CN115333460B - Photovoltaic module - Google Patents

Abstract

The invention discloses a photovoltaic assembly, which comprises a first assembled photovoltaic plate and a second assembled photovoltaic plate, wherein a first photovoltaic plate nondestructive installation arm assembly and a second photovoltaic plate nondestructive installation arm assembly are synchronously and toothedly installed on a positioning seat assembly during installation and use, a set of complete photovoltaic plate nondestructive clamping installation seat unit is formed between a set of first photovoltaic plate nondestructive installation arm assembly, a set of second photovoltaic plate nondestructive installation arm assembly and a set of positioning seat assembly, a first auxiliary support arm and a second auxiliary support arm are respectively arranged on two sides of the two sets of complete photovoltaic plate nondestructive clamping installation seat units, and a stacked installation seat structure is formed between the two sets of complete photovoltaic plate nondestructive clamping installation seat units through the support of the first auxiliary support arm and the second auxiliary support arm.

Description

Photovoltaic module

Technical Field

The invention belongs to the technical field of photovoltaics, and particularly relates to a photovoltaic module.

Background

The photovoltaic is a solar photovoltaic power generation system for short, which is a power generation system for directly converting solar radiation energy into electric energy by using the photovoltaic effect of a solar cell semiconductor material and has two modes of independent operation and grid-connected operation.

The prior art has the following problems: in a photovoltaic power generation system, photovoltaic panels are important power generation components, in actual use, a plurality of photovoltaic panels are assembled together for use, meanwhile, in actual use, a large number of steel frames and bottom piles are paved, so that the photovoltaic panels are complicated to pave and high in cost, and on the other hand, when the photovoltaic panels are stored and transported, the photovoltaic panels are stacked, so that gaps do not exist among the photovoltaic panels, and in storage and transportation, if the photovoltaic panels are disturbed and bumped, the photovoltaic panels are easy to collide with each other, so that the panels among the photovoltaic panels are damaged and deformed, and therefore a photovoltaic module is urgently needed to solve the problems.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a photovoltaic module which has the characteristic of convenience in laying and keeping during photovoltaic power generation.

In order to achieve the purpose, the invention provides the following technical scheme: a photovoltaic assembly comprises a first assembled photovoltaic plate and a second assembled photovoltaic plate, wherein the first assembled photovoltaic plate is tightly clamped between a first photovoltaic plate nondestructive installation arm assembly and a second photovoltaic plate nondestructive installation arm assembly, the first photovoltaic plate nondestructive installation arm assembly and the second photovoltaic plate nondestructive installation arm assembly are synchronously toothed and movably installed on a positioning seat assembly, a set of complete photovoltaic plate nondestructive clamping installation seat units are formed among a set of first photovoltaic plate nondestructive installation arm assembly, a set of second photovoltaic plate nondestructive installation arm assembly and a set of positioning seat assemblies, first auxiliary support arms and second auxiliary support arms are arranged on two sides of each complete photovoltaic plate nondestructive clamping installation seat unit, a stacked installation seat structure is formed between the two sets of complete photovoltaic plate nondestructive clamping installation seat units, and a jacking spring is sleeved at the end part of an arm rod of the first photovoltaic plate nondestructive installation arm assembly;

the first photovoltaic panel nondestructive installation arm assembly comprises an installation arm rod, wherein both ends of the installation arm rod are respectively provided with an arm rod end part pushing disc and a photovoltaic panel aluminum alloy frame clamping seat plate, both sides of the installation arm rod are respectively provided with a first transverse groove and a second transverse groove, a positioning rack is arranged in the first transverse groove, and a driving rack is arranged in the second transverse groove;

the positioning seat assembly comprises a positioning base table, a first rotating shaft rod is arranged at the top of the positioning base table in a rotating mode through a bearing seat, a driving gear is fixedly arranged at the top of the first rotating shaft rod, U-shaped side frame plates are fixedly arranged on two sides of the positioning base table, top sliding seat pipes are fixedly arranged at two ends of the tops of the U-shaped side frame plates, one is arranged at the top sliding seat pipes, end pushing ring tables are fixedly arranged at the outer ends of the top sliding seat pipes, positioning folded plates are arranged on the outer wall of the same top sliding seat pipe in a rotating mode through second rotating shaft rods and rotating shaft pipes, folded plate positioning teeth are fixedly arranged at the front ends of the positioning folded plates, and jacking springs are arranged between the rear ends of the positioning folded plates and the top sliding seat pipes.

