CN117141914A

CN117141914A - Photovoltaic module transfer device

Info

Publication number: CN117141914A
Application number: CN202311416609.2A
Authority: CN
Inventors: 王启战
Original assignee: Jizhi Jiangsu New Energy Technology Co ltd
Current assignee: Jizhi Jiangsu New Energy Technology Co ltd
Priority date: 2023-10-30
Filing date: 2023-10-30
Publication date: 2023-12-01
Anticipated expiration: 2043-10-30
Also published as: CN117141914B

Abstract

The invention belongs to the technical field of photovoltaic module transferring, in particular to a photovoltaic module transferring device, aiming at the problem that a photovoltaic module may shake in the process of transportation, the invention provides a scheme which comprises a main board and a plurality of placing frames which are arranged on the outer wall of the top of the main board and are distributed equidistantly, wherein two outer walls of the top of the main board are respectively provided with a movable groove, movable rods are respectively connected between the inner walls of two sides of the movable grooves in a sliding manner, a connecting rod is fixedly connected between the inner walls of two sides of one end of each movable rod, and an electric push rod is fixedly connected in the middle position of the inner wall of one end of each movable groove. According to the invention, the photovoltaic module slowly rises and falls in the placing frame, so that the protection effect of the photovoltaic module during storage and taking of the photovoltaic module is improved, and as the photovoltaic module is arranged in the placing frame, and when the electric push rod is started, the two moving rods can be driven to transversely move, so that the placing frame and the through groove are staggered, and the protection effect of the photovoltaic module is further improved.

Description

Photovoltaic module transfer device

Technical Field

The invention relates to the technical field of photovoltaic module transfer, in particular to a photovoltaic module transfer device.

Background

The photovoltaic module is also called a solar cell module, is a solar cell combined device which is provided with a package and an internal connection, can independently provide direct current output, is a minimum indivisible solar cell combined device, is a photoelectric semiconductor sheet which directly generates electricity by utilizing sunlight, is also called a solar chip or a photocell, can output voltage instantly and generate current under the condition of a loop as long as the illuminance of a certain illuminance condition is met, and generally needs to be transported to a proper installation place by a split transportation mode for installation when the photovoltaic module is installed.

At present, most of the existing transfer modes of the photovoltaic modules are used for transporting the photovoltaic modules through machinery such as a transport vehicle, the photovoltaic modules are directly placed on the transport vehicle, but when the transport vehicle moves in the process, the photovoltaic modules can shake, and when adjacent photovoltaic modules move interactively and generate friction, the adjacent photovoltaic modules can be worn or even damaged, so that the normal use of the photovoltaic modules is influenced, and therefore, the design of a photovoltaic module transfer device is needed to solve the problems.

Disclosure of Invention

The invention provides a photovoltaic module transferring device, which aims to solve the problem that a photovoltaic module may shake in the transportation process.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a photovoltaic module transfer device, includes the mainboard and sets up in a plurality of frames of placing of equidistance distribution of mainboard top outer wall, two all open of top outer wall of mainboard have the movable groove, and all slide the grafting between the both sides inner wall of movable groove has the movable rod, fixedly connected with connecting rod between the one end both sides inner wall of movable rod, the one end inner wall intermediate position fixedly connected with electric putter of movable groove, and electric putter's piston rod one end fixedly connected with one end outer wall of connecting rod, place the equal fixedly connected with support frame in top outer wall of movable rod of frame, the equal fixedly connected with support frame in bottom outer wall four corners of mainboard, and fixedly connected with roof between the inner wall all around of support frame, open a plurality of through slots that have the equidistance to distribute with place the frame between the top of roof and the bottom outer wall, and the bottom outer wall four corners of mainboard all are provided with the universal wheel, the bottom inner wall of placing the frame all is provided with the elevating system who is used for carrying out the jacking to photovoltaic module.

As the preferable scheme in the invention, the lifting mechanism comprises two fixed blocks, the fixed blocks are respectively and fixedly connected to the inner walls at the bottoms of the two sides of the placing frame, two-way threaded rods are respectively and rotatably connected between the inner walls at the opposite sides of the fixed blocks, one side outer wall of each fixed block is fixedly connected with a driving motor, one end of an output shaft of each driving motor is fixedly connected with one side outer wall of each two-way threaded rod, two side circumference outer walls of each two-way threaded rod are respectively sheathed with a movable block through threads, and lifting plates are respectively hinged to the top outer walls of the movable blocks.

