CN117747520A

CN117747520A - Assembly line for photovoltaic module production

Info

Publication number: CN117747520A
Application number: CN202311786486.1A
Authority: CN
Inventors: 李龙; 苗蕾; 马强
Original assignee: Yingli New Energy Ningxia Co ltd
Current assignee: Yingli New Energy Ningxia Co ltd
Priority date: 2023-12-22
Filing date: 2023-12-22
Publication date: 2024-03-22
Anticipated expiration: 2043-12-22
Also published as: CN117747520B

Abstract

The invention relates to the technical field of photovoltaic module assembly, in particular to a production line for photovoltaic module production, which comprises a base, wherein a conveyor belt is arranged on the base, a supporting block is adhered to the outer wall of the conveyor belt and is matched with a photovoltaic panel, a first bracket is welded on the outer wall of the base, a first electric push rod is welded at the top of the first bracket, and an installation frame is inserted at the output end of the first electric push rod in a sliding manner. According to the invention, when the electric push rod drives the mounting frame to move downwards, the two positioning plates position the photovoltaic plate in the direction along the first sliding rail before the mounting frame drives the roller to abut against the photovoltaic plate, and the photovoltaic plate card is close to the clamping groove of the second frame through the first gear, the first rack, the second gear and the second rack, so that the second frame is mounted and the photovoltaic plate is positioned in the direction along the second sliding rail, and the working efficiency is greatly improved.

Description

Assembly line for photovoltaic module production

Technical Field

The invention belongs to the technical field of photovoltaic module assembly, and particularly relates to a production line for photovoltaic module production.

Background

The photovoltaic module production and processing procedures comprise battery detection, battery welding, EVA adhesive film packaging, module lamination, framing and the like, wherein the framing procedure needs to connect light Fu Banka into a clamping groove of a frame, and meanwhile, corner connectors on the frame need to be inserted and punched and riveted for fixation.

However, the existing framing procedure generally needs manual auxiliary positioning to finish the installation of the frame, and the working efficiency is low.

Disclosure of Invention

The invention aims to solve the problems in the background art, and provides a production line for photovoltaic module production.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a production line for photovoltaic module production, includes the base, be provided with the conveyer belt on the base, it has the supporting shoe to bond on the outer wall of conveyer belt, supporting shoe and photovoltaic board looks adaptation, the welding has support one on the outer wall of base, the welding of the top of support one has electric putter one, electric putter one's output sliding grafting has the mounting bracket, be provided with spring one between mounting bracket and the electric putter one, set up on the outer wall of mounting bracket a pair of symmetrical slide rail one and a pair of symmetrical slide rail two that distribute, slide rail one and slide rail two perpendicular distribution, every equal sliding grafting has slider one in the slide rail one, every all weld on the outer wall of slider one rack one, every equal sliding grafting has slider two on the outer wall of slider two, the welding has a pair of centrosymmetric support one and a pair of centrosymmetric support two on the top outer wall of mounting bracket, support one and slide rail one, one and slide rail two correspond, one on each outer wall of support one the same pair of slide rail one and two have two gears to peg graft on the outer wall, two gears have two gears on the mutual meshing on the two outer wall of two positioning mechanism, two sets of mutual meshing have on the two gears have.

In the assembly line for photovoltaic module production, rotate on the bottom outer wall of mounting bracket and peg graft there is the cylinder, every all weld on the bottom outer wall of slider one and accept board one, every all weld on accepting the both ends outer wall of board one has the limiting plate, every it has frame one to accept the board one to slide the grafting, every all weld on the tip outer wall of frame one has the bight sign indicating number, every all weld on the outer wall of slider one has a pair of extension frame, every weld on the outer wall of extension frame and dash the riveter, every dash riveter and bight sign indicating number one-to-one, every all weld on the bottom outer wall of slider two accepts board two, every it has frame two to accept to slide on the outer wall of board two, frame two and frame one looks adaptation, the spacing groove has been seted up on the outer wall of support one, slide rail one is pegged graft in the spacing groove.

In the production line for the photovoltaic module, four groups of meshing teeth I which are distributed circumferentially at equal intervals are welded on the outer wall of the end part of the first electric push rod, the meshing teeth I are matched with the first gear and the second gear, and the height of the first support is lower than that of the second support.

