CN215682187U - Photovoltaic tile mounting structure spare that possesses waterproof performance - Google Patents

Abstract

The utility model provides a photovoltaic tile installation structure member with waterproof performance, which comprises: the device comprises a left side unit, a right side unit, an upper unit, a lower unit and an arc unit; the left side unit, the right side unit, the upper unit and the lower unit are connected into a whole through corner connectors; the lower frame fixing piece is fixedly connected to the purline through a bolt after pressing the other group of hook fixing pieces; the arc unit can be inserted into the slot structures of the left unit and the right unit, the structural design is scientific, the stress of the whole structure is strong, and the strong wind damage in severe weather can be resisted; through the action of the arc-shaped unit, the problem of water inflow between the left photovoltaic tile and the right photovoltaic tile after the photovoltaic tiles are installed is solved; by the ingenious design of the stacked structure, the problem of insufficient water leakage between the upper photovoltaic part and the lower photovoltaic part is solved; the integral structure design is beautiful, the manufacture, the installation and the future maintenance are convenient, and the device is suitable for popularization and application.

Description

Photovoltaic tile mounting structure spare that possesses waterproof performance

Technical Field

The utility model relates to the technical field of solar photovoltaic power generation, in particular to a photovoltaic tile installation structural member with waterproof performance.

Background

The photovoltaic module is embedded into the supporting structure, so that the solar panel and the building material are integrated and directly applied to the roof, and the solar panel and the building material are installed on the roof structure like a common roof tile, and a popular photovoltaic tile product is formed;

the solar photovoltaic power generation mode can ensure clean energy, the solar energy resources are rich, the environment is protected, other resources are saved, and people pay more and more attention to and use the solar photovoltaic power generation mode.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model aims to provide a photovoltaic tile installation structural member with waterproof performance, which is scientific and reasonable in design, can effectively prevent the problem of gap water inflow of photovoltaic tiles after the photovoltaic tiles are installed, and is high in overall strength, convenient and rapid to install, attractive and elegant in overall appearance and suitable for popularization.

In order to achieve the above object, the present invention provides a photovoltaic tile installation structure having waterproof performance, including: the device comprises a left side unit, a right side unit, an upper unit, a lower unit and an arc unit;

furthermore, the left side unit is installed on the left side of the photovoltaic tile, the left side unit adopts an integrated frame structure, a first corner connector through hole is formed in the middle of the integrated frame structure, and the first corner connector through hole is communicated up and down; a photovoltaic tile lower supporting plate is arranged below the right side of the first corner brace connecting through hole; a photovoltaic tile upper clamping plate is arranged above the right side of the first corner brace connecting through hole; the left side of the photovoltaic tile is wrapped through the matching of the photovoltaic tile lower supporting plate and the photovoltaic tile upper clamping plate; a slot structure is arranged on the left side of the first corner connector through hole, an insertion opening is formed in the upper portion of the slot structure, a water tank structure is arranged below the insertion opening, and the water tank structure is communicated up and down;

as an illustration, the gutter structure is used to guide and drain rainwater;

by way of illustration, the photovoltaic tile lower pallet has a length greater than the photovoltaic tile upper clamping plate;

as an example, the integrated frame structure is made of bridge-cut aluminum, aluminum alloy or stainless steel;

further, the right side unit is installed on the right side of the photovoltaic tile, and the structure of the right side unit and the structure of the left side unit are arranged in a mirror symmetry mode;

furthermore, the upper unit is arranged above the photovoltaic tile, the upper unit adopts an integrated frame structure, a second corner brace connecting through hole is arranged in the middle of the integrated frame structure, and the second corner brace connecting through hole is communicated in the front and back directions; a photovoltaic tile lower supporting piece is arranged on the left side below the second corner brace connecting through hole; a photovoltaic tile upper clamping piece is arranged on the right side below the second corner brace connecting through hole; the upper part of the photovoltaic tile is wrapped through the matching of the photovoltaic tile lower support piece and the photovoltaic tile upper clamping piece; a stress through hole structure is arranged above the second corner brace connecting through hole, and a hook fixing piece is arranged on the left side above the stress through hole structure;

as an example, the hook fixing piece is used for clamping a purline to complete hooking and fixing above the photovoltaic tile;

as an illustration, the length of the photovoltaic tile lower support is greater than the length of the photovoltaic tile upper clamp;

as an example, the stress through hole structure not only increases the overall stress of the integrated frame structure, but also increases the construction gap, so that when photovoltaic tiles are stacked up and down, the photovoltaic tiles above press the panel lighting surface of the photovoltaic tiles below;

as an example, the integrated frame structure is made of bridge-cut aluminum, aluminum alloy or stainless steel;

further, the lower unit is arranged below the photovoltaic tile, the lower unit adopts an integrated frame structure, a third corner brace through hole is formed in the right side of the integrated frame structure, and the third corner brace through hole is communicated with the front and the back; during construction, the left side of the third angle code through hole presses the right side of the stress through hole of the other group of upper units to form a laminated structure, so that rainwater erosion is effectively reduced; a photovoltaic tile supporting plate is arranged on the left side above the lower unit, and a photovoltaic tile clamping plate is arranged on the right side above the lower unit; the lower part of the photovoltaic tile is wrapped through the matching of the photovoltaic tile supporting plate and the photovoltaic tile clamping plate; a lower frame fixing piece is arranged on the left side of the photovoltaic tile supporting plate;