As the preferable scheme in the invention, the top outer wall of the moving block is fixedly connected with two clamping plates, the inner walls of the opposite ends of the clamping plates are respectively and rotatably connected with a supporting rod, the two ends of the middle position of the bottom outer wall of the lifting plate are respectively and fixedly connected with a bottom plate, and the outer walls of the two ends of the top of the supporting rod are respectively and rotatably connected between the inner walls of the two ends of the bottom plate.

As the preferable scheme in the invention, a plurality of buffer cylinders distributed equidistantly are fixedly connected to the top outer wall of the lifting plate, the top outer walls of the buffer cylinders are respectively inserted with inner rods, the inner rods are in close contact with the buffer cylinders, a buffer plate is fixedly connected between the top outer walls of the inner rods, a plurality of damping springs distributed equidistantly are fixedly connected between the bottom outer walls of the buffer plates and the top outer walls of the buffer cylinders, the damping springs are respectively sleeved on the circumferential outer walls of the inner rods, and the buffer plates are arranged at the tops of the lifting plates.

As a preferable scheme in the invention, lifting grooves are formed between the outer walls and the inner walls of the two ends of the buffer cylinder, lifting blocks are fixedly connected with the outer walls of the bottoms of the inner rods, the lifting blocks are inserted between the inner walls of the two sides of the lifting grooves, and the lifting blocks are in tight contact with the buffer cylinder.

As a preferable scheme in the invention, the two ends of the outer walls of the two sides of the top of the placement frame are fixedly connected with baffle plates.

As a preferable scheme in the invention, one end of one side outer wall of the main board is fixedly connected with a control panel, and the control panel is electrically connected with the electric push rod and the driving motor.

As the preferable scheme in the invention, clamping plates are fixedly connected to two sides of the outer wall of one end of the main board, and a pull rod is fixedly connected between the inner walls of the opposite sides of the clamping plates.

As a preferable scheme in the invention, auxiliary reinforcing rods are fixedly connected between the outer walls of the two sides of the bottom plate and the outer wall of the bottom of the lifting plate.

As the preferable scheme in the invention, square grooves are formed between the outer walls of two ends of one side of the baffle, two limiting frames are connected between the inner walls of two sides of the square grooves in a sliding manner, a vertical plate is fixedly connected between the inner walls of one opposite side of one end of each limiting frame, a plurality of cross bars which are distributed equidistantly are fixedly connected with the outer walls of one end of each vertical plate, a plurality of limiting blocks which are distributed equidistantly are fixedly connected with the outer walls of one end of the baffle, limiting discs are fixedly connected with the outer walls of one end of each cross bar, a plurality of clamping springs which are distributed equidistantly are fixedly connected with the outer walls of one end of each vertical plate, the clamping springs are sleeved on the outer walls of the circumference of each cross bar, a rotating rod is connected between the inner walls of one opposite side of the top and the bottom of each limiting frame in a rotating mode, and a rotating belt is sleeved between the outer walls of the circumference of each rotating rod.

In summary, the beneficial effects in this scheme are:

1. when needing to transport photovoltaic module, because the quantity of placing the frame is a plurality of, consequently, the accessible is with placing the corresponding logical groove of frame, put photovoltaic module in placing the frame directly, thereby realized the accomodating of photovoltaic module and deposit the effect, and the universal wheel through setting up in the mainboard bottom, can remove the mainboard, thereby realized the effect of transporting photovoltaic module, under elevating system's effect, can make photovoltaic module slowly go up and down in placing the frame inside, thereby the protection effect of photovoltaic module when photovoltaic module access has been improved, and because photovoltaic module all sets up inside placing the frame, and when electric putter starts, can drive two movable rods lateral shifting, thereby make and place the frame and stagger each other with logical groove, thereby further improved the protection effect of photovoltaic module, stability in the photovoltaic module transportation has been improved, reduce the wearing and tearing of photovoltaic module.

2. Through the baffle that sets up, can be in when placing the frame inside at photovoltaic module, provide supplementary spacing effect to photovoltaic module, strengthened photovoltaic module's stability, when the lifter plate goes up and down, a plurality of supplementary reinforcing rods can provide the effect of auxiliary stay to the buffer plate, have improved the stability when the lifter plate goes up and down.