In the assembly line for photovoltaic module production, the auxiliary positioning mechanism comprises positioning plates, a third support is welded on the outer wall of one end, far away from the mounting frame, of each sliding rail, a third gear is connected to the outer wall of the third support in a rotating and inserting mode, and a second meshing tooth is welded on the outer wall of the first support.

In the assembly line for photovoltaic module production, every the rack III has all been pegged graft in the slip on the outer wall of support III, rack III and gear three phase intermeshing, every all weld on the one end outer wall that rack III is close to the conveyer belt has the locating plate, meshing tooth II and gear three phase adaptation.

In the assembly line for photovoltaic module production, the pile up neatly mechanism includes the fixture block, the base is located the welding has the storage box on the outer wall of one side of conveyer belt tip, the welding has the boss on the bottom inner wall of storage box in the conveyer belt both sides, keep away the position groove has all been seted up on the both sides outer wall of storage box, all seted up the mounting groove on the both sides inner wall of storage box, every all slide in the mounting groove and peg graft there is the fixture block, every all be provided with the spring second between the inner wall of mounting groove and the outer wall of fixture block.

In the production line for the photovoltaic module, a connecting shaft which is symmetrically distributed is rotationally inserted on the outer wall of the bottom of the storage box, lifting blocks are welded on the outer wall of each connecting shaft, the lifting blocks are matched with the first frame and the second frame, and the lifting blocks are matched with the avoidance grooves.

In the production line for the photovoltaic module, each lifting block is welded with a sliding column on the outer wall, an electric push rod II is welded on the outer wall of the base, a linkage rod is welded at the output end of the electric push rod II, a sliding groove is formed in the outer wall of the linkage rod, and the sliding column is inserted in the sliding groove in a sliding mode.

Compared with the prior art, the invention has the beneficial effects that:

1. through the auxiliary positioning mechanism, when the electric push rod drives the mounting frame to move downwards, the gear III rotates under the meshing action of the gear III and the meshing gear II before the mounting frame drives the roller to abut against the photovoltaic panel, so that the gear III drives the positioning plate to approach the conveyor belt, the two positioning plates position the photovoltaic panel in the direction along the first sliding rail, the subsequent framing operation is convenient, manual auxiliary positioning is not needed, the working efficiency is greatly improved, the conveyor belt is as wide as the photovoltaic panel, and the positioning is completed when the positioning plate abuts against the conveyor belt, and the meshing stroke of the meshing gear II and the gear III is finished;

2. through the first gear, the first rack, the second gear and the second rack, when the photovoltaic panel on the supporting block is transported to the lower part of the bracket by the conveyor belt, the first frame and the second frame are respectively placed on the first bearing plate and the second bearing plate, the electric push rod is controlled to drive the mounting frame to move downwards, the mounting frame drives the roller to be abutted with the photovoltaic panel, the roller can limit the photovoltaic panel in the direction along the first sliding rail, the photovoltaic panel can float in the direction along the second sliding rail, the installation of the second frame is convenient, the first meshing gear is meshed with the second gear along with the first continuous descending of the first electric push rod, the second rack drives the first center of the second rack to slide, the second slider drives the second frame to approach the photovoltaic panel, the two frames are mutually close, so that the light Fu Banka is connected into the clamping groove of the frame two, the frame two is installed and the photovoltaic panel is positioned along the direction of the slide rail two, preparation is made for the installation of the following frame one, after the meshing stroke of the meshing teeth I and the gear II is finished, the meshing teeth I are meshed with the gear I, the sliding block I drives the frame to approach the photovoltaic panel, the corner connector is inserted into the frame two, and meanwhile, the photovoltaic panel card is close to the clamping groove of the frame one, the framing of the photovoltaic panel is finished, the corner connector can be fixed through the arranged riveting gun, manual positioning operation is not needed in the whole framing process, the working efficiency is greatly improved, the roller compresses the photovoltaic panel, the bending phenomenon of the photovoltaic panel in the framing process is avoided, and the yield is ensured;

