CN217759664U - Photovoltaic panel bearing tile, photovoltaic tile and roof system - Google Patents

Abstract

The utility model provides a photovoltaic board bearing tile, it include the base plate, set up in the first installation department of base plate one side and set up in the second installation department of base plate opposite side, first recess has been seted up on the first installation department, the opening orientation of first recess the second installation department, the second recess has been seted up on the second installation department, the opening orientation of second recess first installation department, just the position that sets up of second recess with first recess is corresponding, it is protruding to have seted up the bending resistance on the base plate, the bending resistance is protruding to the inboard bending type of orientation and is formed, just the bellied height that bends of bending resistance is less than first recess the plane that the second recess was located. Compared with the prior art, the utility model provides a photovoltaic board bearing tile, photovoltaic tile and roofing system can improve the life of photovoltaic tile, the thermal-insulated, waterproof, the syllable-dividing function of reinforcing roofing.

Description

Photovoltaic panel bearing tile, photovoltaic tile and roof system

Technical Field

The utility model relates to a new forms of energy technical field especially relates to a photovoltaic board bearing tile, photovoltaic tile and roofing system.

Background

Nowadays, with the development of industry, new energy is more and more emphasized, and the utilization of solar energy is more and more common.

Generally, solar power generation refers to solar photovoltaic power generation, which is called "photoelectricity" for short, and photovoltaic power generation is a technology for directly converting solar energy into electric energy by using a photovoltaic effect of a semiconductor interface. Solar energy belongs to clean energy, not only protects the ecological environment, but also saves a large amount of energy such as coal. The photovoltaic module produced according to the photovoltaic effect has wide application, for example, the photovoltaic module is used for manufacturing photovoltaic tiles and is paved on a roof to realize autonomous power generation.

Photovoltaic tile among the prior art usually includes photovoltaic board bearing tile and installs the photovoltaic board on photovoltaic board bearing tile, the photovoltaic board pass through the viscose glue joint in on the photovoltaic board bearing tile.

However, the photovoltaic tile in the prior art is directly laid on the upper surface of the photovoltaic panel supporting tile, and the photovoltaic panel supporting tile are mutually glued and fixed by gluing the periphery of the photovoltaic panel. In long-time use, the viscose very easy emergence is ageing, leads to the stability of being connected between photovoltaic board and the photovoltaic board bearing tile not good, influences whole photovoltaic tile life. And the base plate of photovoltaic board bearing tile among the prior art takes place bending deformation easily in long-time use, influences whole roughness, can influence the fixed to photovoltaic board even.

SUMMERY OF THE UTILITY MODEL

The adhesive is easy ageing in the photovoltaic tile to prior art, leads to the stability of being connected between photovoltaic board and the photovoltaic board bearing tile not good, influences the life of photovoltaic tile to the bending deformation takes place easily for the photovoltaic board bearing tile among the prior art, influences whole roughness, still can influence the fixed technical problem of photovoltaic board simultaneously. The utility model provides a can effectively accept the viscose agent, reduce the ageing risk of viscose agent, improve the life of photovoltaic tile to be difficult to take place bending deformation's photovoltaic board bearing tile.

A photovoltaic panel support tile comprising:

a substrate;

a first mounting portion provided at one side of the substrate;

a second mounting part disposed at the other side of the substrate;

the base plate is provided with a first groove, the first installation part is provided with an opening facing the second installation part, the second installation part is provided with a second groove, the second groove is provided with an opening facing the first installation part, the setting position of the second groove corresponds to the first groove, the base plate is provided with an anti-bending bulge, the anti-bending bulge is formed by bending towards the inner side, and the height of the anti-bending bulge is lower than the plane where the first groove and the second groove are located.

Preferably, the bending-resistant protrusion, the first mounting portion, and the second mounting portion are all disposed to extend in the width direction of the substrate.

Preferably, at least two bending-resistant protrusions are arranged, and two adjacent bending-resistant protrusions are arranged at intervals along the length direction of the substrate.

Preferably, the bending-resistant protrusion includes:

the two bending walls are formed by bending from the substrate towards the inner side, and the two bending walls are arranged symmetrically at intervals;

and two ends of the combining wall are respectively connected with the two bending walls.