3. When placing photovoltaic module at the buffer board top, along with the lift of buffer board, photovoltaic module can be contacted with rotatory area to under the effect of rotary rod, photovoltaic module can be in placing the inside normal lift of frame, a plurality of rotatory area can carry out spacing centre gripping to photovoltaic module, and because rotatory area can receive the elasticity centre gripping of clamping spring, consequently can further improve photovoltaic module's centre gripping effect, and because rotatory area can only keep the ascending rotation of vertical direction, consequently be in the photovoltaic module between the baffle can not appear the gliding condition from beginning to end, photovoltaic module's stability has been improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a movable rod structure according to the present invention;

FIG. 3 is a schematic view of an electric putter according to the present invention;

FIG. 4 is a schematic view of a baffle structure according to the present invention;

FIG. 5 is a schematic view of a clamping spring according to the present invention;

FIG. 6 is a schematic view of a bi-directional threaded rod according to the present invention;

fig. 7 is a schematic view of the damping spring structure of the present invention.

In the figure: 1. a main board; 2. placing a frame; 3. a fixed block; 4. a control panel; 5. a clamping plate; 6. a pull rod; 7. a through groove; 8. a top plate; 9. a support frame; 10. a moving groove; 11. a moving rod; 12. an electric push rod; 13. a connecting rod; 14. a baffle; 15. a limiting block; 16. a limiting frame; 17. a cross bar; 18. a clamping spring; 19. rotating the belt; 20. a riser; 21. a limiting disc; 22. a square groove; 23. a rotating rod; 24. a driving motor; 25. a moving block; 26. a clamping plate; 27. an auxiliary reinforcing rod; 28. a bottom plate; 29. a lifting plate; 30. a buffer plate; 31. a support rod; 32. a two-way threaded rod; 33. a buffer tube; 34. a damping spring; 35. an inner rod; 36. a lifting block; 37. lifting groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the present embodiment

Referring to fig. 1-7, a photovoltaic module transferring device comprises a main board 1 and a plurality of placing frames 2 which are arranged on the outer wall of the top of the main board 1 and distributed equidistantly, wherein two top outer walls of the main board 1 are provided with a movable groove 10, two side inner walls of the movable groove 10 are respectively connected with a movable rod 11 in a sliding manner, a connecting rod 13 is fixedly connected between two side inner walls of one end of the movable rod 11, an electric push rod 12 is fixedly connected in the middle position of one end inner wall of the movable groove 10, one end of a piston rod of the electric push rod 12 is fixedly connected with one end outer wall of the connecting rod 13, the placing frames 2 are respectively and fixedly connected between the top outer walls of the movable rod 11, four corners of the outer wall of the bottom of the main board 1 are respectively and fixedly connected with a supporting frame 9, a plurality of through grooves 7 which are distributed equidistantly and correspond to the placing frames 2 are arranged between the top and the outer walls of the top of the supporting frame 8, and universal wheels are arranged at four corners of the outer wall of the bottom of the main board 1, lifting mechanisms for lifting the photovoltaic modules are arranged on the inner walls of the bottom of the placement frame 2, when the photovoltaic modules are required to be transported, the photovoltaic modules can be directly placed into the placement frame 2 through the through grooves 7 corresponding to the placement frame 2, so that the storage effect of the photovoltaic modules is realized, the main board 1 can be moved through the universal wheels arranged at the bottom of the main board 1, the transport effect of the photovoltaic modules is realized, the photovoltaic modules can be slowly lifted inside the placement frame 2 under the action of the lifting mechanisms, the protection effect of the photovoltaic modules during storage and the access of the photovoltaic modules is improved, and the photovoltaic modules are all arranged inside the placement frame 2, and when the electric push rod 12 is started, the two movable rods 11 can be driven to move transversely, so that the placing frames 2 are staggered with the through grooves 7, the protection effect on the photovoltaic module is further improved, the stability of the photovoltaic module in the transportation process is improved, and the abrasion on the photovoltaic module is reduced.

Referring to fig. 6 to 7, the lifting mechanism comprises two fixed blocks 3, and the fixed blocks 3 are respectively fixedly connected to inner walls at the bottoms of two sides of the placement frame 2, a bidirectional threaded rod 32 is rotatably connected between inner walls at the opposite sides of the fixed blocks 3, wherein one side outer wall of each fixed block 3 is fixedly connected with a driving motor 24, one end of an output shaft of each driving motor 24 is fixedly connected to one side outer wall of each bidirectional threaded rod 32, two side circumferential outer walls of each bidirectional threaded rod 32 are sleeved with a movable block 25 through threads, the top outer walls of each movable block 25 are hinged with lifting plates 29, when the driving motor 24 is started and drives the bidirectional threaded rods 32 to rotate, the two movable blocks 25 are mutually close under the action of the threads, and as a supporting rod 31 is rotatably connected between the lifting plates 29 and the movable blocks 25, the supporting rod 31 gradually jacks up the lifting plates 29 along with the approaching of the movable blocks 25, so that the photovoltaic module is convenient to access and use.

