CN217721066U - Splicing assembly for connecting photovoltaic modules - Google Patents

Abstract

The utility model discloses a concatenation subassembly for photovoltaic module connects usefulness, include two supports and be used for carrying out the fixed installation part of concatenation to the photovoltaic board, the installation part is including seting up two slip through-holes in support one side respectively, locating two sliding blocks of slip through-hole one side, seting up the sliding tray in sliding block one side, locating the screw rod of sliding tray one side and locating the sliding plate that sliding tray one side just is located the screw rod outside, the utility model discloses a set up support, sliding tray, screw rod and connecting rod, the screw rod drives the sliding plate and slides in the sliding tray, and the sliding plate drives the pressure plate through the connecting rod and carries out the lapse, makes the clamp plate carry out the hasp to the photovoltaic board on the support fixed, improves the convenience of concatenation fixed photovoltaic board, has solved that current equipment can not be convenient and splices fixedly to the photovoltaic board of equidimension, leads to the photovoltaic board concatenation installation operation comparatively loaded down easily, influences the problem of the fixed practicality of photovoltaic board installation.

Description

Splicing assembly for connecting photovoltaic modules

Technical Field

The utility model belongs to the technical field of the photovoltaic board, especially, relate to a concatenation subassembly that is used for photovoltaic module to connect usefulness.

Background

Solar photovoltaic systems, also called photovoltaics, refer to facilities for converting solar energy into direct current electrical energy using the photovoltaic effect of photovoltaic semiconductor materials, the core of which is a solar panel, the semiconductor materials used for generating electricity mainly comprising: monocrystalline silicon, polycrystalline silicon, amorphous silicon and cadmium telluride etc. prior art is not good with the fixed effect of photovoltaic board concatenation installation, and the operation is not convenient, and the problem that prior art exists is: the existing equipment can not be used for conveniently splicing and fixing the photovoltaic panels with different sizes, so that the splicing, installation and operation of the photovoltaic panels are complex, and the practicability of installation and fixation of the photovoltaic panels is influenced.

SUMMERY OF THE UTILITY MODEL

The problem to prior art exists, the utility model provides a concatenation subassembly for photovoltaic module connects usefulness possesses and to splice fixedly to unidimensional work piece, improves the advantage of the fixed practicality of photovoltaic ann installation, has solved that existing equipment can not be convenient splices fixedly to unidimensional photovoltaic board, leads to the photovoltaic board to splice installation operation comparatively loaded down with trivial details easily, influences the problem of the fixed practicality of photovoltaic board installation.

The utility model discloses a realize like this, a concatenation subassembly for photovoltaic module connects usefulness, include two supports and be used for carrying out the fixed installation component of concatenation to the photovoltaic board, the installation component is including seting up two slip through-holes in support one side respectively, locating two sliding blocks of slip through-hole one side, seting up the sliding tray in sliding tray one side, locating the screw rod of sliding tray one side, locating sliding tray one side and being located the sliding plate in the screw rod outside, locating the connecting rod of sliding plate one side, locating the clamp plate of connecting rod one side and being used for carrying out the hasp part fixed to the sliding block, sliding block and slip through-hole sliding connection, the screw rod runs through the sliding plate and rather than the spiro union, the screw rod rotates with the sliding block to be connected.

As the utility model discloses preferred, the locking part is including offering in sliding block one side and being located the mounting groove of sliding tray one side, locating the backing plate of mounting groove one side, locating the slide bar of backing plate one side, the cover locates the spring in the slide bar outside, locate the movable block of slide bar one end, locate the locking piece of movable block one side, offer in the shift hole of slide hole opposite side and offer respectively in a plurality of hasp through-holes of shift hole both sides, the locking piece is the rectangle with hasp through-hole cross-section, backing plate and mounting groove sliding connection.

As the utility model discloses preferred, the clamp plate bottom is equipped with a plurality of shell fragments of align to grid, and is a plurality of the protection of shell fragment bottom is filled up, the shell fragment cross-section is the hexagonal shape.

As the utility model discloses preferred, shell fragment one side is equipped with the elastic plate, the elastic plate cross-section is the zigzag.

As the utility model discloses it is preferred, the sliding block bottom is equipped with the guide block, the guide way has been seted up to the sliding through hole bottom, guide block and guide way sliding connection.

As the utility model discloses preferred, hasp piece top is equipped with the drive piece.

