CN112846761B

CN112846761B - Photovoltaic backplate terminal box equipment

Info

Publication number: CN112846761B
Application number: CN202110229556.8A
Authority: CN
Inventors: 李剑峰
Original assignee: Chuzhou Hongzhan Intelligent Technology Co ltd
Current assignee: Chuzhou Hongzhan Intelligent Technology Co ltd
Priority date: 2021-03-02
Filing date: 2021-03-02
Publication date: 2023-01-17
Anticipated expiration: 2041-03-02
Also published as: CN112846761A

Abstract

The invention provides a photovoltaic backboard junction box assembling device which comprises a rack, wherein a junction box feeding mechanism is arranged at the lower part of the rack, a photovoltaic panel conveying line is arranged at the upper part of the junction box feeding mechanism, a grabbing assembling mechanism and a gluing mechanism are arranged at the upper part of the photovoltaic panel conveying line, and correction devices are arranged around the photovoltaic conveying line; the junction box cover body is accurately grabbed by the grabbing and assembling mechanism through the special design, the junction box cover body is inserted into the bus bar on the photovoltaic panel, the bus bar is not bent in the inserting and assembling process, the inserting and assembling are accurate, the bus bar can be bent after the junction box is assembled, and the preset requirement is met.

Description

Photovoltaic backplate terminal box equipment

Technical Field

The invention relates to the field of photovoltaic assembly equipment, in particular to photovoltaic backboard junction box assembly equipment.

Background

The photovoltaic junction box is a connecting device between a solar cell array formed by solar cell modules and a solar charging control device, and mainly used for connecting and protecting the solar cell modules, connecting electric power generated by the solar cells with an external circuit and conducting current generated by the photovoltaic modules.

Disclosure of Invention

In order to solve the technical problem, the invention provides photovoltaic backboard junction box assembling equipment which comprises a rack, wherein a junction box feeding mechanism is arranged at the lower part of the rack, a photovoltaic board conveying line is arranged at the upper part of the junction box feeding mechanism, a grabbing assembling mechanism and a gluing mechanism are arranged at the upper part of the photovoltaic board conveying line, and a correcting device is arranged at the periphery of the photovoltaic board conveying line;

the rack is also provided with a junction box aligning mechanism which is used for correcting the position of the junction box;

the grabbing and assembling mechanism is used for grabbing the junction box onto the photovoltaic back plate and inserting the bus bar on the photovoltaic back plate into the junction box.

Preferably, the grabbing and assembling mechanism comprises a first conveying module, two groups of first lifting mechanisms and a second lifting mechanism located between the first lifting mechanisms are arranged on the first conveying module, a down-pressing cylinder is arranged on the first lifting mechanism, the output end of the down-pressing cylinder is connected with a first clamping jaw cylinder, the first clamping jaw cylinder is used for grabbing a lower cover of the junction box, the output end of the down-pressing cylinder is further connected with a Z-shaped plate, a second clamping jaw cylinder is arranged at the tail end of the Z-shaped plate, and the second clamping jaw cylinder is used for grabbing wires of the junction box; and a third clamping jaw air cylinder is arranged at the lower part of the Z-shaped plate, and the output end of the third clamping jaw air cylinder extends between the clamping jaws of the first clamping jaw air cylinder.

Preferably, a bus bar clamping cylinder is further arranged on the first lifting mechanism, clamping pieces are symmetrically arranged at the output end of the bus bar clamping cylinder, a Y-shaped groove is formed in the end portion of each clamping piece, and each clamping piece extends to the lower portion of the first clamping jaw cylinder.

Preferably, the output end of the third clamping jaw air cylinder is connected with two groups of inclined arms, and the tail ends of the inclined arms are provided with vertical parts.

Preferably, terminal box feed mechanism includes two sets of vertical transfer chain and the mechanism of snatching that is located upper portion, vertical transfer chain tip is equipped with the transverse transfer chain, be equipped with the carrier on the transverse transfer chain, the transverse transfer chain both ends are equipped with the transmission pole, the transmission pole stretch in between the transverse transfer chain, the transmission pole tip is equipped with power unit, power unit with vertical transfer chain connects.