Referring to fig. 6-7, the top outer wall of the moving block 25 is fixedly connected with two clamping plates 26, and a supporting rod 31 is rotatably connected between the inner walls of opposite ends of the clamping plates 26, the two ends of the middle position of the bottom outer wall of the lifting plate 29 are fixedly connected with a bottom plate 28, and the outer walls of the two ends of the top of the supporting rod 31 are rotatably connected between the inner walls of the two ends of the bottom plate 28 respectively.

Referring to fig. 7, the top outer walls of the lifting plate 29 are fixedly connected with a plurality of buffer cylinders 33 distributed at equal intervals, the top outer walls of the buffer cylinders 33 are respectively inserted with an inner rod 35, the inner rods 35 are in tight contact with the buffer cylinders 33, the buffer plate 30 is fixedly connected between the top outer walls of the inner rods 35, the bottom outer walls of the buffer plates 30 and the top outer walls of the buffer cylinders 33 are fixedly connected with a plurality of buffer springs 34 distributed at equal intervals, the buffer springs 34 are respectively sleeved on the circumferential outer walls of the inner rods 35, and the buffer plates 30 are arranged at the tops of the lifting plate 29, so that when the photovoltaic module is positioned at the tops of the buffer plates 30, and when a jolting section exists in the moving process of the main board 1, the buffer plates 30 are impacted, the buffer springs 34 can be moved downwards and extruded, so that the damping and buffering effects of the photovoltaic module are achieved by the aid of the elasticity of the buffer springs 34, the inner rods 35 can slide up and down inside the buffer cylinders 33, the generated friction force can be used for counteracting the reverse elasticity generated by the buffer springs 34, and accordingly the elasticity consumption of the buffer springs 34 can be prevented from frequently shaking up and down.

Referring to fig. 7, lifting grooves 37 are formed between the outer walls and the inner walls of the two ends of the buffer tube 33, lifting blocks 36 are fixedly connected to the outer walls of the bottom of the inner rod 35, the lifting blocks 36 are inserted between the inner walls of the two sides of the lifting grooves 37, the lifting blocks 36 are in close contact with the buffer tube 33, and when the inner rod 35 lifts inside the buffer tube 33, the lifting blocks 36 lift between the inner walls of the two sides of the lifting grooves 37 at the same time and contact friction with the buffer tube 33, so that the elastic force counteracting effect on the damping springs 34 is further improved.

Referring to fig. 4, two ends of the outer walls of two sides of the top of the placement frame 2 are fixedly connected with baffles 14, and the baffles 14 can provide auxiliary limiting effect on the photovoltaic module when the photovoltaic module is positioned inside the placement frame 2, so that the stability of the photovoltaic module is enhanced.

Referring to fig. 1, a control panel 4 is fixedly connected to one end of one side of the outer wall of the main board 1, and the control panel 4 is electrically connected to the electric push rod 12 and the driving motor 24.

Referring to fig. 1, two sides of an outer wall of one end of a main board 1 are fixedly connected with a clamping board 5, and a pull rod 6 is fixedly connected between inner walls of opposite sides of the clamping board 5.

Referring to fig. 6, auxiliary reinforcing rods 27 are fixedly connected between the outer walls of both sides of the bottom plate 28 and the outer wall of the bottom of the lifting plate 29, and when the lifting plate 29 is lifted, the plurality of auxiliary reinforcing rods 27 provide auxiliary support for the buffer plate 30, so that the stability of the lifting plate 29 during lifting is improved.