As the utility model discloses preferred, the mounting groove cross-section is "protruding" font, the backing plate diameter is greater than the slide bar diameter.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a set up support, slip through-hole, sliding block, sliding tray, screw rod, sliding plate, connecting rod, clamp plate and hasp part, sliding block and slip through-hole sliding connection, the screw rod runs through the sliding plate and rather than the spiro union, the screw rod rotates with the sliding block to be connected, makes the sliding block slide in the slip through-hole according to photovoltaic board size, rotates the screw rod, makes the screw rod drive the sliding plate and slides in the sliding tray, and the sliding plate drives the clamp plate through the connecting rod and carries out the lapse, makes the clamp plate carry out the hasp to the photovoltaic board on the support fixed, improves the convenience of the fixed photovoltaic board of concatenation.

2. The utility model discloses a set up mounting groove, backing plate, slide bar, spring, movable block, hasp piece, removal through-hole and hasp through-hole, the hasp piece is the rectangle with hasp groove cross-section, backing plate and mounting groove sliding connection, spring can push down the backing plate, then the backing plate drives the slide bar and carries out the downstream, then in the hasp piece that the slide bar drove on the movable block got into the hasp through-hole on the removal through-hole, can make the hasp piece carry out the hasp to the sliding block fixed, improve the stability of fixed sliding block.

3. The utility model discloses a set up shell fragment and protection and fill up, the shell fragment cross-section is hexagonal, can make the shell fragment push down the protection pad, can improve the stability that the clamp plate carried out pushing down to the photovoltaic board.

4. The utility model discloses a set up the elastic plate, the elastic plate cross-section is the zigzag, can make the elastic plate support the shell fragment, can improve the intensity that the elastic plate supported the shell fragment.

5. The utility model discloses a set up guide block and guide way, guide block and guide way sliding connection can make the guide block lead and spacing to the sliding block, can prevent that the sliding block from breaking away from the slip through-hole.

6. The utility model discloses a setting is driven the piece, drives the piece and drives the hasp piece and carry out the rebound, then the hasp piece breaks away from the hasp through-hole, and in the hasp piece drove the movable block and gets into the removal through-hole simultaneously, can be convenient for drive the piece and drive the sliding block and slide in the slip through-hole.

7. The utility model discloses a set up the mounting groove cross-section is "protruding" font, the backing plate diameter is greater than the slide bar diameter, can make and prevent that the backing plate from breaking away from the mounting groove, improves the backing plate and drives the gliding stability of slide bar in the mounting groove.

Drawings

Fig. 1 is a schematic structural diagram provided in an embodiment of the present invention;

fig. 2 is a left side sectional view provided by an embodiment of the present invention;

fig. 3 is an enlarged view of a portion a in fig. 2 according to an embodiment of the present invention.

In the figure: 1. a support; 11. a sliding through hole; 12. a slider; 13. a sliding groove; 14. a screw; 15. a sliding plate; 16. a connecting rod; 17. pressing a plate; 18. mounting grooves; 19. a base plate; 20. a slide bar; 21. a spring; 22. a moving block; 23. a lock block; 24. moving the through hole; 25. a lock catch through hole; 26. a spring plate; 27. a protective pad; 28. an elastic plate; 29. a guide block; 30. a guide groove; 31. the block is driven.

Detailed Description

For further understanding the contents, features and effects of the present invention, the following embodiments will be illustrated in detail with reference to the accompanying drawings.

The structure of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 3, the embodiment of the utility model provides a splice assembly for photovoltaic module connects usefulness, include two supports 1 and be used for splicing fixed installation component to the photovoltaic board, installation component is including seting up two slip through-hole 11 in support 1 one side respectively, locating two sliding block 12 of slip through-hole 11 one side, seting up sliding tray 13 in sliding tray 12 one side, locating screw rod 14 of sliding tray 13 one side, locating sliding tray 13 one side and being located the sliding plate 15 in the screw rod 14 outside, locating connecting rod 16 of sliding plate 15 one side, locating the clamp plate 17 of connecting rod 16 one side and being used for carrying out the hasp part fixed to sliding block 12, sliding block 12 and slip through-hole 11 sliding connection, screw rod 14 runs through sliding plate 15 and rather than the spiro union, screw rod 14 rotates with sliding block 12 to be connected.

