CN219592349U - Frame structure and photovoltaic module - Google Patents

Abstract

The utility model provides a frame structure and a photovoltaic assembly, wherein the frame structure comprises a plurality of frame bodies and a plurality of connecting parts, each frame body is provided with a splicing groove for splicing parts of the connecting parts, each splicing groove is provided with a first groove wall and a second groove wall which are opposite and spaced, one side of each splicing groove is provided with a notch, the first groove wall is provided with a first limiting part, the second groove wall is provided with a second limiting part, and the first limiting part and the second limiting part are opposite and spaced; the connecting component is provided with a first matching part and a second matching part which are connected with each other, the first matching part and the second matching part are arranged relatively, the first matching part can be matched and limited with one side of the first limiting part, which is away from the notch, and the second matching part can be matched and limited with one side of the second limiting part, which is away from the notch. According to the frame structure and the photovoltaic module, the possibility that the connecting part is separated from the frame body due to distortion of the frame body can be reduced, and therefore the load reliability of the frame structure and the photovoltaic module can be improved.

Description

Frame structure and photovoltaic module

Technical Field

The utility model relates to the technical field of photovoltaics, in particular to a frame structure and a photovoltaic module.

Background

The photovoltaic module comprises a photovoltaic cell and a frame structure, wherein the photovoltaic cell is used for photovoltaic power generation, the frame structure is annular and used for bearing the photovoltaic cell and improving the mechanical structural strength of the photovoltaic module, the frame structure comprises a plurality of frame bodies and a plurality of connecting parts (for example, corner codes), two adjacent frame bodies share one connecting part and are connected through the shared connecting part, and the plurality of frame bodies are connected through the plurality of connecting parts.

However, in practical application, when the size of the photovoltaic module is larger, the frame body can generate larger distortion due to larger load received by the frame structure, and the connecting component can be separated from the frame body due to the distortion of the frame body, so that the photovoltaic module is damaged.

Disclosure of Invention

The utility model aims to at least solve one of the technical problems in the prior art, and provides a frame structure and a photovoltaic module, which can reduce the possibility that a connecting part is separated from a frame body due to the distortion of the frame body, so that the load reliability of the frame structure and the photovoltaic module can be improved.

The utility model provides a frame structure for achieving the purpose of the utility model, which comprises a plurality of frame bodies and a plurality of connecting parts, wherein the frame bodies are respectively provided with a splicing groove for splicing parts of the connecting parts, each splicing groove is provided with a first groove wall and a second groove wall which are opposite and spaced, one side of each splicing groove is provided with a notch, the first groove wall is provided with a first limiting part, the second groove wall is provided with a second limiting part, and the first limiting part and the second limiting part are opposite and spaced;

the connecting component is provided with a first matching part and a second matching part which are mutually connected, the first matching part and the second matching part are oppositely arranged, the first matching part can be matched and limited with one side of the first limiting part, which is away from the notch, and the second matching part can be matched and limited with one side of the second limiting part, which is away from the notch.

Optionally, the first matching portion has a first matching section and a first abutting section, the first matching section can abut against one side of the first limiting portion, which is away from the notch, the first abutting section is connected with the first matching section, and is bent relative to the first matching section and extends towards the notch, and the first abutting section can abut against one side of the first limiting portion, which faces towards the second limiting portion;

and/or, the second matching part is provided with a second matching section and a second abutting section, the second matching section can abut against one side of the second limiting part, which is away from the notch, the second abutting section is connected with the second matching section and bends towards the notch for extending relative to the second matching section, and the second abutting section can abut against one side of the second limiting part towards the first limiting part.

Optionally, the first abutment section and the second abutment section both extend out of the slot and are connected to each other.

Optionally, the first mating segment is parallel to the first limiting portion, and the first abutting segment is perpendicular to the first mating segment;

and/or the second matching section is parallel to the second limiting part, and the second abutting section is perpendicular to the second matching section.

Optionally, the first limiting part is disposed at an end of the first slot wall located at the slot opening, and protrudes toward the second slot wall relative to the first slot wall;

and/or the second limiting part is arranged at the end part of the second groove wall, which is positioned at the notch, and protrudes towards the first groove wall relative to the second groove wall.