Working principle: when the photovoltaic module is required to be transported, as the number of the placing frames 2 is multiple, the photovoltaic module can be directly placed into the placing frames 2 through the through grooves 7 corresponding to the placing frames 2, so that the storage effect of the photovoltaic module is realized, the main board 1 can be moved by the universal wheels arranged at the bottom of the main board 1, the transport effect of the photovoltaic module is realized, when the driving motor 24 is started and drives the bidirectional threaded rod 32 to rotate, the two moving blocks 25 are mutually close under the action of threads, and the supporting rods 31 are rotationally connected between the lifting plates 29 and the moving blocks 25, the lifting plates 29 are gradually jacked up by the supporting rods 31 along with the approaching of the moving blocks 25, the photovoltaic module can be slowly lifted in the placing frames 2, so that the protection effect of the photovoltaic module during the storage and the taking of the photovoltaic module is improved, and because the photovoltaic module is arranged inside the placing frame 2, and when the electric push rod 12 is started, the two moving rods 11 can be driven to transversely move, so that the placing frame 2 and the through groove 7 are staggered, the protection effect of the photovoltaic module is further improved, the stability of the photovoltaic module in the transportation process is improved, the abrasion of the photovoltaic module is reduced, because the buffer plate 30 is arranged at the top of the lifting plate 29, when the photovoltaic module is positioned at the top of the buffer plate 30, and when a jolting section exists in the moving process of the main board 1, the buffer plate 30 is impacted, the buffer spring 34 can be downwards moved and extruded, the damping and buffering effect of the photovoltaic module is realized by utilizing the elasticity of the damping spring 34, at the moment, the inner rod 35 can slide up and down in the buffer cylinder 33, the generated friction force can be used for counteracting the reverse elasticity generated by the damping spring 34, therefore, the elastic force of the damping spring 34 can be consumed, the photovoltaic module is prevented from swaying up and down frequently, when the inner rod 35 is lifted in the buffer cylinder 33, the lifting block 36 is lifted between the inner walls at two sides of the lifting groove 37 at the same time, and the damping spring 34 is contacted and rubbed with the buffer cylinder 33, so that the elastic force counteracting effect of the damping spring 34 is further improved.

In the present embodiment

Referring to fig. 4-5, unlike embodiment 1, square grooves 22 are formed between the outer walls of two ends of one side of the baffle 14, two limiting frames 16 are slidably inserted between the inner walls of two sides of the square grooves 22, a riser 20 is fixedly connected between the inner walls of one opposite side of one end of the limiting frames 16, a plurality of cross rods 17 distributed equidistantly are fixedly connected to the outer wall of one end of the riser 20, a plurality of limiting blocks 15 corresponding to the cross rods 17 are fixedly connected to the outer wall of one end of the baffle 14, the cross rods 17 are slidably inserted between the outer walls of two ends of the limiting blocks 15, a limiting disc 21 is fixedly connected to the outer wall of one end of the cross rod 17, a plurality of clamping springs 18 distributed equidistantly are fixedly connected to the outer wall of one end of the riser 20, rotating rods 23 are rotatably connected between the inner walls of one opposite side of the top and bottom of the limiting frames 16, and rotating belts 19 are sleeved between the outer walls of the circumference of the rotating rods 23.

The working principle of the invention is as follows: when placing photovoltaic module at buffer board 30 top, along with the lift of buffer board 30, photovoltaic module can contact with rotatory area 19 to under the effect of rotary rod 23, photovoltaic module can be in place frame 2 inside normal lift, a plurality of rotatory area 19 can carry out spacing centre gripping to photovoltaic module, and because rotatory area 19 can receive the elasticity centre gripping of clamping spring 18, consequently can further improve photovoltaic module's centre gripping effect, and because rotatory area 19 can only keep the ascending rotation of vertical direction, consequently be in photovoltaic module's between baffle 14 the circumstances of back-and-forth slip can not appear, photovoltaic module's stability has been improved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a photovoltaic module transfer device, including mainboard (1) and set up in a plurality of frame (2) of placing of equidistance distribution of mainboard (1) top outer wall, a serial communication port, two all open of top outer wall of mainboard (1) have movable tank (10), and all slide grafting has movable rod (11) between the both sides inner wall of movable tank (10), fixedly connected with connecting rod (13) between the one end both sides inner wall of movable rod (11), the one end inner wall intermediate position fixedly connected with electric putter (12) of movable tank (10), and the piston rod one end fixedly connected with of electric putter (12) is in the one end outer wall of connecting rod (13), place between the top outer wall of frame (2) all fixed connection in movable rod (11), the bottom outer wall four corners of mainboard (1) all fixedly connected with support frame (9), and open between the inner wall all around fixedly connected with roof (8) of support frame (9), open between the top of roof (8) and the bottom outer wall have a plurality of equidistance distribution with place frame (2) corresponding logical groove (7), and the bottom outer wall four corners of mainboard (1) all are provided with universal wheel, the bottom outer wall four corners of placing frame (2) is provided with the bottom that is used for lifting mechanism to carry out the lifting mechanism of lifting mechanism.

