water through cavity 36 is further sealed, and the external water pump stops supplying water;

when the connecting block 29 moves, the fixed shaft 46 is driven to slide through the fixed connection, the fixed shaft 46 can slide in the clamping cavity 44, when the connecting block 29 stops moving, the fixed shaft 46 stops moving, the second electromagnet 45 is started, the second magnet 41 is driven to slide in the clamping cavity 44 through the magnetic connection, the second magnet 41 drives the clamping block 42 to slide towards the fixed shaft 46 through the fixed connection, the clamping blocks 42 on the two sides slide until the outer circumferential surface of the fixed shaft 46 is abutted and clamped, at the moment, the sliding motor 34 rotates forwards to drive the rotating shaft 39 to rotate, the rotating shaft 39 drives the sliding block 38 to slide in the sliding block cavity 21 through the threaded connection, the sliding block 38 drives the connecting piece 43 to move through the fixed connection, the connecting piece 43 drives the fixed shaft 46 to move through the clamping blocks 42, the fixed shaft 46 drives the connecting block 29 and the water bag 28 filled with water to move towards the heating position of the solar panel body through the fixed connection, when the water bag 28 moves to the heating position, the water bag 28 contacts with the heating part, the sliding motor 34 stops working, at this time, the low-temperature clean water in the water bag 28 can carry out heat exchange work on the heating part, meanwhile, the connecting pipe 20 is started, the clean water in the water bag 28 circularly flows in the water bag 28 through the connecting pipes 20 at two sides, and then the heating part of the solar panel body is rapidly cooled through the circularly flowing clean water;

when the next heating part needs to be cooled, the sliding motor 34 rotates reversely and drives the water bag 28 and the connecting block 29 to slide towards the direction of the box body 11 through the sliding block 38 until the water bag and the connecting block are reset, after one end face of the telescopic block 24 is contacted with the inner wall of the connecting cavity 30 again, the first electromagnet 37 stops working, the locking block spring 22 drives the locking block 26 to slide into the corresponding locking cavity 25 through the elasticity of the locking block spring 22, the telescopic block 24 is locked and connected with the connecting block 29, at the moment, the locking block 26 drives the sealing plate 33 to slide into the sealing cavity 32 through the pull rope 31, the water through cavity 36 is opened, the clean water in the water bag 28 is pumped out through the water inlet hose 15 by the external water pump, and the next heating part is cooled after being replaced by new low-temperature clean water.

Meanwhile, another embodiment also provides a solar panel cooling control method to realize intelligent cooling, which is shown in fig. 7, and detects the temperature of a plurality of areas of the solar panel in real time through a plurality of temperature sensors, wherein the solar panel is divided into a plurality of areas, and each area is provided with one temperature sensor; if the detected temperature of only one area is higher than a first preset temperature value, pushing the water bag to the area, wherein the pushing steps are as above; if the detected temperatures of the plurality of areas are higher than the first preset temperature value, the water bags are sequentially pushed to the plurality of areas according to a preset rule, specifically, when the detected temperatures of the plurality of areas are higher than the first preset temperature value, the heat dissipation sequence of the plurality of areas is dynamically adjusted according to the distance between the plurality of areas and the water bags and the current temperature values of the plurality of areas, for example, when the current temperature values of the plurality of areas are not higher than the second preset temperature value, heat dissipation is performed according to the heat dissipation sequence from near to far, when the current temperature values of the plurality of areas are higher than the second preset temperature value, heat dissipation is performed according to the heat dissipation sequence from high to low, and the specific pushing step is as described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. The solar panel with the fixed-point cooling structure is characterized by comprising a solar panel body and the fixed-point cooling structure, wherein the fixed-point cooling structure comprises a box body (11), one end in the box body (11) is provided with a through cavity (18), the box body (11) and the same side end face of the opening direction of the through cavity (18) are arranged close to the solar panel body, the inner wall of one side of the through cavity (18) away from the solar panel body is communicated with a sliding cavity (14), a telescopic mechanism is arranged in the sliding cavity (14), a connecting block (29) is arranged in the through cavity (18) in a sliding manner, the connecting block (29) is fixedly connected with a water bag (28) towards the end face of the solar panel, the telescopic mechanism can fill water into the water bag (28), one end of the connecting block (29) away from the water bag (28) is provided with a locking mechanism, one end of the connecting block (29) towards one end of the water bag (28) is provided with a sealing mechanism, sealing mechanism can be right seal in water pocket (28), in box (11) and with logical chamber (18) inner wall one side intercommunication has cavity (16), it is equipped with connecting piece (43) to slide in cavity (16), be equipped with fixture in connecting piece (43), fixture can be right connecting block (29) carry out the centre gripping and are fixed, box (11) are close to solar panel body terminal surface and are located fixed mounting (17) that are equipped with of cavity (16) downside, be equipped with slide mechanism in mounting (17), slide mechanism can drive water pocket (28) removes in solar panel body upper end.