Optionally, the first limiting portion includes a first bending section and a second bending section, the first bending section is connected with the first groove wall, bends relative to the first groove wall and extends towards the second groove wall, and the second bending section is connected with the first bending section, and extends relative to the first bending section towards a direction away from the second groove wall.

Optionally, the frame body is further provided with an assembly groove for assembling the photovoltaic cell, and the assembly groove and the plugging groove are respectively positioned at two sides of the first groove wall;

the first limiting part is provided with a glue overflow groove communicated with the assembly groove.

Optionally, the first limiting part further includes a third bending section, the first bending section and the second bending section are arranged at intervals, the first bending section is connected with the second bending section through the third bending section, the third bending section is bent relative to the first bending section and the second bending section, and the first bending section, the second bending section and the third bending section form the glue overflow groove.

Optionally, the first bending section is perpendicular to the first groove wall, the second bending section is perpendicular to the first bending section, and the third bending section is perpendicular to the second bending section.

The utility model further provides a photovoltaic module, which comprises a photovoltaic cell and the frame structure, wherein the photovoltaic cell is loaded in the frame structure and is used for photovoltaic power generation.

The utility model has the following beneficial effects:

according to the frame structure provided by the utility model, the first matching part of the connecting part can be in limit matching with one side, deviating from the notch, of the first limit part of the frame body, and the second matching part of the connecting part can be in limit matching with one side, deviating from the notch, of the second limit part of the frame body, so that two opposite sides of the connecting part can be limited by the frame body, the frame body can limit the connecting part in the inserting groove from two opposite sides of the connecting part, the possibility that the connecting part is separated from the frame body due to distortion of the frame body can be reduced, and the load reliability of the frame structure and the photovoltaic assembly can be further improved.

According to the photovoltaic module, the photovoltaic cell is arranged in the frame structure, so that the load reliability of the photovoltaic module can be improved.

Drawings

Fig. 1 is a schematic perspective view of a frame body according to an embodiment of the present utility model;

fig. 2 is a schematic perspective view of a connecting component according to an embodiment of the present utility model;

fig. 3 is a schematic side view of a frame body according to an embodiment of the present utility model;

FIG. 4 is a schematic side view of a connecting component according to an embodiment of the present utility model when the connecting component is mated with a frame body;

fig. 5 is a schematic perspective view of another frame body according to an embodiment of the present utility model;

FIG. 6 is a schematic side view of another frame body according to an embodiment of the present utility model;

FIG. 7 is a schematic side view of a connecting component according to an embodiment of the present utility model when the connecting component is mated with another frame body;

reference numerals illustrate:

1-a frame body; 11-a plug-in groove; 12-a first groove wall; 13-a second groove wall; 14-groove bottom;

15-notch; 16-a first limit part; 161-a first bending section; 162-a second bending section; 163-third bending section; 164-glue overflow groove; 17-a second limit part; 18-an assembly groove; 19-a third groove wall; 2-connecting parts; 21-a first mating portion; 211-a first mating section; 212-a first abutment section; 22-a second mating portion; 221-a second mating segment; 222-a second abutment section; 23-connecting segment; 24-a first attachment section; 25-a second attachment section.

Detailed Description

In order to enable those skilled in the art to better understand the technical scheme of the utility model, the frame structure and the photovoltaic module provided by the utility model are described in detail below with reference to the accompanying drawings.

As shown in fig. 1-4, an embodiment of the present utility model provides a frame structure, which includes a plurality of frame bodies 1 and a plurality of connection members 2, wherein each frame body 1 has a plugging slot 11 for plugging a portion of the connection member 2, the plugging slot 11 has a first slot wall 12 and a second slot wall 13 opposite to each other and spaced apart, and one side of the plugging slot 11 has a slot opening 15, the first slot wall 12 is provided with a first limit portion 16, the second slot wall 13 is provided with a second limit portion 17, and the first limit portion 16 and the second limit portion 17 are opposite to each other and spaced apart; the connecting component 2 is provided with a first matching part 21 and a second matching part 22 which are connected with each other, the first matching part 21 and the second matching part 22 are oppositely arranged, the first matching part 21 can be matched and limited with one side, deviating from the notch 15, of the first limiting part 16, and the second matching part 22 can be matched and limited with one side, deviating from the notch 15, of the second limiting part 17.