Preferably, the first mounting portion includes:

a first connection wall connected to one side of the substrate;

the first extending wall is arranged on the first connecting wall;

the second extending wall is arranged on the first connecting wall and is arranged at an interval with the first extending wall;

the first connecting wall, the first extending wall and the second extending wall jointly enclose the first groove.

Preferably, the second mounting portion includes:

a second connection wall connected to the other side of the substrate;

a third extension wall disposed on the second connection wall;

a fourth extension wall having one end connected to the third extension wall;

the fifth extending wall is connected with the other end of the fourth extending wall and is arranged opposite to the third extending wall at an interval;

the second connecting wall, the third extending wall, the fourth extending wall and the fifth extending wall jointly enclose the second groove.

Preferably, the top of photovoltaic board bearing tile downside offer with the spread groove that the bottom of photovoltaic board bearing tile upside matches, photovoltaic board bearing tile still includes:

the first connecting part is arranged on the first mounting part;

the second connecting portion set up in on the base plate, and be located keeping away from of second installation department one side of first installation department, and with first connecting portion phase-match.

Preferably, the first connection portion includes:

a first transverse wall connected with the first mounting part;

the first mounting wall is connected with one side, far away from the first mounting part, of the first transverse wall;

the second connection portion includes:

a third connecting wall connected to the substrate and spaced apart from the second mounting portion;

a second transverse wall connected to the third connecting wall;

the second mounting wall is connected with one side, far away from the third connecting wall, of the second transverse wall;

the first transverse wall, the first installation wall and the first installation part jointly enclose an installation groove matched with the second connection part, a first accommodating groove matched with the second installation wall is formed in one side, close to the first transverse wall, of the first installation part, and a second accommodating groove matched with the first installation wall is formed in one side, close to the second installation part, of the third connection wall.

And simultaneously, the utility model also provides a photovoltaic tile, it includes:

a photovoltaic panel support tile according to any one of the preceding claims;

and two sides of the photovoltaic panel are respectively embedded in the first groove and the second groove, and adhesives are respectively filled in the first groove and the second groove. The photovoltaic panel is a flat plate which is processed by adopting a crystalline silicon photovoltaic cell material or a cadmium telluride thin film photovoltaic cell material or a copper indium gallium selenide thin film photovoltaic cell material or a gallium arsenide photovoltaic cell material or a perovskite photovoltaic cell material and has the function of absorbing sunlight for power generation.

And simultaneously, the utility model also provides a roofing system, it includes photovoltaic tile top surface and tile top surface, the photovoltaic tile top surface includes that the mutual lapped as above-mentioned of multi-disc photovoltaic tile, the tile top surface includes the mutual lapped tile of multi-disc.

Compared with the prior art, the utility model provides a photovoltaic board bearing tile include the base plate, set up in the first installation department of base plate one side and set up in the second installation department of base plate opposite side, first recess has been seted up on the first installation department, the opening orientation of first recess the second installation department, the second recess has been seted up on the second installation department, the opening orientation of second recess first installation department, just the position that sets up of second recess with first recess is corresponding, it is protruding to have seted up the bending resistance on the base plate, the bending resistance is protruding to the inboard bending type of orientation and is formed, just the bellied height that bends of bending resistance is less than first recess the plane that the second recess was located. Through first recess the second recess can be good hold the adhesive, avoid the adhesive to directly expose in external environment, the effectual ageing risk of adhesive that has reduced to can improve the photovoltaic board with reliability of being connected between the photovoltaic board bearing tile, and then can improve the life of photovoltaic tile. And the bending-resistant bulge is arranged on the substrate, so that the substrate is not easy to bend and deform, and the photovoltaic panel is better ensured to be fixed.

Correspondingly, the utility model provides a photovoltaic tile has adopted photovoltaic board bearing tile to can effectually reduce the ageing risk of adhesive, and photovoltaic board bearing tile is difficult to take place bending deformation, improves the reliability of being connected between photovoltaic board and the photovoltaic board bearing tile, improves the life of photovoltaic tile.