2. The solar panel with the fixed-point cooling structure of claim 1, wherein the telescopic mechanism comprises a telescopic motor (12) located on one side of the sliding cavity (14), the telescopic motor (12) is close to one end face of the box body (11) and is in power connection with a motor shaft (13), the motor shaft (13) is located inside and outside the sliding cavity (14) and is in threaded connection with a telescopic block (24), one end of the telescopic block (24) close to the solar panel extends into the through cavity (18) and is connected with the connecting block (29), a water inlet hose (15) is fixedly connected inside the telescopic block (24), one end of the water inlet hose (15) is located inside the through cavity (18), the other end of the water inlet hose is connected with an external water pump, and locking cavities (25) are formed in the two sides of the telescopic block (24).

3. The solar panel with the fixed-point cooling structure according to claim 2, wherein the locking mechanism includes a connecting cavity (30) provided in the connecting block (29) and far away from one end of the water bag (28), lock cavities (27) capable of communicating with the lock cavities (25) are provided in the connecting block (29) and located on both sides of the connecting cavity (30), and lock blocks (26) are slidably provided in the lock cavities (27).

4. The solar panel with the fixed-point cooling structure according to claim 3, wherein a first magnet (23) is fixedly arranged at one end of the lock block (26) located in the lock block cavity (27), a first electromagnet (37) is arranged in the lock block cavity (27), a lock block spring (22) is fixedly arranged between the lock block (26) and the inner wall of the lock block cavity (27), and a pull rope (31) is fixedly connected to one end face, away from the telescopic block (24), of the lock block (26).

5. The solar panel with the fixed-point cooling structure as claimed in claim 4, wherein the sealing mechanism includes a water passing cavity (36) communicated with an inner wall of one side in the connecting cavity (30), one end of the water passing cavity (36) is capable of being hermetically connected with an outer circular surface of the water inlet hose (15), the other end of the water passing cavity (36) is connected with the water bag (28), the inner wall of the water passing cavity (36) is communicated with a closed cavity (32), a closed plate (33) is slidably arranged in the closed cavity (32), a compression spring (35) is fixedly arranged between the closed plate (33) and the closed cavity (32), and the closed plate (33) is far away from one end surface of the water passing cavity (36) and the pull rope (31) is far away from one end of the locking block (26) for fixed connection.

6. The solar panel with the fixed-point cooling structure as claimed in claim 1, wherein a water pump (19) is fixedly arranged at one end of the connecting block (29), and the two sides of one end face of the water bag (28) close to the connecting block (29) are fixedly provided with connecting pipes (20).

7. The solar panel with a fixed-point cooling structure according to claim 6, wherein the connecting pipe (20) is fixedly connected to one end face of the water pump (19), and the connecting pipe (20) is fixedly connected to the other end face of the water pump (19).

8. The solar panel with the fixed-point cooling structure according to claim 1, wherein the clamping mechanism includes a clamping cavity (44) located in the connecting member (43), clamping blocks (42) are symmetrically and slidably disposed in the clamping cavity (44), second electromagnets (45) are fixedly disposed on inner walls of two sides of the clamping cavity (44), a second magnet (41) capable of being magnetically connected with the second electromagnet (45) is fixedly disposed on an end face of the clamping block (42) away from the center of the clamping cavity (44), and a return spring (40) is fixedly disposed between an end face of the clamping block (42) away from the center of the clamping cavity (44) and the second electromagnet (45).

9. The solar panel with a fixed-point cooling structure according to claim 8, wherein a fixed shaft (46) is slidably disposed in the holding cavity (44), one end of the fixed shaft (46) extends into the through cavity (18) and is fixedly connected to one end surface of the connecting block (29), and the other end of the fixed shaft (46) is slidably disposed in the cavity (16).

10. The solar panel with the fixed-point cooling structure according to claim 1, wherein the sliding mechanism includes a slider cavity (21), a sliding motor (34) is fixedly disposed in the fixing member (17) and on one side of the slider cavity (21), a rotating shaft (39) is dynamically connected to one end surface of the sliding motor (34) close to the slider cavity (21), one end of the rotating shaft (39) far away from the sliding motor (34) extends to the slider cavity (21) and is connected with a slider (38) through an internal thread, and an upper end surface of the slider (38) is fixedly connected with a lower end surface of the connecting member (43).

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