2. The photovoltaic module transferring device according to claim 1, wherein the lifting mechanism comprises two fixing blocks (3), the fixing blocks (3) are respectively and fixedly connected to inner walls at the bottoms of two sides of the placement frame (2), a bidirectional threaded rod (32) is rotatably connected between inner walls at the opposite sides of the fixing blocks (3), a driving motor (24) is fixedly connected to one outer wall of one side of each of the fixing blocks (3), one end of an output shaft of the driving motor (24) is fixedly connected to one outer wall of the bidirectional threaded rod (32), moving blocks (25) are sleeved on two circumferential outer walls at two sides of the bidirectional threaded rod (32) through threads, and lifting plates (29) are hinged to outer walls at the top of the moving blocks (25).

3. The photovoltaic module transferring device according to claim 2, wherein the top outer walls of the moving blocks (25) are fixedly connected with two clamping plates (26), support rods (31) are rotatably connected between inner walls of opposite ends of the clamping plates (26), bottom plates (28) are fixedly connected to two ends of the middle position of the bottom outer walls of the lifting plates (29), and the top two end outer walls of the support rods (31) are rotatably connected between inner walls of two ends of the bottom plates (28) respectively.

4. A photovoltaic module transfer apparatus according to claim 3, wherein, a plurality of buffer cylinders (33) that equal fixedly connected with equidistance is distributed to the top outer wall of lifter plate (29), and all peg graft in the top outer wall of buffer cylinder (33) have interior pole (35), be in close contact between interior pole (35) and buffer cylinder (33), fixedly connected with buffer plate (30) between the top outer wall of interior pole (35), and fixedly connected with a plurality of damping springs (34) that equidistant distributes between the bottom outer wall of buffer plate (30) and the top outer wall of buffer cylinder (33), damping spring (34) cup joint respectively in the circumference outer wall of interior pole (35).

5. The photovoltaic module transferring device according to claim 4, wherein lifting grooves (37) are formed between the outer walls and the inner walls of the two ends of the buffer cylinder (33), lifting blocks (36) are fixedly connected to the outer walls of the bottoms of the inner rods (35), the lifting blocks (36) are inserted between the inner walls of the two sides of the lifting grooves (37), and the lifting blocks (36) are in tight contact with the buffer cylinder (33).

6. The photovoltaic module transferring device according to claim 5, wherein the two ends of the outer walls of the two sides of the top of the placing frame (2) are fixedly connected with baffles (14).

7. The photovoltaic module transferring device according to claim 6, wherein one end of an outer wall of one side of the main board (1) is fixedly connected with a control panel (4), and the control panel (4) is electrically connected with the electric push rod (12) and the driving motor (24).

8. The photovoltaic module transferring device according to claim 7, wherein the clamping plates (5) are fixedly connected to two sides of the outer wall of one end of the main board (1), and the pull rods (6) are fixedly connected between the inner walls of the opposite sides of the clamping plates (5).

9. A photovoltaic module transfer apparatus according to any one of claims 3-8, wherein auxiliary reinforcing rods (27) are fixedly connected between the outer walls of both sides of the bottom plate (28) and the outer walls of the bottom of the lifting plate (29).

10. The photovoltaic module transferring device according to claim 6, wherein square grooves (22) are formed between outer walls of two ends of one side of the baffle (14), two limiting frames (16) are slidably inserted between inner walls of two sides of the square grooves (22), a vertical plate (20) is fixedly connected between inner walls of one opposite side of one end of each limiting frame (16), a plurality of cross rods (17) are fixedly connected with one end of each vertical plate (20), a plurality of limiting blocks (15) corresponding to the cross rods (17) are fixedly connected with one end of each baffle (14), the cross rods (17) are slidably inserted between outer walls of two ends of the limiting blocks (15), a limiting disc (21) is fixedly connected with one end of each cross rod (17), a plurality of clamping springs (18) are fixedly connected with one end of each vertical plate (20), each clamping spring (18) is sleeved on the circumferential outer wall of the cross rod (17), a rotating rod (23) is rotatably connected between inner walls of one opposite side of the top and bottom of each limiting frame (16), and a rotating rod (19) is sleeved between the circumferential outer walls of each rotating rod (23).