Preferably, power unit includes the pivot, the pivot tip is equipped with driving motor, the pivot other end is equipped with first synchronizing wheel, be connected with the synchronizing chain on the first synchronizing wheel, the inside interior rack that is equipped with of synchronizing chain, the transmission lever tip is equipped with drive gear, drive gear with the meshing of interior rack.

Preferably, the carrier includes the support plate, be equipped with two sets of vertical first card strips and two sets of second card strips that set up on the support plate, the relative one side of first card strip is equipped with first bayonet socket, and the opposite side is equipped with the second bayonet socket, on the second card strip with be equipped with the third bayonet socket on the position of second bayonet socket one side.

Preferably, terminal box counterpoint mechanism includes the bottom plate, be equipped with the profile modeling piece on the bottom plate, the profile modeling piece both sides are equipped with the adjustment subassembly, the adjustment subassembly is including the push cylinder who is located the tip, the wedge that is located the other end and the biax cylinder that is located the bottom, biax cylinder output is connected with the fixture block, be equipped with the pinch roller on the fixture block, biax cylinder upper portion is equipped with places the board, the pinch roller is located places the board side, and is higher than place the board.

Preferably, the correcting device comprises a pulling rotating shaft positioned at the end part of the photovoltaic panel conveying line, first pulling belts are arranged at two ends of the pulling rotating shaft, a servo motor is arranged in the middle of the pulling rotating shaft, clamping pieces are respectively arranged on the first pulling belts, a correcting cylinder is arranged on each clamping piece, and the output end of each correcting cylinder is upward and is connected with a first correcting wheel; perpendicular to be equipped with the second pulling belt on the photovoltaic board transfer chain direction of delivery, second pulling belt tip is equipped with the second synchronizing wheel, be connected with on the second pulling belt and pull the frame, it corrects the wheel to pull to be equipped with the second on the frame.

Preferably, the gluing mechanism comprises a second conveying module, and the second conveying module is provided with a plurality of glue dispensing heads.

The photovoltaic backboard junction box assembly provided by the invention has the following beneficial effects: 1. the equipment can automatically feed photovoltaic panels and junction boxes, can prevent carriers of the junction boxes from being fixed well, and can grasp the junction boxes in order; 2. snatch equipment mechanism accuracy through special design and snatch the terminal box lid to insert with the busbar on the photovoltaic board and close, and guarantee that the busbar is not crooked inserting the in-process that closes, insert and close the accuracy, and can bend the busbar after the equipment, reach and predetermine the requirement.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

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

FIG. 2 is a schematic view of a grasping and assembling mechanism according to the present invention;

FIG. 3 is a schematic view of the connection to the first lift mechanism of the present invention;

FIG. 4 is a schematic view of the connection to the first lift mechanism of the present invention;

FIG. 5 is a schematic view of a bus bar-holding cylinder of the present invention;

FIG. 6 is a schematic view of a third jaw cylinder of the present invention;

FIG. 7 is a schematic view of a junction box loading mechanism of the present invention;

FIG. 8 is a partial schematic view of a terminal block loading mechanism of the present invention;

FIG. 9 is a schematic view of a carrier of the present invention;

FIG. 10 is a schematic view of an orthotic device according to the present invention;

FIG. 11 is a schematic view of the attachment of a second pull strap of the present invention;

FIG. 12 is a schematic view of a terminal box alignment mechanism of the present invention;

FIG. 13 is a schematic view of an adjustment assembly of the present invention;

FIG. 14 is a schematic view of a glue application mechanism of the present invention;

FIG. 15 is a schematic view of a photovoltaic panel of the present invention;