Referring to fig. 3, the locking member includes an installation groove 18 disposed on one side of the sliding block 12 and located on one side of the sliding groove 13, a backing plate 19 disposed on one side of the installation groove 18, a sliding rod 20 disposed on one side of the backing plate 19, a spring 21 sleeved on the outer side of the sliding rod 20, a moving block 22 disposed at one end of the sliding rod 20, a locking block 23 disposed on one side of the moving block 22, a moving through hole 24 disposed on the other side of the sliding through hole 11, and a plurality of locking through holes 25 disposed on two sides of the moving through hole 24, where the cross sections of the locking block 23 and the locking groove are rectangular, and the backing plate 19 is slidably connected to the installation groove 18.

The scheme is adopted: through setting up mounting groove 18, backing plate 19, slide bar 20, spring 21, movable block 22, hasp piece 23, removal through-hole 24 and hasp through-hole 25, hasp piece 23 is the rectangle with hasp groove cross-section, backing plate 19 and mounting groove 18 sliding connection, spring 21 can push down backing plate 19, then backing plate 19 drives slide bar 20 and carries out the downstream, then slide bar 20 drives in hasp piece 23 on the movable block 22 gets into the hasp through-hole 25 on the removal through-hole 24, can make hasp piece 23 carry out the hasp fixed to sliding block 12, improves the stability of fixed sliding block 12.

Referring to fig. 3, the bottom of the pressing plate 17 is provided with a plurality of elastic pieces 26 which are uniformly arranged, and a protective pad 27 is arranged at the bottom of the plurality of elastic pieces 26, wherein the section of each elastic piece 26 is hexagonal.

The scheme is adopted: through setting up shell fragment 26 and protection pad 27, shell fragment 26 cross-section is the hexagonal prism, can make shell fragment 26 push down protection pad 27, can improve the stability that clamp plate 17 pushed down the photovoltaic board.

Referring to fig. 3, an elastic plate 28 is disposed on one side of the elastic sheet 26, and the cross section of the elastic plate 28 is zigzag.

Adopt above-mentioned scheme: by providing the elastic plate 28, the section of the elastic plate 28 is zigzag, so that the elastic plate 28 can support the elastic sheet 26, and the strength of the elastic sheet 26 supported by the elastic plate 28 can be improved.

Referring to fig. 3, a guide block 29 is disposed at the bottom of sliding block 12, a guide groove 30 is disposed at the bottom of sliding through hole 11, and guide block 29 is slidably connected to guide groove 30.

Adopt above-mentioned scheme: by providing guide block 29 and guide groove 30, guide block 29 and guide groove 30 are slidably connected, so that guide block 29 can guide and limit slide block 12, and slide block 12 can be prevented from coming off slide through hole 11.

Referring to fig. 3, the top of the locking block 23 is provided with a driving block 31.

The scheme is adopted: through setting up drive piece 31, drive piece 31 drives hasp piece 23 and upwards removes, then hasp piece 23 breaks away from hasp through-hole 25, and hasp piece 23 drives movable block 22 and gets into in the removal through-hole 24 simultaneously, can be convenient for drive piece 31 and drive sliding block 12 and slide in sliding through-hole 11.

Referring to fig. 3, the mounting groove 18 has a cross section in a shape of a letter "convex", and the diameter of the pad plate 19 is larger than that of the slide bar 20.

Adopt above-mentioned scheme: through setting up the mounting groove 18 cross-section is "protruding" font, backing plate 19 diameter is greater than the slide bar 20 diameter, can make and prevent that backing plate 19 from breaking away from mounting groove 18, improves backing plate 19 and drives the gliding stability of slide bar 20 in mounting groove 18.

The utility model discloses a theory of operation:

when the photovoltaic module is used, firstly, the sliding block 12 slides in the sliding through hole 11 according to the size of the photovoltaic panel, at this time, the driving block 31 drives the locking block 23 to move upwards, then the locking block 23 is separated from the locking through hole 25, meanwhile, the locking block 23 drives the moving block 22 to enter the moving through hole 24, at the same time, the driving block 31 drives the sliding block 12 to slide in the sliding through hole 11, at this time, the sliding block 12 drives the guide block 29 to slide in the guide groove 30, then the screw 14 is rotated, at this time, the screw 14 drives the sliding plate 15 to slide in the sliding groove 13, then the sliding plate 15 drives the pressing plate 17 to slide downwards through the connecting rod 16, at this time, the pressing plate 17 performs locking and fixing on the photovoltaic panel on the support 1, then the elastic plate 28 supports the elastic plate 26, at this time, the elastic plate 26 presses down the protective pad 27, then the pressing plate 17 presses down and fixes the photovoltaic panel, then the driving block 31 is released, at this time, the spring 21 presses down the backing plate 19 drives the sliding rod 20 to move downwards, then the sliding rod 20 drives the locking block 23 on the moving block 22 to enter the locking through hole 25 on the locking and fixing block 23.