Preferably, the mounting arm rod slides back and forth between two top sliding seat pipes arranged in a row, two ends of the pushing spring respectively abut against the end portion pushing ring platform and the arm rod end portion pushing disc, and the photovoltaic plate aluminum alloy frame clamping seat plate naturally clamps and draws close to the center of the positioning seat assembly through pushing of the pushing spring.

Preferably, the structure of the second photovoltaic panel lossless installation arm assembly is consistent with that of the first photovoltaic panel lossless installation arm assembly, and the installation mode of the second photovoltaic panel lossless installation arm assembly on the positioning seat assembly is consistent with that of the first photovoltaic panel lossless installation arm assembly on the positioning seat assembly.

Preferably, the wheel body on one side of the driving gear is meshed with the driving rack on the mounting arm rod, the wheel body on the other side of the driving gear is meshed with the driving rack on the nondestructive mounting arm assembly of the second photovoltaic panel, and the nondestructive mounting arm assembly of the first photovoltaic panel and the nondestructive mounting arm assembly of the second photovoltaic panel form a photovoltaic panel mounting structure which is synchronously retracted and unfolded to remove clamping on the positioning seat assembly through the matching of the driving gear and the two driving racks.

Preferably, through the jacking of the jacking spring, the folded plate positioning teeth on the positioning folded plate naturally push and press downwards, and the folded plate positioning teeth on the positioning folded plate and the positioning rack on the mounting arm rod form a jacking and meshing positioning structure.

Preferably, the two ends of the first auxiliary supporting arm and the second auxiliary supporting arm are respectively arranged on the outer sides of the two groups of first photovoltaic panel lossless mounting arm assemblies or the two groups of second photovoltaic panel lossless mounting arm assemblies through shaft pins, and the parallel structures of the first auxiliary supporting arm and the second auxiliary supporting arm are arranged on the outer sides of the two groups of first photovoltaic panel lossless mounting arm assemblies or the two groups of second photovoltaic panel lossless mounting arm assemblies.

Preferably, the first photovoltaic board of assembling and the second photovoltaic board of assembling are all held and are installed between the harmless installation arm component of first photovoltaic board and the harmless installation arm component of second photovoltaic board in the centre of the equal centre gripping of photovoltaic board, through the cooperation of first auxiliary support arm and second auxiliary support arm, the first photovoltaic board that forms the pile formula of assembling between photovoltaic board and the second extends or folding structure of accomodating.

Preferably, the number of the first assembled photovoltaic panels and the number of the second assembled photovoltaic panels in actual use are independently selected according to user use requirements, and a stacking structure between the first assembled photovoltaic panels and the second assembled photovoltaic panels is designed among the photovoltaic panels.

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

1. when the photovoltaic panel lossless clamping installation seat unit is installed and used, a first photovoltaic panel lossless installation arm component and a second photovoltaic panel lossless installation arm component are synchronously arranged on the positioning seat component in a toothed manner, a set of complete photovoltaic panel lossless clamping installation seat unit is formed between a set of first photovoltaic panel lossless installation arm component, a set of second photovoltaic panel lossless installation arm component and a set of positioning seat component, a first assembled photovoltaic panel or a second assembled photovoltaic panel is clamped and limited and installed on a set of complete photovoltaic panel lossless clamping installation seat unit, a first auxiliary support arm and a second auxiliary support arm are arranged on two sides of the two sets of complete photovoltaic panel lossless clamping installation seat units, and a stacked type installation seat structure is formed between the two sets of complete photovoltaic panel clamping installation seat units through the support of the first auxiliary support arm and the second auxiliary support arm.

2. The cooperation through first auxiliary support arm and second auxiliary support arm between the harmless centre gripping mount pad unit of two sets of complete photovoltaic boards forms the mount pad structure of pile up formula, through this kind of structure, can realize the quick expansion when using between the polylith photovoltaic board on the one hand, on the other hand is idle not with when transporting, can adjust into the mode of placing of pile up neatly from top to bottom between the polylith photovoltaic board, leave the safety clearance between the photovoltaic board when piling up the pile up simultaneously, like this, when transportation and custody, the collision and the damage of face can not take place between the polylith photovoltaic board, the security is high and be convenient for transport and custody.