In practical application, two adjacent frame bodies 1 can share a connecting component 2, the inserting groove 11 of one frame body 1 in two adjacent frame bodies 1 can be used for inserting a part of the connecting component 2, the inserting groove 11 of the other frame body 1 can be used for inserting another part of the connecting component 2, so that a plurality of frame bodies 1 can be connected through a plurality of connecting components 2, and a plurality of frame bodies 1 can be connected to be annular through a plurality of connecting components 2, so that a photovoltaic cell can be born. The plug-in groove 11 may have a groove bottom 14, a groove opening 15, a first groove wall 12 and a second groove wall 13, the first groove wall 12 and the second groove wall 13 may be disposed opposite and spaced apart on the groove bottom 14, the groove opening 15 being disposed opposite the groove bottom 14.

When the connecting component 2 is plugged into the plugging slot 11, the first matching portion 21 of the connecting component 2 can be in limit matching with one side of the first limiting portion 16 of the frame body 1, which is away from the notch 15 (i.e., toward the slot bottom 14), and the second matching portion 22 of the connecting component 2 can be in limit matching with one side of the second limiting portion 17 of the frame body 1, which is away from the notch 15 (i.e., toward the slot bottom 14). Because the first cooperation portion 21 sets up relatively and interconnect with the second cooperation portion 22 for the both sides that connecting component 2 is relative can both receive the spacing of frame body 1, and frame body 1 can be followed connecting component 2 both sides that connecting component 2 is relative and is spacing in spliced groove 11, thereby can reduce connecting component 2 because of frame body 1 distortion and deviate from the possibility in frame body 1, and then can improve frame structure and photovoltaic module's load reliability.

Alternatively, the connection part 2 may comprise a corner key. The corner connector may have two connecting portions perpendicular to each other, each of the connecting portions may have a first mating portion 21 and a second mating portion 22, one of the two connecting portions of one corner connector may be inserted into the insertion groove 11 of one of the two adjacent frame bodies 1, and the other connecting portion may be inserted into the insertion groove 11 of the other frame body 1, so that the plurality of connecting members 2 may be connected in a ring shape.

As shown in fig. 2 and 4, in an embodiment of the present utility model, the first mating portion 21 may have a first mating section 211 and a first abutting section 212, where the first mating section 211 can abut against a side of the first limiting portion 16 facing away from the notch 15, and the first abutting section 212 is connected to the first mating section 211 and bent with respect to the first mating section 211 to extend toward the notch 15, and the first abutting section 212 can abut against a side of the first limiting portion 16 facing toward the second limiting portion 17; and/or, the second mating portion 22 may have a second mating section 221 and a second abutting section 222, where the second mating section 221 can abut against a side of the second limiting portion 17 facing away from the notch 15, and the second abutting section 222 is connected with the second mating section 221 and bent with respect to the second mating section 221 to extend toward the notch 15, and the second abutting section 222 can abut against a side of the second limiting portion 17 facing toward the first limiting portion 16.

That is, in an embodiment of the present utility model, when the connecting member 2 is plugged into the plugging slot 11, the first mating section 211 abuts against a side of the first limiting portion 16 facing away from the slot 15, so that the first mating portion 21 and a side of the first limiting portion 16 facing away from the slot 15 can be mated and limited, and the second mating section 221 abuts against a side of the second limiting portion 17 facing away from the slot 15, so that the second mating portion 22 and a side of the second limiting portion 17 facing away from the slot 15 can be mated and limited. When the connecting member 2 is inserted into the insertion groove 11, the first abutting section 212 abuts against the first limiting portion 16 toward the second limiting portion 17, and the second abutting section 222 abuts against the second limiting portion 17 toward the first limiting portion 16, so that the frame body 1 can be supported by the first abutting section 212 and the second abutting section 222 between the first limiting portion 16 and the second limiting portion 17, and the load reliability of the frame structure and the photovoltaic module can be further improved.