Correspondingly, the utility model provides a roofing system is through having adopted photovoltaic tile to can have longer life.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic cross-sectional structural view of a photovoltaic panel support tile according to an embodiment;

FIG. 2 is a partial enlarged view of the area A shown in FIG. 1;

FIG. 3 is an enlarged view of a portion of the area B shown in FIG. 1;

FIG. 4 is a top view of the photovoltaic panel support tile of FIG. 1;

fig. 5 is a schematic structural view of the photovoltaic panel shown in fig. 1 after the supporting tiles are lapped left and right;

fig. 6 is a schematic structural view of the photovoltaic panel shown in fig. 1 after the supporting tiles are mutually overlapped up and down;

FIG. 7 is a schematic structural diagram of a photovoltaic panel according to an embodiment;

FIG. 8 is a block diagram of a tile according to an embodiment.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

It will be understood that when an element is referred to as being "fixed" or "disposed" to another element, it can be directly on the other element or be indirectly disposed on the other element; when an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings are only used for matching the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the practical limit conditions of the present application, so that the modifications of the structures, the changes of the ratio relationships, or the adjustment of the sizes, do not have the technical essence, and the modifications, the changes of the ratio relationships, or the adjustment of the sizes, are all within the scope of the technical contents disclosed in the present application without affecting the efficacy and the achievable purpose of the present application.

The utility model provides a photovoltaic board bearing tile, its include the base plate, set up in the first installation department of base plate one side and set up in the second installation department of base plate opposite side, first recess has been seted up on the first installation department, the opening orientation of first recess the second installation department, the second recess has been seted up on the second installation department, the opening orientation of second recess first installation department, just the second recess set up the position with first recess is corresponding, it is protruding to have seted up the bending resistance on the base plate, the protruding inside bending type of orientation of bending resistance becomes, just the bellied height of bending resistance is less than first recess the plane that the second recess was located. Photovoltaic board bearing tile can reduce the ageing risk of adhesive, just photovoltaic board bearing tile is difficult to take place bending deformation, can effectively improve the life of photovoltaic tile.

Please refer to fig. 1 to 8. The embodiment provides a photovoltaic panel supporting tile 100 for supporting and fixing a photovoltaic panel 200. The photovoltaic panel supporting tile 100 comprises a base plate 10, a first installation part 20 and a second installation part 30, wherein the first installation part 20 is arranged on one side of the base plate 10, and the second installation part 30 is arranged on the other side of the base plate 10. That is, the first and second mounting parts 20 and 30 are spaced apart from each other on the substrate 10 to define a space for accommodating the photovoltaic panel 200. It should be noted that, first installation department 20 set up in one side of base plate 10, second installation department 30 set up in the opposite side of base plate 10, not refer to first installation department 20 with second installation department 30 set up respectively in the tip of base plate 10, but refer to first installation department 20 with second installation department 30 can separate each other and go out and be used for holding photovoltaic board 200's space, first installation department 20 the concrete position that sets up of second installation department 30 can be located the tip or the middle part of base plate 10, even arbitrary region, only need first installation department 20 second installation department 30 can bear the both sides of photovoltaic board 200 can.

First recess 21 has been seted up on first installation department 20, the opening orientation of first recess 21 second installation department 30, promptly first recess 21 is from being close to second installation department 30 side surface orientation is kept away from second installation department 30 direction is sunken to be formed. Therefore, when one side of the photovoltaic panel 200 is embedded in the first groove 21, the adhesive is poured into the first groove 21 to ensure the connection effect, and meanwhile, the adhesive can be prevented from being directly exposed in the external environment, so that the service life of the adhesive is effectively prolonged.

Second recess 31 has been seted up on the second installation department 30, the opening orientation of second recess 31 first installation department 20, promptly second recess 31 is from being close to first installation department 20 side surface orientation is kept away from the sunken formation in first installation department 20 direction, just second recess 31 set up the position with first recess 21 is corresponding. Therefore, when the other side of the photovoltaic panel 200 is embedded in the second groove 31, the adhesive is poured into the second groove 31, so that the connection effect can be guaranteed, meanwhile, the adhesive can be prevented from being directly exposed to the external environment, and the service life of the adhesive is effectively prolonged. Meanwhile, the first groove 21 and the second groove 31 are arranged at positions which can be just accommodated at two sides of the photovoltaic panel 200. Specifically, in this embodiment, the photovoltaic panel 200 is a flat plate-shaped structure, and the second groove 31 is disposed opposite to the first groove 21.