wherein, 1, a frame; 2. a junction box feeding mechanism; 3. a photovoltaic panel conveying line; 4. a grabbing and assembling mechanism; 5. a gluing mechanism; 6. a corrective device; 7. a junction box alignment mechanism; 8. a first conveying module; 9. a first lifting mechanism; 10. a second lifting mechanism; 11. pressing down the air cylinder; 12. a first jaw cylinder; 13. a Z-shaped plate; 14. a second jaw cylinder; 15. a three-jaw cylinder; 16. a bus bar-holding cylinder; 17. a clamping sheet; 18. a Y-shaped slot; 19. a tilt arm; 20. a vertical portion; 21. a longitudinal conveyor line; 22. a transverse conveying line; 23. a carrier; 24. a transmission rod; 25. a rotating shaft; 26. a drive motor; 27. a first synchronization wheel; 28. a synchronization chain; 29. a carrier plate; 30. a first clip strip; 31. a second card strip; 32. a first bayonet; 33. a second bayonet; 34. a third bayonet; 35. a contour block; 36. a push cylinder; 37. a wedge block; 38. a double-shaft cylinder; 39. a clamping block; 40. a pinch roller; 41. placing a plate; 42. pulling the rotating shaft; 43. a first pull strap; 44. a servo motor; 45. a clip; 46. a first correction wheel; 47. a second pull strap; 48. a second synchronizing wheel; 49. pulling the frame; 50. a second correction wheel; 51. a second conveying module; 52. dispensing a glue head; 53. and (4) a grabbing mechanism.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1, the invention provides a photovoltaic backplane junction box assembling device, which comprises a frame 1, wherein a junction box feeding mechanism 2 is arranged at the lower part of the frame 1, a photovoltaic panel conveying line 3 is arranged at the upper part of the junction box feeding mechanism 2, a grabbing assembling mechanism 4 and a gluing mechanism 5 are arranged at the upper part of the photovoltaic panel conveying line 3, a correcting device 6 is arranged around the photovoltaic panel conveying line, the photovoltaic panel conveying line 3 penetrates through the whole frame 1 and is vertical to the movement direction of the junction box feeding mechanism 2, and the operation mode is as follows: photovoltaic board passes through photovoltaic board transfer chain 3 and carries to frame 1 on, and adjust the photovoltaic board through orthotic devices 6, prevent crooked, later will load full terminal box through terminal box feed mechanism 2 and deliver to snatching equipment mechanism 4 department at carrier 23, snatch through snatching equipment mechanism 4, and simultaneously, the rubber coating mechanism 5 of opposite side conveys to photovoltaic board upper portion through the module and carries out the point and glues, as shown in figure 14, snatch mechanism 53 after the point is glued and deliver to busbar department with the terminal box, push down to insert and merge the equipment to finish, photovoltaic board sees off along the photovoltaic board transfer chain afterwards.

Specifically, firstly, the photovoltaic panel is conveyed through the photovoltaic panel conveying line 3, the photovoltaic panel conveying line 3 passes through a plurality of conveying lines commonly existing in the prior art, but passes through the whole equipment, so that direct conveying is facilitated, and in order to ensure that the photovoltaic panel is prevented from being inclined after being input, the photovoltaic panel is corrected through the correcting device 6, as shown in fig. 10-11, the correcting device 6 comprises a pulling rotating shaft 42 positioned at the end part of the photovoltaic panel conveying line 3, first pulling belts 43 are arranged at two ends of the pulling rotating shaft 42, a servo motor 44 is arranged in the middle of the pulling rotating shaft, clamping pieces 45 are respectively arranged on the first pulling belts, correcting cylinders are arranged on the clamping pieces 45, and output ends of the correcting cylinders are upward and connected with first correcting wheels 46; perpendicular to be equipped with second pulling belt 47 on the photovoltaic board transfer chain direction of motion, second pulling belt 47 tip is equipped with second synchronizing wheel 48, be connected with pulling frame 49 on the second pulling belt 47, be equipped with second correction wheel 50 on pulling frame 49, can adjust the position of photovoltaic board through all setting up the pulling belt in horizontal and longitudinal direction, photovoltaic board is horizontal promptly, and correction cylinder is flexible can be counterpointed first correction wheel 46 when the pulling of photovoltaic board edge through first pulling belt 43, can drive the correction wheel of both sides in step and press in the photovoltaic board side, adjusts the photovoltaic board, and is the same as, vertical second pulling belt 47 is owing to the setting of circulation, and the belt direction of motion of both sides is reverse, can compress tightly the other both sides of photovoltaic board through second correction wheel 50 to second correction wheel 50 sets up in microscler body of rod both sides, be convenient for adjust the photovoltaic board.