3. The first assembled photovoltaic plate is installed in a limiting mode between a first photovoltaic plate nondestructive installation arm assembly and a second photovoltaic plate nondestructive installation arm assembly, the installation mode is as follows, an installation arm rod slides back and forth between two top sliding seat pipes arranged in a row, the photovoltaic plate installation structure is released by synchronous inward-shrinkage clamping and synchronous outward-expansion of a photovoltaic plate aluminum alloy frame clamping seat plate naturally and draws close to the center of a positioning seat assembly through the cooperation of a driving gear and two driving racks, the first photovoltaic plate nondestructive installation arm assembly and the second photovoltaic plate nondestructive installation arm assembly form a clamping installation structure for the photovoltaic plate, meanwhile, the photovoltaic plate installation structure is released by the pushing of a jacking spring, the folding plate positioning teeth on the positioning folding plate form a jacking meshing positioning structure with the positioning racks on the installation arm rod, the position of the limiting installation can be fixed, the photovoltaic plate is prevented from being pressed down through the natural pushing of the folding plate positioning teeth on the positioning folding plate, and the positioning teeth on the other hand, and the risk of the photovoltaic plate installation can be avoided being influenced by the traditional installation mode of fixing the photovoltaic plate installation arm assembly and the photovoltaic plate installation without damage.

Drawings

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

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is a perspective view of a portion of the structure of the present invention;

FIG. 4 is a perspective view of another perspective of a portion of the structure of the present invention;

FIG. 5 is a perspective view of a complete set of photovoltaic panel lossless clamp mount units of the present invention;

FIG. 6 is an exploded view of a complete photovoltaic panel undamaged clamping mount unit of the present invention;

FIG. 7 is a perspective view of a first photovoltaic panel non-destructive mounting arm assembly of the present invention;

FIG. 8 is a cross-sectional view of a first photovoltaic panel non-destructive mounting arm assembly of the present invention;

FIG. 9 is an exploded view of the anchor assembly of the present invention;

in the figure: 100. a first assembled photovoltaic panel; 200. a second assembled photovoltaic panel; 300. a first photovoltaic panel nondestructive mounting arm assembly; 301. mounting an arm rod; 302. the end part of the arm rod pushes against the disc; 303. the photovoltaic panel aluminum alloy frame clamps the seat plate; 304. a first transverse slot; 305. positioning the rack; 306. a second transverse groove; 307. a drive rack; 400. a second photovoltaic panel nondestructive mounting arm assembly; 500. a docking station assembly; 501. positioning a base table; 502. a first rotating shaft; 503. a drive gear; 504. a U-shaped side frame plate; 505. a top saddle tube; 506. the end part pushes the ring platform; 507. a second rotating shaft; 508. rotating the shaft tube; 509. positioning the folded plate; 510. a flap positioning tooth; 511. the spring is tightly propped; 600. a first auxiliary support arm; 700. a second auxiliary support arm; 800. pushing the spring.

Detailed Description

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

Referring to fig. 1-9, the present invention provides the following technical solutions: a photovoltaic assembly comprises a first assembled photovoltaic plate 100 and a second assembled photovoltaic plate 200, the first assembled photovoltaic plate 100 is tightly installed between a first photovoltaic plate lossless installation arm assembly 300 and a second photovoltaic plate lossless installation arm assembly 400, the first photovoltaic plate lossless installation arm assembly 300 and the second photovoltaic plate lossless installation arm assembly 400 are synchronously and movably installed on a positioning seat assembly 500 in a toothed manner, a set of first photovoltaic plate lossless installation arm assembly 300, a set of second photovoltaic plate lossless installation arm assembly 400 and a set of positioning seat assembly 500 form a set of complete photovoltaic plate lossless clamping installation seat unit, two sides of the two sets of complete photovoltaic plate lossless clamping installation seat unit are respectively provided with a first auxiliary support arm 600 and a second auxiliary support arm 700, a stacked installation seat structure is formed between the two sets of complete photovoltaic plate lossless clamping installation seat units, the end part of a rod of the first photovoltaic plate lossless installation arm assembly 300 is sleeved with a jacking spring 800, two ends of the first auxiliary support arm 600 and the second auxiliary support arm 700 are respectively arranged on the outer side of the first photovoltaic plate lossless installation arm assembly 300 or the second photovoltaic plate lossless installation arm assembly 400 through a shaft pin, the first assembled photovoltaic plate lossless installation arm assembly 100 and the second photovoltaic plate lossless installation arm assembly 400, the second photovoltaic plate lossless installation arm assembly 300 and the second photovoltaic plate lossless installation arm assembly 400 are arranged in parallel with the first supporting arm assembly 200, the actual using number of the first assembled photovoltaic panel 100 and the second assembled photovoltaic panel 200 is selected according to the using requirement of a user, and a stacking structure between the first assembled photovoltaic panel 100 and the second assembled photovoltaic panel 200 is designed among a plurality of photovoltaic panels;