The substrate 10 is provided with a bending-resistant protrusion 11, and the bending-resistant protrusion 11 is formed by bending towards the inner side (the side where the photovoltaic panel needs to be installed). It can be understood that when the substrate 10 is a flat plate, the substrate 10 is prone to bending during long-term use, which results in an overall uneven support tile for the photovoltaic panel. Even after the photovoltaic panel is bent and deformed to a certain degree, the photovoltaic panel can be fixed, so that the photovoltaic panel slips and normal use is influenced. In this embodiment, through setting up bending-resistant protrusion 11 can effectually strengthen the bending-resistant ability of base plate 10 avoids base plate 10 takes place bending deformation to good guarantee the planarization of photovoltaic board bearing tile 100, better guarantee the fixed to the photovoltaic board, guarantee the stability of photovoltaic tile.

The height of the bending-resistant protrusion 11 is lower than the plane of the first groove 21 and the second groove 31, so that the bending-resistant protrusion 11 does not affect the normal installation of the photovoltaic panel.

Specifically, in this embodiment, photovoltaic board bearing tile 100 is waterproof thermal-insulated photovoltaic board bearing tile, each part constitutes by bottom plate, roof and strengthening rib in the photovoltaic board bearing tile 100, the bottom plate with the relative interval of roof sets up, the strengthening rib set up in the bottom plate with between the roof, just the strengthening rib is provided with a plurality ofly to guarantee structural strength that can be better.

Preferably, the bending-resistant protrusion 11, the first mounting portion 20, and the second mounting portion 30 are all provided to extend in the width direction of the substrate 10. In this embodiment, the width direction refers to the vertical direction shown in fig. 4, and the length direction refers to the horizontal direction shown in fig. 4.

Preferably, at least two bending-resistant protrusions 11 are provided, and two adjacent bending-resistant protrusions 11 are spaced from each other along the length direction of the substrate 10, so that the bending resistance of the substrate 10 can be further improved.

Specifically, in this embodiment, two bending-resistant protrusions 11 are provided on each photovoltaic panel bearing tile 100, the bending-resistant protrusions 11 are located in the middle of the substrate 10, and the distance between the bending-resistant protrusions 11 is twice as long as the distance between the bending-resistant protrusions 11 and the edge of the substrate 10, so that the bending resistance of the substrate 10 is better ensured, and the number of the photovoltaic panel bearing tiles 100 is increased to achieve the aesthetic property after the left and right splicing.

Preferably, the bending-resistant protrusion 11 includes two bending walls 111 and two combining walls 112, the bending walls 111 are formed by bending the substrate 10 towards the inner side, the two bending walls 111 are symmetrically arranged at intervals, and two ends of the combining walls 112 are respectively connected to the two bending walls 111.

Preferably, the first mounting portion 20 includes a first connecting wall 22, a first extending wall 23 and a second extending wall 24, the first connecting wall 22 is connected to the substrate 10, the first extending wall 23 is disposed on the first connecting wall 22, the second extending wall 24 is disposed on the first connecting wall 22 and spaced from the first extending wall 23, and the first connecting wall 22, the first extending wall 23 and the second extending wall 24 together enclose the first recess 21. Thereby can effectual improvement the holistic stability of first installation department 20, better guarantee to photovoltaic board 200's bearing is fixed. That is, the first groove 21 is a semi-closed structure, and the opening of the first groove 21 faces one side of the second installation part 30, so that a relatively closed space can be formed inside the first groove 21, and the adhesive is better prevented from being directly exposed to the external environment. Meanwhile, the space area can be increased, more adhesives can be contained, and the adhesion effect is guaranteed.

Preferably, a first glue containing groove 241 communicated with the first groove 21 is formed in the second extending wall 24, and the first glue containing groove 241 is located on one side far away from the second mounting portion 30. Thereby pass through first holding that gluey groove 241 can be better holds the adhesive, guarantee that can be better photovoltaic board 200 with reliability of connection between the photovoltaic board bearing tile 100 also can be better simultaneously avoids the adhesive ageing, further improvement life.