In summary, the following steps: this a concatenation subassembly for photovoltaic module connects usefulness, through setting up support 1, sliding through hole 11, sliding block 12, sliding tray 13, screw rod 14, sliding plate 15, connecting rod 16, clamp plate 17 and hasp part, make sliding block 12 slide in sliding through hole 11 according to photovoltaic board size, rotate screw rod 14, make screw rod 14 drive sliding plate 15 slide in sliding tray 13, sliding plate 15 drives clamp plate 17 through connecting rod 16 and carries out the lapse, it is fixed to make clamp plate 17 carry out the hasp to the photovoltaic board on the support 1, improve the convenience of the fixed photovoltaic board of concatenation, it can not be convenient to splice the photovoltaic board of equidimension fixedly to have solved current equipment, it is comparatively loaded down with trivial details to lead to photovoltaic board concatenation installation operation easily, influence the problem of the fixed practicality of photovoltaic board installation.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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 (7)

1. The utility model provides a concatenation subassembly for photovoltaic module connects usefulness, includes two supports (1) and is used for carrying out the installation component that splices fixedly to the photovoltaic board which characterized in that: the mounting component comprises two sliding through holes (11) respectively arranged on one side of the support (1), two sliding blocks (12) arranged on one side of the sliding through holes (11), a sliding groove (13) arranged on one side of the sliding blocks (12), a screw rod (14) arranged on one side of the sliding groove (13), a sliding plate (15) arranged on one side of the sliding groove (13) and positioned on the outer side of the screw rod (14), a connecting rod (16) arranged on one side of the sliding plate (15), a pressing plate (17) arranged on one side of the connecting rod (16) and a locking component used for fixing the sliding blocks (12), the sliding blocks (12) are in sliding connection with the sliding through holes (11), the screw rod (14) penetrates through the sliding plate (15) and is in threaded connection with the sliding plate, and the screw rod (14) is in rotating connection with the sliding blocks (12).

2. The splice assembly for photovoltaic assembly connection of claim 1, wherein: the lock catch component comprises a mounting groove (18) which is formed in one side of the sliding block (12) and located on one side of the sliding groove (13), a base plate (19) which is formed in one side of the mounting groove (18), a sliding rod (20) which is formed in one side of the base plate (19), a spring (21) which is sleeved on the outer side of the sliding rod (20), a moving block (22) which is formed in one end of the sliding rod (20), a lock catch block (23) which is formed in one side of the moving block (22), a moving through hole (24) which is formed in the other side of the sliding through hole (11), and a plurality of lock catch through holes (25) which are formed in two sides of the moving through hole (24) respectively, the cross sections of the lock catch block (23) and the lock catch through hole (25) are rectangular, and the base plate (19) is connected with the mounting groove (18) in a sliding mode.

3. The splice assembly for photovoltaic assembly connection of claim 1, wherein: the bottom of the pressing plate (17) is provided with a plurality of elastic sheets (26) which are uniformly arranged, the bottom of each elastic sheet (26) is provided with a protective pad (27), and the cross section of each elastic sheet (26) is hexagonal.

4. A splice assembly for joining photovoltaic modules according to claim 3 wherein: an elastic plate (28) is arranged on one side of the elastic sheet (26), and the section of the elastic plate (28) is Z-shaped.

5. The splice assembly for photovoltaic assembly connection of claim 1, wherein: sliding block (12) bottom is equipped with guide block (29), guide way (30) have been seted up to slip through-hole (11) bottom, guide block (29) and guide way (30) sliding connection.

6. A splice assembly for joining photovoltaic modules according to claim 2 wherein: the top of the lock catch block (23) is provided with a driving block (31).

7. A splice assembly for joining photovoltaic modules according to claim 2 wherein: the section of the mounting groove (18) is in a convex shape, and the diameter of the backing plate (19) is larger than that of the sliding rod (20).

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