3. through the stacking mechanism arranged, after framing is completed, a finished product is transported to the storage box by the conveyor belt, a boss at the bottom of the storage box can intercept the first side frame, the finished product is prevented from falling off, the second electric push rod is controlled to extend, the second electric push rod drives the linkage rod to move upwards, so that the two lifting blocks rotate upwards, the finished product on the boss is lifted, the clamping block is extruded into the mounting groove in the lifting process of the finished product, and when the finished product is lifted to the position above the clamping teeth of the clamping block, the clamping block resets to intercept the finished product, and the clamping block reciprocates in such a way, thereby realizing the stacking of the finished product on the clamping block, facilitating the transportation of the finished product and further improving the production efficiency;

to sum up, through the auxiliary positioning mechanism who sets up for when an electric push rod is driven the mounting bracket and is moved down, before the mounting bracket drives cylinder butt photovoltaic board, two locating plates are being located the photovoltaic board in the direction along slide rail one, through gear one, rack one, gear two and rack two that set up, make the photovoltaic integrated circuit board be close in the draw-in groove of frame two, realize the installation of frame two and fix a position the photovoltaic board along change slide rail two direction, need manual positioning operation, improved work efficiency greatly.

Drawings

Fig. 1 is a perspective view of the whole structure of the present invention.

Fig. 2 is a perspective view of a base of the present invention.

Fig. 3 is a schematic perspective view of the tooth according to the present invention.

Fig. 4 is a schematic two-dimensional view of the slider of the present invention.

Fig. 5 is a schematic perspective view of a slider according to the present invention.

Fig. 6 is a schematic perspective view of the locating plate of the present invention.

Fig. 7 is a schematic plan view of the working state of the palletizing mechanism according to the present invention.

Fig. 8 is a perspective view of a linkage rod according to the present invention.

Fig. 9 is a schematic perspective view of a first frame and a second frame according to the present invention.

In the figure: 1. a base; 11. a conveyor belt; 111. a support block; 12. a first bracket; 121. an electric push rod I; 122. meshing the first tooth; 123. a limit groove; 124. a second meshing tooth; 13. a storage box; 131. a boss; 132. a clearance groove; 133. a mounting groove; 2. a mounting frame; 21. a first spring; 22. a first slide rail; 221. a third support; 222. a third gear; 23. a second slide rail; 24. a first support; 241. a first gear; 25. a second support; 251. a second gear; 26. a roller; 3. a first sliding block; 31. a first rack; 32. an extension frame; 321. punching and riveting gun; 33. a first bearing plate; 331. a limiting plate; 4. a second slide block; 41. a second rack; 42. a second bearing plate; 5. a positioning plate; 51. a third rack; 6. a connecting shaft; 61. lifting blocks; 62. a spool; 7. a linkage rod; 71. a chute; 72. an electric push rod II; 8. a clamping block; 81. a second spring; 9. a photovoltaic panel; 91. a first frame; 911. an angle code; 92. and a second frame.

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 description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: the photovoltaic panel comprises a base 1, a conveyor belt 11 is arranged on the base 1, a supporting block 111 is adhered to the outer wall of the conveyor belt 11, the supporting block 111 is matched with a photovoltaic panel 9, a first bracket 12 is welded on the outer wall of the base 1, a first electric push rod 121 is welded on the top of the first bracket 12, a mounting frame 2 is connected to the output end of the first electric push rod 121 in a sliding manner, a first spring 21 is arranged between the mounting frame 2 and the first electric push rod 121, symmetrically distributed first slide rails 22 and symmetrically distributed second slide rails 23 are arranged on the outer wall of the mounting frame 2, the first slide rails 22 and the second slide rails 23 are vertically distributed, a first slide block 3 is connected to each first slide rail 22 in a sliding manner, a first rack 31 is welded on the outer wall of each first slide block 3, a second slide block 4 is connected to the outer wall of each second slide block 4 in a second rack 41 is welded on the outer wall of each slide block 2, a pair of centrally symmetrical first supports 24 and a pair of centrally symmetrical second supports 25 are welded on the outer wall of the top of the mounting frame 2, the first support 24 is in one-to-one correspondence with the first slide rail 22, the second support 25 is in one-to-one correspondence with the second slide rail 23, a first gear 241 is rotationally inserted on the outer wall of each first support 24, the first gear 241 is meshed with the first rack 31, a second gear 251 is rotationally inserted on the outer wall of the second support 25, the second gear 251 is meshed with the second rack 41, an auxiliary positioning mechanism is arranged on the first slide rail 22, a stacking mechanism is arranged on the base 1, a roller 26 is rotationally inserted on the outer wall of the bottom of the mounting frame 2, a first bearing plate 33 is welded on the outer wall of the bottom of each first slide block 3, a limiting plate 331 is welded on the outer wall of two ends of each first bearing plate 33, a first frame 91 is slidingly inserted on each first bearing plate 33, an angle code 911 is welded on the outer wall of the end of each first frame 91, a pair of extension frames 32 are welded on the outer wall of each first slide block 3, the outer wall of each extension frame 32 is welded with a punch rivet gun 321, each punch rivet gun 321 corresponds to an angle code 911 one by one, the outer wall of the bottom of each sliding block II 4 is welded with a bearing plate II 42, the outer wall of each bearing plate II 42 is slidingly inserted with a frame II 92, the frame II 92 is matched with a frame I91, the outer wall of a bracket I12 is provided with a limit groove 123, a slide rail I22 is slidingly inserted in the limit groove 123, the outer wall of the end part of an electric push rod I121 is welded with four groups of meshing teeth I122 which are distributed in equal intervals in circumference, the meshing teeth I122 are matched with a gear I241 and a gear II 251, and the height of a support I24 is lower than that of a support II 25.