Moreover, since the first abutting section 212 is bent relative to the first matching section 211 and extends towards the notch 15, and the second abutting section 222 is bent relative to the second matching section 221 and extends towards the notch 15, the first abutting section 212 and the first matching section 211 can form a guiding groove, and the second abutting section 222 and the second matching section 221 can form a guiding groove, so that guiding grooves can be formed on two opposite sides of the connecting part 2, and guiding can be provided for the insertion of the connecting part 2 by the guiding grooves in the process of inserting the connecting part 2 into the inserting groove 11, so that the assembly convenience of inserting the connecting part 2 can be improved, and the assembly precision of inserting the connecting part 2 can be improved.

As shown in fig. 4, in one embodiment of the present utility model, the first abutment section 212 and the second abutment section 222 may each extend out of the slot 15 and be connected to each other.

That is, the first abutting section 212 and the second abutting section 222 are both protruded out of the notch 15 relative to the notch 15, and because the first abutting section 212 and the second abutting section 222 are connected with each other, the supporting capability of the first abutting section 212 and the second abutting section 222 to the frame body 1 can be improved, and further the load reliability of the frame structure and the photovoltaic module can be further improved.

As shown in fig. 2 and 4, optionally, the connection member 2 may further include a connection section 23, where one end of the connection section 23 is connected to an end of the first abutment section 212 extending out of the slot 15, and the other end is connected to an end of the second abutment section 222 extending out of the slot 15. So that the first abutting section 212 and the second abutting section 222 are connected to each other through the connecting section 23, and the first fitting portion 21 and the second fitting portion 22 are connected to each other.

As shown in fig. 4, in an embodiment of the present utility model, the first mating section 211 and the first limiting portion 16 may be parallel, and the first abutting section 212 may be perpendicular to the first mating section 211; and/or, the second mating segment 221 may be parallel to the second limiting portion 17, and the second abutting segment 222 may be perpendicular to the second mating segment 221.

Therefore, the first matching section 211 and the first limiting part 16 are attached and offset, the second matching section 221 and the second limiting part 17 are attached and offset, the limiting area of the first matching section 21 and the first limiting part 16 can be increased, the limiting area of the second matching section 22 and the second limiting part 17 can be increased, the limiting capacity of the frame body 1 to the connecting part 2 can be increased, the possibility that the connecting part 2 is separated from the frame body 1 due to distortion of the frame body 1 can be further reduced, and the load reliability of the frame structure and the photovoltaic module can be further improved.

As shown in fig. 2 and 4, the connection part 2 may optionally further include a first attaching section 24 and a second attaching section 25, where the first attaching section 24 is attachable to the first slot wall 12 and the second attaching section 25 is attachable to the second slot wall 13. By means of the first attaching section 24 and the second attaching section 25, a certain supporting capacity can be provided for the frame body 1 between the first groove wall 12 and the second groove wall 13, so that the frame structure and the load reliability of the photovoltaic module can be further improved.

As shown in fig. 2 and 4, alternatively, the first attaching section 24, the first fitting section 211, the first abutting section 212, the connecting section 23, the second abutting section 222, the second fitting section 221, and the second attaching section 25 may be connected in order by end portions. Alternatively, the first attaching section 24, the first fitting section 211, the first abutting section 212, the connecting section 23, the second abutting section 222, the second fitting section 221, and the second attaching section 25 may all be formed by bending, that is, the connecting member 2 may be integrally formed by bending.

As shown in fig. 1, 3 and 4, in an embodiment of the present utility model, the first limiting portion 16 may be disposed at an end of the first slot wall 12 at the slot 15 and protrudes toward the second slot wall 13 relative to the first slot wall 12; and/or the second limiting portion 17 may be disposed at an end of the second groove wall 13 at the notch 15 and protrude toward the first groove wall 12 with respect to the second groove wall 13.

When the first limiting portion 16 is disposed at the end of the first slot wall 12 located at the slot 15 and protrudes toward the second slot wall 13 relative to the first slot wall 12, and the second limiting portion 17 is disposed at the end of the second slot wall 13 located at the slot 15 and protrudes toward the first slot wall 12 relative to the second slot wall 13, the slot 15 is a gap between the first limiting portion 16 and the second limiting portion 17.