the first photovoltaic panel nondestructive mounting arm assembly 300 comprises a mounting arm rod 301, two ends of the mounting arm rod 301 are respectively provided with an arm rod end pushing disc 302 and a photovoltaic panel aluminum alloy frame clamping base plate 303, two sides of the mounting arm rod 301 are respectively provided with a first transverse groove 304 and a second transverse groove 306, a positioning rack 305 is arranged in the first transverse groove 304, and a driving rack 307 is arranged in the second transverse groove 306;

the positioning seat assembly 500 comprises a positioning base platform 501, a first rotating shaft rod 502 is rotatably arranged at the top of the positioning base platform 501 through a bearing seat, a driving gear 503 is fixedly arranged at the top of the first rotating shaft rod 502, U-shaped side frame plates 504 are fixedly arranged at two sides of the positioning base platform 501, top sliding seat pipes 505 are fixedly arranged at two ends of the top of the U-shaped side frame plates 504, an end pushing ring platform 506 is fixedly arranged at the outer end of one top sliding seat pipe 505, a positioning flap 509 is rotatably arranged on the outer wall of the same top sliding seat pipe 505 through a second rotating shaft rod 507 and a rotating shaft pipe 508, a flap positioning tooth 510 is fixedly arranged at the front end of the positioning flap 509, a pushing spring 511 is arranged between the rear end of the positioning flap 509 and the top sliding seat pipe 505, an installation arm 301 is arranged between the two top sliding seat pipes 505 arranged in a row in a reciprocating manner, two ends of the pushing spring 800 respectively abut against the end pushing ring platform 506 and the arm end pushing disc 302, through the pushing of the pushing spring 800, the photovoltaic panel aluminum alloy frame clamping seat plate 303 is naturally clamped and drawn close to the center of the positioning seat assembly 500, the structure of the second photovoltaic panel nondestructive mounting arm assembly 400 is consistent with the structure of the first photovoltaic panel nondestructive mounting arm assembly 300, the mounting mode of the second photovoltaic panel nondestructive mounting arm assembly 400 on the positioning seat assembly 500 is consistent with the mounting mode of the first photovoltaic panel nondestructive mounting arm assembly 300 on the positioning seat assembly 500, a wheel body on one side of the driving gear 503 is meshed with the driving rack 307 on the mounting arm lever 301, and a wheel body on the other side of the driving gear 503 is meshed with the driving rack on the second photovoltaic panel nondestructive mounting arm assembly 400, so that the first photovoltaic panel nondestructive mounting arm assembly 300 and the second photovoltaic panel nondestructive mounting arm assembly 400 form a photovoltaic panel mounting structure with synchronous retraction clamping and synchronous abduction releasing clamping on the positioning seat assembly 500 through the matching of the driving gear 503 and the two driving racks, by the urging of the urging spring 511, the flap positioning teeth 510 on the positioning flap 509 are naturally urged downward, and the flap positioning teeth 510 on the positioning flap 509 and the positioning rack 305 on the mounting arm 301 form an urging and meshing positioning structure.

According to another embodiment of the invention, the bottom of the positioning seat assembly 500 can be provided with a telescopic supporting leg, the structure of the telescopic supporting leg is similar to that of a traditional scissor arm, the bottom of the telescopic supporting leg is provided with a ground inserting pile or a mounting hole seat plate structure, and overhead laying of the photovoltaic panel in use can be realized through the arranged telescopic supporting leg.