Preferably, the second mounting portion 30 includes a second connecting wall 32, a third extending wall 33, a fourth extending wall 34 and a fifth extending wall 35, the second connecting wall 32 is connected to the substrate 10, the third extending wall 33 is disposed on the second connecting wall 32, one end of the fourth extending wall 34 is connected to the third extending wall 33, and the fifth extending wall 35 is connected to the other end of the fourth extending wall 34 and is disposed opposite to the third extending wall 33 at an interval. The second connecting wall 32, the third extending wall 33, the fourth extending wall 34 and the fifth extending wall 35 jointly enclose the second groove 31. Thereby can effectual improvement the holistic stability of second installation department 30, better guarantee is right photovoltaic board 200's bearing is fixed. That is, the second groove 31 is a semi-closed structure, and the opening of the second groove 31 faces one side of the first mounting portion 20, so that a relatively closed space can be formed inside the second groove 31, and the adhesive is better prevented from being directly exposed to the external environment. Meanwhile, the space area can be increased, more adhesives can be contained, and the adhesion effect is guaranteed.

Preferably, the fifth extending wall 35 is provided with a second glue accommodating groove 351 communicated with the second groove 31, and the second glue accommodating groove 351 is located on a side far away from the first mounting portion 20. Thereby through the adhesive that holds that second holds gluey groove 351 can be better, guarantee that can be better photovoltaic board 200 with the reliability of being connected between the photovoltaic board bearing tile 100 also can be better simultaneously avoid the adhesive ageing, further improvement life.

Preferably, photovoltaic board bearing tile 100 downside seted up with the spread groove 70 of photovoltaic board bearing tile 100 upside matching, two photovoltaic board bearing tile 100 can be each other from top to bottom the overlap joint together to can be with the multi-disc photovoltaic board bearing tile 100 is along overlapping each other from top to bottom and is become a whole. Photovoltaic board bearing tile 100 still includes first connecting portion 40 and second connecting portion 50, first connecting portion 40 set up in on the first installation department 20, second connecting portion 50 set up in on the base plate 10 and be located keeping away from of second installation department 30 one side of first installation department 20, just second connecting portion 50 with first connecting portion 40 phase-match. Wherein, the mutual matching of the second connection portion 50 and the first connection portion 40 means: second connecting portion 50 with first connecting portion 40 can overlap joint each other to can be with a slice one side and another of photovoltaic board bearing tile 100's opposite side is the overlap joint is in the same place about each other, thereby can be with the multi-disc photovoltaic board bearing tile 100 is along overlapping joint one-tenth a whole about each other. It should be noted that, in this embodiment, the left, right, up and down refer to relative positions on the photovoltaic panel supporting tile 100, specifically, the left, right are two opposite sides in the vertical direction as shown in fig. 4, and the up and down are two opposite sides in the horizontal direction as shown in fig. 4.

Preferably, the first connecting portion 40 includes a first transverse wall 41 and a first mounting wall 42, the first transverse wall 41 is connected to the first mounting portion 20, and the first mounting wall 42 is connected to the first transverse wall 41 on the side away from the first mounting portion 20. The second connecting portion 50 includes a third connecting wall 51, a second transverse wall 52 and a second mounting wall 53, the third connecting wall 51 is connected to the substrate 10 and spaced from the second mounting portion 30, the second transverse wall 52 is connected to the third connecting wall 51, and the second mounting wall 53 is connected to the second transverse wall 52 on the side of the third connecting wall 51. First horizontal wall 41, first installation wall 42 reaches first installation department 20 encloses jointly into one with the mounting groove 60 that second connecting portion 50 matches, promptly first connecting portion 40 can correspond the lid establish on second connecting portion 50, with adjacent two photovoltaic board bearing tile 100 interconnect. A first receiving groove 25 matched with the second receiving groove 53 is formed at a side of the first mounting portion 20 close to the first transverse wall 41, and a second receiving groove 511 matched with the first receiving groove 42 is formed at a side of the third connecting wall 51 close to the second mounting portion 30. Therefore, the second mounting wall 53 can be correspondingly embedded in the first accommodating groove 25, and the first mounting wall 42 can be correspondingly embedded in the second accommodating groove 511, so that the connection reliability between two adjacent photovoltaic panel bearing tiles 100 can be better guaranteed, and the assembling difficulty can be reduced.