Considering that there is mechanical abrasion between the supporting block 111 and the photovoltaic panel 9, a pulley can be additionally arranged at the top of the supporting block 111, the first support 24 is lower than the second support 25, so that the second gear 251 is meshed with the first meshing gear 122, meanwhile, the second support 25 can keep away the first rack 31, the first frame 91 on the first bearing plate 33 can be limited through the limiting plate 331, the second frame 92 on the second bearing plate 42 is not required to be positioned along the first slide rail 22, after the second frame 92 is installed, the second frame 92 can be clamped to the second frame 92 in the process that the first frame 91 approaches the photovoltaic panel 9, and therefore the second frame 92 is positioned, workers only need to place the first frame 91 between the limiting plates 331, the second frame 92 is placed on the second bearing plate 42, filling efficiency is improved, and working efficiency is further improved.

The above is further elucidated: when the conveyor belt 11 transports the photovoltaic panel 9 on the supporting block 111 to the lower part of the first bracket 12, the first frame 91 and the second frame 92 are respectively placed on the first receiving plate 33 and the second receiving plate 42, the first electric push rod 121 is controlled to drive the mounting frame 2 to move downwards, the mounting frame 2 drives the roller 26 to abut against the photovoltaic panel 9, the roller 26 can limit the photovoltaic panel 9 along the direction of the first slide rail 22, the photovoltaic panel 9 can float along the direction of the second slide rail 23, the installation of the second frame 92 is facilitated, the first meshing tooth 122 is meshed with the second gear 251 firstly along with the continued lowering of the first electric push rod 121, so that the second gear 251 drives the second rack 41 to slide towards the center direction of the first electric push rod 121, the second rack 41 drives the second slide block 4 to slide, the second slide block 4 drives the second frame 92 to approach the photovoltaic panel 9, the two frames 92 approach each other, the photovoltaic panel 9 is clamped into the clamping groove of the second frame 92, the second frame 92 is installed, the photovoltaic panel 9 is positioned along the direction of the second changed slide rail 23, preparation is made for installation of the first frame 91, after the meshing stroke of the first meshing tooth 122 and the second meshing tooth 251 is finished, the first meshing tooth 122 starts to mesh with the first gear 241, the first slider 3 drives the first frame 91 to approach the photovoltaic panel 9, the corner bracket 911 is inserted into the second frame 92, the photovoltaic panel 9 is clamped into the clamping groove of the first frame 91, the photovoltaic panel 9 is further installed, the corner bracket 911 can be fixed through the arranged punch rivet gun 321, manual positioning operation is not needed in the whole frame installation process, the working efficiency is greatly improved, meanwhile, the roller 26 compresses the photovoltaic panel 9, the bending phenomenon of the photovoltaic panel 9 is avoided in the frame installation process, and the yield is ensured.

Specifically, the auxiliary positioning mechanism comprises a positioning plate 5, a third support 221 is welded on the outer wall of one end, far away from the mounting frame 2, of each first slide rail 22, a third gear 222 is inserted on the outer wall of each third support 221 in a rotating mode, a second meshing tooth 124 is welded on the outer wall of the first support 12, a third rack 51 is inserted on the outer wall of each third support 221 in a sliding mode, the third rack 51 is meshed with the third gear 222 in a mutual mode, the positioning plate 5 is welded on the outer wall of one end, close to the conveying belt 11, of each third rack 51, and the second meshing tooth 124 is matched with the third gear 222.