The working principle and the using process of the invention are as follows: when the invention is installed and used, the first photovoltaic panel lossless installation arm assembly 300 and the second photovoltaic panel lossless installation arm assembly 400 are synchronously toothed and installed on the positioning seat assembly 500, a set of complete photovoltaic panel lossless clamping installation seat units are formed between a set of first photovoltaic panel lossless installation arm assembly 300, a set of second photovoltaic panel lossless installation arm assembly 400 and a set of positioning seat assembly 500, the first assembled photovoltaic panel 100 or the second assembled photovoltaic panel 200 are clamped and limited and installed on a set of complete photovoltaic panel lossless clamping installation seat units, the first auxiliary support arm 600 and the second auxiliary support arm 700 are arranged on two sides of the two sets of complete photovoltaic panel lossless clamping installation seat units, and a stacked installation seat structure is formed between the two sets of complete photovoltaic panel lossless clamping installation seat units through the support of the first auxiliary support arm 600 and the second auxiliary support arm 700, so that the assembly and use of a plurality of photovoltaic panels can be realized, on one hand, a large number of steel frames for laying photovoltaic panels can be saved, on the other hand, the laying efficiency of the photovoltaic panels can be ensured, a stacked mounting seat structure is formed between two sets of complete photovoltaic panel lossless clamping mounting seat units through the matching of the first auxiliary supporting arm 600 and the second auxiliary supporting arm 700, on the one hand, the rapid unfolding of a plurality of photovoltaic panels during use can be realized, on the other hand, when the photovoltaic panels are not used and are transported, the photovoltaic panels can be adjusted to be in a vertically stacked placing mode, and meanwhile, a safety gap is reserved between the photovoltaic panels during stacking, so that when the photovoltaic panels are transported and stored, the collision and damage of the panel surfaces cannot happen between the photovoltaic panels, the safety is high, the transportation and the storage are convenient, the first assembled photovoltaic panel 100 is installed and limited between the first photovoltaic panel lossless mounting arm assembly 300 and the second photovoltaic panel lossless mounting arm assembly 400, the installation mode is as follows, the installation arm rod 301 slides back and forth between two top sliding seat pipes 505 arranged in a row, through the pushing of the pushing spring 800, the photovoltaic panel aluminum alloy frame clamping base plate 303 naturally clamps and draws close to the center of the positioning seat assembly 500, through the cooperation of the driving gear 503 and the two driving racks, the photovoltaic panel aluminum alloy frame clamping base plates on the first photovoltaic panel nondestructive installation arm assembly 300 and the second photovoltaic panel nondestructive installation arm assembly 400 form a photovoltaic panel clamping installation structure for synchronously clamping in and synchronously unfolding and removing the clamping on the positioning seat assembly 500, through the mode, the photovoltaic panel aluminum alloy frame clamping base plates on the first photovoltaic panel nondestructive installation arm assembly 300 and the second photovoltaic panel nondestructive installation arm assembly 400 form a photovoltaic panel clamping installation structure for the photovoltaic panel, meanwhile, through the pushing of the pushing spring 511, the folded plate positioning teeth 510 on the positioning folded plate 509 naturally push and press downwards, the folded plate positioning teeth 510 on the positioning folded plate 509 and the positioning racks 305 on the installation arm rod 301 form a pushing and meshing positioning structure, through the mode, the position fixing of limiting clamping installation can be realized, the photovoltaic panel can be prevented from being damaged, and the photovoltaic panel installation can be convenient for installation, and the photovoltaic panel can be prevented from being shaken in the other aspects, and the installation risk of the photovoltaic panel installation can be avoided when the photovoltaic panel is caused by the traditional fixing bolt.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Photovoltaic module, including first photovoltaic board (100) of assembling and second photovoltaic board (200) of assembling, its characterized in that: the first assembled photovoltaic panel (100) is tightly clamped between a first photovoltaic panel lossless installation arm assembly (300) and a second photovoltaic panel lossless installation arm assembly (400), the first photovoltaic panel lossless installation arm assembly (300) and the second photovoltaic panel lossless installation arm assembly (400) are synchronously toothed and installed on the positioning seat assembly (500), a set of complete photovoltaic panel lossless clamping installation seat units are formed among a set of first photovoltaic panel lossless installation arm assembly (300), a set of second photovoltaic panel lossless installation arm assembly (400) and a set of positioning seat assembly (500), first auxiliary support arms (600) and second auxiliary support arms (700) are arranged on two sides of each set of complete photovoltaic panel lossless clamping installation seat unit, a stacked installation seat structure is formed between the two sets of complete photovoltaic panel lossless clamping installation seat units, and a pushing spring (800) is sleeved at the end part of an arm rod of the first photovoltaic panel lossless installation arm assembly (300);

the first photovoltaic panel nondestructive mounting arm assembly (300) comprises a mounting arm rod (301), an arm rod end pushing disc (302) and a photovoltaic panel aluminum alloy frame clamping base plate (303) are arranged at two ends of the mounting arm rod (301) respectively, a first transverse groove (304) and a second transverse groove (306) are formed in two sides of the mounting arm rod (301) respectively, a positioning rack (305) is arranged in the first transverse groove (304), and a driving rack (307) is arranged in the second transverse groove (306);