Simultaneously, this embodiment still provides a photovoltaic tile 1000, and it includes photovoltaic board bearing tile 100 and photovoltaic board 200, the both sides of photovoltaic board 200 are inlayed respectively and are located first recess 21 in the second recess 31, just first recess 21 with it has the viscose agent to fill respectively in the second recess 31. The photovoltaic panel 200 is a flat plate which is processed by a crystalline silicon photovoltaic cell material or a cadmium telluride thin film photovoltaic cell material or a copper indium gallium selenide thin film photovoltaic cell material or a gallium arsenide photovoltaic cell material or a perovskite photovoltaic cell material and has the function of absorbing sunlight for power generation.

Meanwhile, the embodiment also provides a roof system, which comprises a photovoltaic tile top surface and a tile top surface, wherein the photovoltaic tile top surface comprises a plurality of mutually-lapped photovoltaic tiles 1000, and the tile top surface comprises a plurality of mutually-lapped tiles 2000. It should be noted that the basic structure of the tile is similar to the photovoltaic tile 1000. The tile 2000 is provided with a left and right overlapping structure identical to the first connecting portion 40 and the second connecting portion 50, and is also provided with an upper and lower overlapping structure identical to the connecting groove 70. Therefore, the top surface of the tile formed by overlapping a plurality of tiles can be similar to the whole structure of the top surface of the photovoltaic tile, so that the whole roof system is more complete and attractive, meanwhile, the heat insulation, waterproof and sound insulation functions of the roof can be enhanced, and the tile 2000 can be overlapped with the photovoltaic tile 1000. It will be appreciated that, in order to ensure better utilization of solar energy, the photovoltaic tile top surface is disposed on a side surface that is near the sun (relatively well lit) and the tile top surface is disposed on a side surface that is back-sun (relatively less lit). Wherein, the tile 2000 is made of plastic material.

It will be appreciated that the photovoltaic tile 1000 may not completely fill the top surface of the photovoltaic tile due to the different areas of the top surface of the different photovoltaic tiles. For example, at the edge or corner of the top surface of the tile, a certain installation space may remain, but the installation space may only have the area of half of the tile 1000, and a piece of the tile 1000 cannot be installed. At this moment, then can correspond cut tile 2000, because tile 2000 adopts the plastics material, it is convenient to cut to low cost, thereby through the installation half thereby the guarantee that tile 2000 can be better the whole effect of photovoltaic tile top surface. That is, in some embodiments, the photovoltaic tile top surface may be collectively formed by the photovoltaic tile 1000 and the tile 2000.

Compared with the prior art, the utility model provides a photovoltaic board bearing tile include the base plate, set up in the first installation department of base plate one side and set up in the second installation department of base plate opposite side, first recess has been seted up on the first installation department, the opening orientation of first recess the second installation department, the second recess has been seted up on the second installation department, the opening orientation of second recess first installation department, just the position that sets up of second recess with first recess is corresponding, it is protruding to have seted up the bending resistance on the base plate, the bending resistance is protruding to the inboard bending type of orientation and is formed, just the bellied height that bends of bending resistance is less than first recess the plane that the second recess was located. Through first recess the second recess can be good hold the adhesive, avoid the adhesive to directly expose in external environment, the effectual ageing risk of adhesive that has reduced to can improve the photovoltaic board with reliability of being connected between the photovoltaic board bearing tile, and then can improve the life of photovoltaic tile. And the bending-resistant bulge is arranged on the substrate, so that the substrate is not easy to bend and deform, and the photovoltaic panel is better ensured to be fixed.

Correspondingly, the utility model provides a photovoltaic tile has adopted photovoltaic board bearing tile to can the ageing risk of effectual reduction adhesive, and photovoltaic board bearing tile is difficult to take place bending deformation, improves the reliability of being connected between photovoltaic board and the photovoltaic board bearing tile, improves the life of photovoltaic tile.