After the position of photovoltaic board is just right, can drive rubber coating mechanism 5 and snatch equipment mechanism 4 at photovoltaic board surface rubber coating and snatch the terminal box simultaneously, specific saying so: the gluing mechanism 5 comprises a second conveying module 51, a plurality of dispensing heads 52 are arranged on the second conveying module 51, the conveying modules related to the equipment are not provided with module assemblies in the prior art, so detailed description is omitted, the conveying modules can realize movement in three dimensions, namely the second conveying module 51 drives the dispensing heads 52 to move to the mounting position of the photovoltaic panel, the gluing is performed and then reset, the grabbing and assembling mechanism 4 works simultaneously, the grabbing and assembling mechanism 4 is used for grabbing the junction box to the photovoltaic backboard, and bus bars on the photovoltaic backboard are inserted into the junction box.

Firstly, the junction box is delivered to the conveying module by the junction box feeding mechanism 2, as shown in fig. 7-9, the junction box feeding mechanism 2 includes two sets of longitudinal conveying lines 21 and a grabbing mechanism 53 located at the upper part, the grabbing mechanism 53 has the same structure as the grabbing assembly mechanism, only a third clamping jaw cylinder is reduced for placing the junction box on the junction box aligning mechanism, a transverse conveying line 22 is arranged at the end part of the longitudinal conveying line 21, the carriers 23 are arranged on the transverse conveying line 22, the conveying rods 24 are arranged at two ends of the transverse conveying line 22, the conveying rods 24 extend between the transverse conveying lines 22, a power mechanism is arranged at the end part of the conveying rods 24, the power mechanism is connected with the longitudinal conveying line 21, and a set of longitudinal conveying lines 21 is used for loading the full carriers 23, another group is used for the empty support plate 29 of backward flow, and the switching between vertical and horizontal transfer chain is then realized through transmission pole 24, and transmission pole 24 sets up between horizontal transfer chain 22 to unanimous with the direction of transfer of vertical transfer chain 21, transmission pole 24 power unit includes pivot 25, the pivot 25 tip is equipped with driving motor 26, the pivot 25 other end is equipped with first synchronizing wheel 27, be connected with synchronizing chain 28 on the first synchronizing wheel 27, the inside interior rack that is equipped with of synchronizing chain 28, the transmission pole tip is equipped with drive gear, drive gear with the meshing of internal rack is through the synchronous drive of driving motor 26 drive pivot 25 come synchronous drive of vertical transfer chain 21 transport, so transmission pole 24's transmission is unanimous with vertical transfer chain 21 transmission rate to there is comparatively integrated power unit, and the structure is succinct.

The carrier 23 is conveyed by a conveying belt and a conveying rod, the carrier 23 comprises a carrier plate 29, two groups of vertically arranged first clamping strips 30 and two groups of second clamping strips 31 are arranged on the carrier plate 29, a first bayonet 32 is arranged on one side, opposite to the first clamping strips 30, of the first clamping strips, a second bayonet 33 is arranged on the other side of the first clamping strips, third bayonet openings 34 are formed in positions, on the second clamping strips 31, of one sides of the second bayonet 33, the third bayonet openings 34 are C-shaped and are arranged vertically in a continuous mode, the junction box comprises an upper shell and a lower shell, electric wires are arranged on the lower shell, the third bayonet openings 34 are used for clamping the electric wires, the first bayonet openings 32 are used for limiting the upper shell, the electric wires slide out from the side edges of the first bayonet openings 32 during grabbing, limiting air cylinders are arranged on the side edges of the carrier plate 29 and can limit the movement of the carrier plate 29, and the carrier plate can be conveniently stopped at the central position for grabbing. And the grabbing is realized by the grabbing and assembling mechanism 4:

specifically, the method comprises the following steps: as shown in fig. 2 to 4, the grabbing assembly mechanism 4 includes a first conveying module 8, two sets of first lifting mechanisms 9 and a second lifting mechanism 10 located between the first lifting mechanisms 9 are disposed on the first conveying module 8, both the first lifting mechanisms 9 and the second lifting mechanisms 10 are screw modules, and are defined as "first and second" for convenience of distinguishing, a down-pressure cylinder 11 is disposed on the first lifting mechanism 9, an output end of the down-pressure cylinder 11 is connected with a first clamping jaw cylinder 12, the first clamping jaw cylinder 12 is used for grabbing a lower cover of a junction box, as shown in fig. 6, an output end of the down-pressure cylinder 11 is further connected with a Z-shaped plate 13, a second clamping jaw cylinder 14 is disposed at a tail end of the Z-shaped plate 13, and the second clamping jaw cylinder 14 is used for grabbing electric wires of the junction box; the lower part of the Z-shaped plate 13 is provided with a third clamping jaw air cylinder 15, the output end of the third clamping jaw air cylinder 15 extends between the clamping jaws of the first clamping jaw air cylinder 12, the lower grabbing mechanism is driven by the first conveying module 8 to move along the rack 1, the junction box is grabbed from the upper part of the carrier 23 to move to the upper part of the photovoltaic plate, the lower connecting structure of the second lifting mechanism 10 is the same as that of the first lifting mechanism 9, only the Z-shaped plate 13 and the second clamping jaw air cylinder 14 are reduced, specifically, the shell is grabbed by the first clamping jaw air cylinder 12, meanwhile, the wire part is grabbed by the second clamping jaw air cylinder 14, the junction box can be fixed, the junction box is grabbed to the upper part of the photovoltaic plate by the first conveying module 8 and is aligned with the bus bar on the photovoltaic plate, the bus bar is ensured to be inserted on the junction box, in order to prevent the bus bar from being bent, the bus bar clamping air cylinder 16 is particularly arranged on the first lifting mechanism 9, as shown in fig. 5, the output end of the bus bar clamping cylinder 16 is symmetrically provided with clamping pieces 17, the end of each clamping piece 17 is provided with a Y-shaped groove 18, each clamping piece 17 extends to the lower part of the first clamping jaw cylinder 12, before the bus bar is pressed down, the clamping pieces 17 are controlled by the bus bar clamping cylinder 16 to clamp the bus bar, the two clamping pieces 17 are overlapped up and down, the vertical part 20 of the symmetrical Y-shaped groove 18 forms a transverse groove, the bus bar is inserted between the two clamping pieces, when the whole pressing-down cylinder 11 drives the first clamping jaw cylinder 12 to press down, the Y-shaped groove 18 faces down along the bus bar, the bus bar can be prevented from being bent during pressing down, the use is prevented from being affected, when the junction box is pressed onto a photovoltaic panel, the bus bar is pushed and bent towards two sides by the third clamping jaw cylinder 15, specifically, the output end of the third clamping jaw cylinder 15 is connected with two groups of inclined arms 19, the tail end of the inclined arm 19 is provided with a vertical part 20, the inclined arm 19 extends between the first clamping jaws in a normal state, the opening and closing direction of the inclined arm 19 is perpendicular to the opening and closing direction of the first clamping jaws, and when the third clamping jaw air cylinder 15 is started, the bus bar in the junction box is turned over towards two sides, so that the bus bar is pressed in the junction box.

In addition, because the position precision requirement of the equipment is higher, a junction box aligning mechanism 7 is arranged before the junction box is placed on the photovoltaic panel, and the junction box aligning mechanism 7 is used for correcting the position of the junction box; specifically, the junction box aligning mechanism 7 comprises a bottom plate, wherein a profiling block 35 is arranged on the bottom plate, the profiling block 35 is of a square structure and used for correcting the position of an upper cover body, adjusting assemblies are arranged on two sides of the profiling block 35 and comprise a pushing cylinder 36 located at the end, a wedge block 37 located at the other end and a double-shaft cylinder 38 located at the bottom, the junction box is pushed by the pushing cylinder 36, the direction of the output end of the double-shaft cylinder 38 arranged at the lower part is perpendicular to the stretching direction of the pushing cylinder 36, when the pushing cylinder 36 stretches and retracts, the junction box is pushed to the end, the other two sides of the junction box are pressed by the double-shaft cylinder 38 to adjust the positions of the two sides of the junction box, specifically, a clamping block 39 is connected to the output end of the double-shaft cylinder 38, a pressing wheel 40 is arranged on the clamping block 39, a placing plate 41 is arranged on the upper part of the double-shaft cylinder 38, the pressing wheel 40 is located on the side of the placing plate 41 and is higher than the placing plate 41, the placing plate 41 is used for supporting the junction box, the clamping block 39 at the end is of the wedge surface and can also be clamped to limit the position of the junction box.