When the first electric push rod 121 drives the mounting frame 2 to move downwards, before the mounting frame 2 drives the roller 26 to abut against the photovoltaic panel 9, under the meshing effect of the third gear 222 and the second meshing gear 124, the third gear 222 rotates, so that the third gear 51 drives the positioning plate 5 to approach the conveying belt 11, and further, the two positioning plates 5 position the photovoltaic panel 9 along the first sliding rail 22, the follow-up framing operation is facilitated, manual auxiliary positioning is not needed, the working efficiency is greatly improved, the conveying belt 11 and the photovoltaic panel 9 are as wide as each other, and when the positioning plate 5 abuts against the conveying belt 11, positioning is completed, and at the moment, the meshing stroke of the second meshing gear 124 and the third gear 222 is ended.

Specifically, the pile up neatly mechanism includes fixture block 8, the welding has stock box 13 on the outer wall of one side that base 1 is located the conveyer belt 11 tip, the welding has boss 131 on the bottom inner wall that stock box 13 is located the conveyer belt 11 both sides, keep away position groove 132 has all been seted up on the outer wall of the both sides of stock box 13, the mounting groove 133 has all been seted up on the inner wall of both sides of stock box 13, all sliding grafting has fixture block 8 in every mounting groove 133, all be provided with spring two 81 between the inner wall of every mounting groove 133 and the outer wall of fixture block 8, the rotation grafting has a pair of symmetrically distributed connecting axle 6 on the bottom outer wall of stock box 13, all weld lifting block 61 and frame two 92 looks adaptation on the outer wall of every connecting axle 6, all weld the slide post 62 on the outer wall of every lifting block 61, the welding has electric push rod two 72 on the outer wall of base 1, electric push rod two 72 output end welding has the gangbar 7, the spout 71 has been seted up on the outer wall of gangbar 7, the slide post 62 slides in spout 71.

After the framing is accomplished, the conveyer belt 11 transports the finished product to the bin 13, the boss 131 of bin 13 bottom can intercept frame one 91, avoid the finished product to drop, control electric push rod two 72 stretches, electric push rod two 72 drives gangbar 7 and reciprocates for two lifting blocks 61 upwards rotate, thereby make the finished product on the boss 131 lifted, the finished product rises in-process and extrudees fixture block 8 in to mounting groove 133, when the finished product risen to the latch top of fixture block 8, fixture block 8 resets and intercepts the finished product, so reciprocatingly, thereby realize pile up neatly finished product on fixture block 8, the transportation of finished product of being convenient for, carry out one step and improve production efficiency.

The working principle and the using flow of the invention are as follows: when the first frame 91 and the second frame 92 are respectively placed on the first receiving plate 33 and the second receiving plate 42, the first electric push rod 121 is controlled to drive the mounting frame 2 to move downwards when the photovoltaic plate 9 on the supporting block 111 is transported to the lower part of the first bracket 12 by the conveyor belt 11, under the action of the auxiliary positioning mechanism, before the mounting frame 2 drives the roller 26 to abut against the photovoltaic plate 9, the two positioning plates 5 position the photovoltaic plate 9 along the direction of the first slide rail 22, when the mounting frame 2 drives the roller 26 to abut against the photovoltaic plate 9, the roller 26 can limit the photovoltaic plate 9 along the direction of the first slide rail 22, meanwhile, the second slide block 4 and the first slide block 3 respectively drive the second frame 92 and the first frame 91 to sequentially approach the photovoltaic plate 9, so that the frame mounting effect is realized, after the frame mounting is completed, under the action of the stacking mechanism, a finished product is stacked on the clamping block 8, the transfer of the finished product is facilitated, and the production efficiency is improved in one step.