However, the arrangement positions of the first limit portion 16 and the second limit portion 17 are not limited thereto, and for example, the first limit portion 16 may be disposed between two ends of the first groove wall 12 located between the groove 15 and the groove bottom 14, and the second limit portion 17 may be disposed between two ends of the second groove wall 13 located between the groove 15 and the groove bottom 14.

As shown in fig. 1, 3 and 4, in an embodiment of the present utility model, the first limiting portion 16 may include a first bending section 161 and a second bending section 162, where the first bending section 161 is connected to the first slot wall 12 and bends towards the second slot wall 13 relative to the first slot wall 12, and the second bending section 162 is connected to the first bending section 161 and extends towards a direction away from the second slot wall 13 relative to the first bending section 161.

That is, the first bending section 161 and the second bending section 162 may extend in opposite directions, so that the first limiting portion 16 may form a double-layer structure of the first bending section 161 and the second bending section 162, thereby improving the limiting capability of the first limiting portion 16 on the first mating portion 21, further reducing the possibility that the connecting member 2 is separated from the frame body 1 due to the distortion of the frame body 1, and further improving the load reliability of the frame structure and the photovoltaic module.

As shown in fig. 1, 3 and 4, in an embodiment of the present utility model, the frame body 1 may further have an assembly groove 18 for assembling the photovoltaic cell, where the assembly groove 18 and the plugging groove 11 are located at two sides of the first groove wall 12, respectively; the first stopper 16 may have a flash groove 164 communicating with the fitting groove 18.

In practical application, the assembly groove 18 and the inserting groove 11 may share the first groove wall 12, the assembly groove 18 may be formed above the first groove wall 12, the inserting groove 11 may be formed below the first groove wall 12, the edge of the photovoltaic cell may be assembled in the assembly groove 18 and adhered to the assembly groove 18 by glue, and by providing the first limiting portion 16 with the glue overflow groove 164 communicated with the assembly groove 18, when the glue adhering the photovoltaic cell and the assembly groove 18 is excessive, the excessive glue may overflow into the glue overflow groove 164, thereby reducing the overflow of the glue to the outside of the frame structure.

As shown in fig. 5 to 7, in an embodiment of the present utility model, the first limiting portion 16 may further include a third bending section 163, where the first bending section 161 and the second bending section 162 are spaced apart, the first bending section 161 is connected to the second bending section 162 through the third bending section 163, the third bending section 163 is bent with respect to both the first bending section 161 and the second bending section 162, and the first bending section 161, the second bending section 162 and the third bending section 163 may form a glue overflow groove 164.

That is, the first bending section 161 and the second bending section 162 are not tightly attached, a certain gap may be formed between the first bending section 161 and the second bending section 162, and the first bending section and the second bending section may be connected by the third bending section 163, the third bending section 163 may serve as the bottom of the glue overflow groove 164, and the first bending section 161 and the second bending section 162 may serve as two opposite groove walls of the glue overflow groove 164, so that the first bending section 161, the second bending section 162 and the third bending section 163 may form the glue overflow groove 164.

As shown in fig. 5-7, in an embodiment of the present utility model, the first bending section 161 may be perpendicular to the first groove wall 12, the second bending section 162 may be perpendicular to the first bending section 161, and the third bending section 163 may be perpendicular to the second bending section 162.

This can reduce the bending angles of the first bending section 161, the second bending section 162, and the third bending section 163, and thus can reduce the damage to the plating layer of the frame body 1.

Alternatively, the plating layer of the bezel body 1 may include a magnesium aluminum zinc plating layer.

As shown in fig. 1, 3 and 4, the second bending section 162 may optionally extend to protrude with respect to the first groove wall 12, and the rim body 1 may further have a third groove wall 19, where the third groove wall 19 is connected to an end of the second bending section 162 remote from the second groove wall 13 and is disposed opposite to the first groove wall 12, so that the fitting groove 18 may be formed by the protruding portions of the third groove wall 19, the first groove wall 12 and the second bending section 162 with respect to the first groove wall 12.

Alternatively, the frame body 1 may be integrally formed by bending.

The embodiment of the utility model also provides a photovoltaic module, which comprises a photovoltaic cell and the frame structure provided by the embodiment of the utility model, wherein the photovoltaic cell is loaded in the frame structure and is used for photovoltaic power generation.