Claims

1. The photovoltaic backboard junction box assembling equipment comprises a rack and is characterized in that a junction box feeding mechanism is arranged at the lower part of the rack, a photovoltaic board conveying line is arranged at the upper part of the junction box feeding mechanism, a grabbing assembling mechanism and a gluing mechanism are arranged at the upper part of the photovoltaic board conveying line, and correction devices are arranged around the photovoltaic board conveying line;

the grabbing and assembling mechanism is used for grabbing the junction box onto the photovoltaic backboard and inserting the bus bar on the photovoltaic backboard into the junction box; the grabbing and assembling mechanism comprises a first conveying module, two groups of first lifting mechanisms and a second lifting mechanism located between the first lifting mechanisms are arranged on the first conveying module, a down-pressing cylinder is arranged on the first lifting mechanism, the output end of the down-pressing cylinder is connected with a first clamping jaw cylinder, the first clamping jaw cylinder is used for grabbing a lower cover of the junction box, the output end of the down-pressing cylinder is further connected with a Z-shaped plate, a second clamping jaw cylinder is arranged at the tail end of the Z-shaped plate, and the second clamping jaw cylinder is used for grabbing electric wires of the junction box; a third clamping jaw air cylinder is arranged at the lower part of the Z-shaped plate, and the output end of the third clamping jaw air cylinder extends between the clamping jaws of the first clamping jaw air cylinder; the output end of the third clamping jaw air cylinder is connected with two groups of inclined arms, and the tail ends of the inclined arms are provided with vertical parts;

the first lifting mechanism is further provided with a bus bar clamping cylinder, clamping pieces are symmetrically arranged at the output end of the bus bar clamping cylinder, a Y-shaped groove is formed in the end part of each clamping piece, and each clamping piece extends to the lower part of the first clamping jaw cylinder;

the junction box feeding mechanism comprises two groups of longitudinal conveying lines and a grabbing mechanism positioned at the upper part, the end parts of the longitudinal conveying lines are provided with transverse conveying lines, carriers are arranged on the transverse conveying lines, conveying rods are arranged at two ends of the transverse conveying lines and extend between the transverse conveying lines, a power mechanism is arranged at the end part of each conveying rod, and the power mechanism is connected with the longitudinal conveying lines; the power mechanism comprises a rotating shaft, a driving motor is arranged at the end of the rotating shaft, a first synchronizing wheel is arranged at the other end of the rotating shaft, a synchronizing chain is connected onto the first synchronizing wheel, an inner rack is arranged inside the synchronizing chain, a driving gear is arranged at the end of the transmission rod, and the driving gear is meshed with the inner rack.

2. The assembly apparatus of claim 1, wherein the carrier comprises a carrier plate, the carrier plate is provided with two sets of first vertically disposed fastening strips and two sets of second fastening strips, a first bayonet is provided on one side of the carrier plate opposite to the first fastening strips, a second bayonet is provided on the other side of the carrier plate opposite to the first fastening strips, and a third bayonet is provided on the second fastening strips and on one side of the second bayonet.

3. The photovoltaic backboard junction box assembling equipment according to claim 1, wherein the junction box aligning mechanism comprises a bottom plate, a profiling block is arranged on the bottom plate, adjusting assemblies are arranged on two sides of the profiling block and comprise a pushing cylinder located at an end portion, a wedge block located at the other end and a double-shaft cylinder located at the bottom, a clamping block is connected to the output end of the double-shaft cylinder, a pressing wheel is arranged on the clamping block, a placing plate is arranged on the upper portion of the double-shaft cylinder, and the pressing wheel is located on the side edge of the placing plate and higher than the placing plate.

4. The photovoltaic backboard junction box assembling equipment according to claim 1, wherein the correction device comprises a pulling rotating shaft positioned at the end part of the photovoltaic board conveying line, first pulling belts are arranged at two ends of the pulling rotating shaft, a servo motor is arranged in the middle of the pulling rotating shaft, clamping pieces are respectively arranged on the first pulling belts, correction cylinders are arranged on the clamping pieces, and output ends of the correction cylinders are upward and connected with first correction wheels; perpendicular to be equipped with the second pulling belt on the photovoltaic board transfer chain direction of delivery, second pulling belt tip is equipped with the synchronizing wheel, be connected with on the second pulling belt and pull the frame, it corrects the wheel to pull to be equipped with the second on the frame.

5. The photovoltaic backplane junction box assembly apparatus of claim 1, wherein the glue application mechanism comprises a second transport module, the second transport module being provided with a plurality of glue dispensing heads.