Correspondingly, the utility model provides a roofing system is through having adopted photovoltaic tile to can have longer life.

The above description is only for the embodiments of the present invention, and it should be noted that, for those skilled in the art, modifications can be made without departing from the inventive concept, but these all fall into the protection scope of the present invention.

Claims (10)

1. A photovoltaic panel support tile, comprising:

a substrate;

a first mounting part disposed at one side of the substrate;

a second mounting portion disposed at the other side of the substrate;

the base plate is provided with a first groove, the first installation part is provided with an opening facing the second installation part, the second installation part is provided with a second groove, the second groove is provided with an opening facing the first installation part, the setting position of the second groove corresponds to the first groove, the base plate is provided with an anti-bending bulge, the anti-bending bulge is formed by bending towards the inner side, and the height of the anti-bending bulge is lower than the plane where the first groove and the second groove are located.

2. A photovoltaic panel support tile according to claim 1, wherein said bending-resistant protrusion, said first mounting portion and said second mounting portion are all provided extending in the width direction of said base plate.

3. The photovoltaic panel support tile according to claim 2, wherein there are at least two of said bending-resistant protrusions, and two adjacent bending-resistant protrusions are spaced apart from each other along the length direction of said substrate.

4. A photovoltaic panel support tile according to claim 1, wherein said bending-resistant bumps comprise:

the two bending walls are formed by bending from the substrate towards the inner side, and the two bending walls are arranged symmetrically at intervals;

and two ends of the combined wall are respectively connected with the two bent walls.

5. A photovoltaic panel support tile according to claim 1, wherein said first mounting portion comprises:

a first connection wall connected to one side of the substrate;

the first extending wall is arranged on the first connecting wall;

the second extending wall is arranged on the first connecting wall and is arranged at an interval with the first extending wall;

the first connecting wall, the first extending wall and the second extending wall jointly enclose the first groove.

6. A photovoltaic panel support tile according to claim 5, wherein said second mounting portion comprises:

a second connection wall connected to the other side of the substrate;

a third extension wall disposed on the second connection wall;

a fourth extension wall having one end connected to the third extension wall;

the fifth extending wall is connected with the other end of the fourth extending wall and is arranged opposite to the third extending wall at an interval;

the second connecting wall, the third extending wall, the fourth extending wall and the fifth extending wall jointly enclose the second groove.

7. The photovoltaic panel support tile according to any of claims 1 to 6, wherein the top of the lower side of the photovoltaic panel support tile is provided with connecting grooves matching the bottom of the upper side of the photovoltaic panel support tile, the photovoltaic panel support tile further comprising:

the first connecting part is arranged on the first mounting part;

the second connecting portion set up in on the base plate, and be located keeping away from of second installation department one side of first installation department, and with first connecting portion phase-match.

8. A photovoltaic panel support tile according to claim 7, wherein said first connection portion comprises:

a first transverse wall connected with the first mounting part;

the first mounting wall is connected with one side, far away from the first mounting part, of the first transverse wall;

the second connection portion includes:

a third connecting wall connected to the substrate and spaced apart from the second mounting portion;

a second transverse wall connected to the third connecting wall;

the second mounting wall is connected with one side, far away from the third connecting wall, of the second transverse wall;

the first transverse wall, the first installation wall and the first installation part jointly enclose into one and the installation groove that the second connecting portion matches, just being close to of the first installation part one side of the first transverse wall is seted up with the first accepting groove that the second installation wall matches, and the third connection wall is close to second installation part one side is seted up with the second accepting groove that the first installation wall matches.

9. A photovoltaic tile, comprising:

a photovoltaic panel support tile according to any one of claims 1 to 8;

and two sides of the photovoltaic panel are respectively embedded in the first groove and the second groove, and adhesives are respectively filled in the first groove and the second groove.

10. A roofing system comprising a photovoltaic tile top surface and a tile top surface, the photovoltaic tile top surface comprising a plurality of overlapping photovoltaic tiles according to claim 9, the tile top surface comprising a plurality of overlapping tiles.

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