According to the photovoltaic module provided by the embodiment of the utility model, the photovoltaic cell is arranged in the frame structure provided by the embodiment of the utility model, so that the load reliability of the photovoltaic module can be improved.

In summary, according to the frame structure and the photovoltaic module provided by the embodiments of the present utility model, the possibility that the connecting component 2 is separated from the frame body 1 due to the distortion of the frame body 1 can be reduced, so that the load reliability of the frame structure and the photovoltaic module can be improved.

It is to be understood that the above embodiments are merely illustrative of the application of the principles of the present utility model, but not in limitation thereof. Various modifications and improvements may be made by those skilled in the art without departing from the spirit and substance of the utility model, and are also considered to be within the scope of the utility model.

Claims (10)

1. The frame structure is characterized by comprising a plurality of frame bodies and a plurality of connecting parts, wherein the frame bodies are respectively provided with a splicing groove for splicing parts of the connecting parts, each splicing groove is provided with a first groove wall and a second groove wall which are opposite and spaced, one side of each splicing groove is provided with a notch, the first groove wall is provided with a first limiting part, the second groove wall is provided with a second limiting part, and the first limiting part and the second limiting part are opposite and spaced;

the connecting component is provided with a first matching part and a second matching part which are mutually connected, the first matching part and the second matching part are oppositely arranged, the first matching part can be matched and limited with one side of the first limiting part, which is away from the notch, and the second matching part can be matched and limited with one side of the second limiting part, which is away from the notch.

2. The frame structure of claim 1, wherein the first mating portion has a first mating segment and a first abutting segment, the first mating segment is capable of abutting against a side of the first limiting portion facing away from the notch, the first abutting segment is connected with the first mating segment and extends toward the notch relative to the first mating segment by bending, and the first abutting segment is capable of abutting against a side of the first limiting portion facing toward the second limiting portion;

and/or, the second matching part is provided with a second matching section and a second abutting section, the second matching section can abut against one side of the second limiting part, which is away from the notch, the second abutting section is connected with the second matching section and bends towards the notch for extending relative to the second matching section, and the second abutting section can abut against one side of the second limiting part towards the first limiting part.

3. The bezel structure of claim 2, wherein the first abutment section and the second abutment section each extend out of the slot and are connected to one another.

4. The bezel structure of claim 2, wherein the first mating segment is parallel to the first limiting portion, and the first abutment segment is perpendicular to the first mating segment;

and/or the second matching section is parallel to the second limiting part, and the second abutting section is perpendicular to the second matching section.

5. The frame structure of claim 1, wherein the first limiting portion is disposed at an end of the first slot wall at the slot opening and protrudes toward the second slot wall with respect to the first slot wall;

and/or the second limiting part is arranged at the end part of the second groove wall, which is positioned at the notch, and protrudes towards the first groove wall relative to the second groove wall.

6. The frame structure of claim 5, wherein the first limiting portion includes a first bending section and a second bending section, the first bending section is connected to the first slot wall and extends toward the second slot wall relative to the first slot wall, and the second bending section is connected to the first bending section and extends away from the second slot wall relative to the first bending section.

7. The frame structure of claim 6, wherein the frame body further has an assembly groove for assembling a photovoltaic cell, the assembly groove and the plugging groove being located at two sides of the first groove wall, respectively;

the first limiting part is provided with a glue overflow groove communicated with the assembly groove.

8. The frame structure of claim 7, wherein the first limiting portion further includes a third bending section, the first bending section is spaced from the second bending section, the first bending section is connected to the second bending section through the third bending section, the third bending section is bent with respect to the first bending section and the second bending section, and the first bending section, the second bending section, and the third bending section form the glue overflow groove.

9. The bezel structure of claim 8, wherein the first bending section is perpendicular to the first slot wall, the second bending section is perpendicular to the first bending section, and the third bending section is perpendicular to the second bending section.

10. A photovoltaic module comprising a photovoltaic cell and a frame structure according to any one of claims 1 to 9, said photovoltaic cell being carried in said frame structure,

the photovoltaic cell is used for photovoltaic power generation.