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 production line for photovoltaic module production, includes base (1), its characterized in that: the base (1) is provided with a conveyor belt (11), a supporting block (111) is adhered to the outer wall of the conveyor belt (11), the supporting block (111) is matched with a photovoltaic panel (9), a first bracket (12) is welded on the outer wall of the base (1), a first electric push rod (121) is welded on the top of the first bracket (12), the output end of the first electric push rod (121) is in sliding connection with a mounting frame (2), a first spring (21) is arranged between the mounting frame (2) and the first electric push rod (121), a first pair of symmetrically distributed slide rails (22) and a second pair of symmetrically distributed slide rails (23) are arranged on the outer wall of the mounting frame (2), the first slide rails (22) and the second slide rails (23) are vertically distributed, a first slide block (3) is welded on the outer wall of each first slide block (3), a second slide block (4) is in sliding connection with the second slide rail (23), a first pair of symmetrically distributed slide rails (24) are welded on the outer wall of each second slide block (4), a first pair of symmetrically distributed slide rails (24) are welded on the first support (24) and the second support (24) respectively, the support is characterized in that the support is provided with a support II (25) and a slide rail II (23) in one-to-one correspondence, a gear I (241) is rotatably inserted on the outer wall of each support II (24), the gear I (241) is meshed with a rack I (31) in a mutual mode, a gear II (251) is rotatably inserted on the outer wall of the support II (25), the gear II (251) is meshed with the rack II (41) in a mutual mode, an auxiliary positioning mechanism is arranged on the slide rail I (22), and a stacking mechanism is arranged on the base (1).

2. The production line for photovoltaic module according to claim 1, wherein: the utility model discloses a sliding guide device for a sliding rail, including mounting bracket (2) and slider, it has cylinder (26) to rotate on the bottom outer wall of mounting bracket (2), every it has to accept board one (33) to have all welded on the bottom outer wall of slider one (3), every it has limiting plate (331) to have all welded on the both ends outer wall of accepting board one (33), every it has frame one (91) to accept to slide the grafting on board one (33), every all welded on the tip outer wall of frame one (91) has angle sign indicating number (911), every it has a pair of extension frame (32) to have all welded on the outer wall of slider one (3), every it has rivet punching gun (321) with angle sign indicating number (911) one-to-one to have welded on the bottom outer wall of slider two (4), every it has frame two (92) to accept to slide on the outer wall of board two (42), frame two (92) and one (91) looks adaptation, every one (123) have cut up on the outer wall of slider one (12) and have a spacing groove (123) in the limiting guide device.

3. The production line for photovoltaic module according to claim 1, wherein: four groups of meshing teeth I (122) which are distributed in an equidistant circumference manner are welded on the outer wall of the end part of the first electric push rod (121), the meshing teeth I (122) are matched with the first gear (241) and the gear (251), and the height of the first support (24) is lower than that of the second support (25).

4. The production line for photovoltaic module according to claim 1, wherein: the auxiliary positioning mechanism comprises positioning plates (5), a third support (221) is welded on the outer wall of one end, far away from the mounting frame (2), of each first slide rail (22), a third gear (222) is inserted on the outer wall of the third support (221) in a rotating mode, and meshing teeth (124) are welded on the outer wall of the first support (12).

5. The production line for photovoltaic module according to claim 4, wherein: and a third rack (51) is slidably inserted on the outer wall of each third support (221), the third rack (51) is meshed with the third gear (222), a positioning plate (5) is welded on the outer wall of one end, close to the conveying belt (11), of each third rack (51), and the meshing teeth (124) are matched with the third gear (222).

6. The production line for photovoltaic module according to claim 1, wherein: pile up neatly mechanism includes fixture block (8), base (1) have welded bin (13) on the outer wall of one side that is located conveyer belt (11) tip, the welding has boss (131) on bin (13) are located the bottom inner wall of conveyer belt (11) both sides, keep away position groove (132) have all been seted up on the outer wall of both sides of bin (13), mounting groove (133) have all been seted up on the inner wall of both sides of bin (13), every all sliding grafting has fixture block (8) in mounting groove (133), every all be provided with spring two (81) between the inner wall of mounting groove (133) and the outer wall of fixture block (8).

7. The production line for photovoltaic modules according to claim 6, wherein: the automatic feeding device is characterized in that a symmetrically distributed connecting shaft (6) is rotationally inserted on the outer wall of the bottom of the storage box (13), lifting blocks (61) are welded on the outer wall of each connecting shaft (6), the lifting blocks (61) are matched with a first frame (91) and a second frame (92), and the lifting blocks (61) are matched with a position avoiding groove (132).

8. The production line for photovoltaic module according to claim 7, wherein: every all weld on the outer wall of lifting piece (61) slide post (62), the welding has electric putter two (72) on the outer wall of base (1), electric putter two (72) output welding has gangbar (7), spout (71) have been seted up on the outer wall of gangbar (7), slide post (62) slip grafting is in spout (71).