the positioning seat assembly (500) comprises a positioning base platform (501), a first rotating shaft rod (502) is arranged at the top of the positioning base platform (501) in a rotating mode through a bearing seat, a driving gear (503) is fixedly arranged at the top of the first rotating shaft rod (502), U-shaped side frame plates (504) are fixedly arranged on two sides of the positioning base platform (501), top sliding seat pipes (505) are fixedly arranged at two ends of the tops of the U-shaped side frame plates (504), one end of each top sliding seat pipe (505) is fixedly provided with an end pushing ring platform (506), a positioning folded plate (509) is arranged on the outer wall of the same top sliding seat pipe (505) in a rotating mode through a second rotating shaft rod (507) and a rotating shaft pipe (508), a folded plate positioning tooth (510) is fixedly arranged at the front end of the positioning folded plate (509), and a pushing spring (511) is arranged between the rear end of the positioning folded plate (509) and the top sliding seat pipes (505).

2. The photovoltaic module of claim 1, wherein: the mounting arm rod (301) slides back and forth between two top sliding seat tubes (505) arranged in one row, two ends of the pushing spring (800) are respectively abutted between the end pushing ring platform (506) and the arm rod end pushing disc (302), and through pushing of the pushing spring (800), the photovoltaic panel aluminum alloy frame clamping seat plate (303) is naturally clamped and drawn close to the center of the positioning seat assembly (500).

3. The photovoltaic module of claim 1, wherein: the structure of the second photovoltaic panel nondestructive installation arm assembly (400) is consistent with that of the first photovoltaic panel nondestructive installation arm assembly (300), and the installation mode of the second photovoltaic panel nondestructive installation arm assembly (400) on the positioning seat assembly (500) is consistent with that of the first photovoltaic panel nondestructive installation arm assembly (300) on the positioning seat assembly (500).

4. The photovoltaic module of claim 1, wherein: and a wheel body on one side of the driving gear (503) is meshed with a driving rack (307) on the mounting arm rod (301), and a wheel body on the other side of the driving gear (503) is meshed with a driving rack on the second photovoltaic panel lossless mounting arm assembly (400), so that the first photovoltaic panel lossless mounting arm assembly (300) and the second photovoltaic panel lossless mounting arm assembly (400) form a photovoltaic panel mounting structure with synchronous retraction clamping and synchronous abduction removal clamping on the positioning seat assembly (500) through the matching of the driving gear (503) and the two driving racks.

5. The photovoltaic module of claim 1, wherein: through the jacking of the jacking spring (511), the flap positioning teeth (510) on the positioning flap (509) naturally push and press downwards, and the flap positioning teeth (510) on the positioning flap (509) and the positioning racks (305) on the mounting arm rods (301) form a jacking and meshing positioning structure.

6. The photovoltaic module of claim 1, wherein: the two ends of the first auxiliary supporting arm (600) and the second auxiliary supporting arm (700) are respectively arranged on the outer sides of the two groups of first photovoltaic panel lossless mounting arm assemblies (300) or the two groups of second photovoltaic panel lossless mounting arm assemblies (400) through shaft pins, and the parallel structures of the first auxiliary supporting arm (600) and the second auxiliary supporting arm (700) are arranged on the outer sides of the two groups of first photovoltaic panel lossless mounting arm assemblies (300) or the two groups of second photovoltaic panel lossless mounting arm assemblies (400).

7. The photovoltaic module of claim 1, wherein: first assemble photovoltaic board (100) and second and assemble photovoltaic board (200) and all the centre gripping spacing install between first photovoltaic board can't harm installation arm subassembly (300) and second photovoltaic board can't harm installation arm subassembly (400), through the cooperation of first auxiliary stay arm (600) and second auxiliary stay arm (700), first assemble photovoltaic board (100) and second and assemble the photovoltaic board that forms the pile up formula between photovoltaic board (200) and extend or fold and accomodate the structure.

8. The photovoltaic module of claim 1, wherein: the actual use number of the first assembled photovoltaic panel (100) and the second assembled photovoltaic panel (200) is selected independently according to the use requirements of users, and a stacking structure between the first assembled photovoltaic panel (100) and the second assembled photovoltaic panel (200) is designed among the photovoltaic panels.

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