as an example, a waterproof structure is arranged on the left side below the third corner through hole and is used for further reducing rainwater backflow in windy weather when the right side of the stress through hole of the other group of upper units is laminated;

as an application example, the waterproof structure adopts a waterproof rubber strip;

by way of example, the photovoltaic tile pallet has a length greater than the length of the photovoltaic tile cleat;

as an example, the integrated frame structure is made of bridge-cut aluminum, aluminum alloy or stainless steel;

furthermore, the left unit, the right unit, the upper unit and the lower unit are connected into a whole through corner connectors; the lower frame fixing piece is fixedly connected to the purline through a bolt after pressing the other group of hook fixing pieces;

furthermore, the arc-shaped units are of an integrated structure, the middle of the integrated structure is of an arc capping structure, two ends of the arc capping structure are provided with limiting blocks, water seepage prevention pieces are welded on the outer sides above the limiting blocks respectively, and the water seepage prevention pieces are arranged in a bilateral symmetry manner and are used for covering the upper parts of the left side unit of one group of photovoltaic tiles and the right side unit of the other group of photovoltaic tiles and preventing strong wind rainwater from flooding into gaps between the two groups of photovoltaic tiles; the thickness of the arc capping between the limiting block and the anti-seepage piece is smaller than the caliber of the socket, so that the arc unit can be inserted into the slot structure;

as an example, the arc roof structure can effectively disperse the rainwater collection and reduce the load of the roof;

as an example, the arc roof structure can effectively form diffuse reflection sunlight, so as to avoid optical pollution caused by large-area light reflection formed by a traditional plane connecting piece;

as an example, the upper and lower limiting functions of the arc roof structure are also realized between the limiting block and the water seepage prevention part, and the bottom of the limiting block is suspended, so that possible water inflow is discharged by using the water tank structure;

as an example, a waterproof rubber strip is arranged inside the anti-seepage piece, so that the problem of rainwater backflow caused by strong wind is further reduced;

as an example, the outer sides of the two groups of water seepage prevention pieces are respectively provided with a chamfer angle which is inclined downwards, so that the gathering effect caused by rainwater is reduced;

has the advantages that:

the utility model has scientific structural design and strong integral structural stress, and can resist the damage of strong wind in severe weather;

secondly, the problem of water inflow between the left photovoltaic tile and the right photovoltaic tile after the photovoltaic tiles are installed is solved through the action of the arc-shaped units; by the ingenious design of the stacked structure, the problem of insufficient water leakage between the upper photovoltaic part and the lower photovoltaic part is solved;

the integral structure is attractive in design, convenient to manufacture, install and maintain in the future, and suitable for popularization and application.

Drawings

Fig. 1 is a schematic view of a left side unit structure of a photovoltaic tile installation structure with waterproof performance according to the present invention.

Fig. 2 is a schematic diagram of a right side unit structure of a photovoltaic tile installation structure with waterproof performance according to the present invention.

Fig. 3 is a schematic view of an upper unit structure of a photovoltaic tile installation structure with waterproof performance according to the present invention.

Fig. 4 is a schematic view of a lower unit structure of a photovoltaic tile installation structure with waterproof performance according to the present invention.

Fig. 5 is a schematic view of an arc-shaped unit structure of a photovoltaic tile installation structure with waterproof performance according to the present invention.

Fig. 6 is a schematic view illustrating an installation effect of the arc-shaped unit of the photovoltaic tile installation structure with waterproof performance according to the present invention.

Detailed Description

Referring now to fig. 1 to 6, a photovoltaic tile installation structure with waterproof performance includes: the device comprises a left side unit, a right side unit, an upper unit, a lower unit and an arc unit;

further, the left side unit is installed on the left side of the photovoltaic tile, the left side unit is of an integrated frame structure, a first corner connector through hole 101 is formed in the middle of the integrated frame structure, and the first corner connector through hole 101 is communicated up and down; a photovoltaic tile lower supporting plate 102 is arranged below the right side of the first corner brace connecting through hole 101; a photovoltaic tile upper clamping plate 103 is arranged above the right side of the first corner brace connecting through hole 101; the left side of the photovoltaic tile is wrapped through the matching of the photovoltaic tile lower supporting plate 102 and the photovoltaic tile upper clamping plate 103; a slot structure is arranged on the left side of the first corner connecting through hole 101, an insertion opening 104 is formed in the upper portion of the slot structure, a water tank structure 105 is arranged below the insertion opening, and the water tank structure 105 is communicated up and down;

as an illustration, the gutter structure 105 is used to direct and drain rainwater;

by way of illustration, the length of the photovoltaic tile lower pallet 102 is greater than the length of the photovoltaic tile upper clamping plate 103;

as an example, the integrated frame structure is made of bridge-cut aluminum, aluminum alloy or stainless steel;

further, the right side unit is installed on the right side of the photovoltaic tile, and the structure of the right side unit and the structure of the left side unit are arranged in a mirror symmetry mode;

further, the upper unit is arranged above the photovoltaic tile, the upper unit is of an integrated frame structure, a second corner brace connecting through hole 201 is formed in the middle of the integrated frame structure, and the second corner brace connecting through hole 201 is through from front to back; a photovoltaic tile lower supporting piece 202 is arranged on the left side below the second corner brace connecting through hole 201; a photovoltaic tile upper clamping piece 203 is arranged on the right side below the second corner brace connecting through hole 201; the upper part of the photovoltaic tile is wrapped through the matching of the photovoltaic tile lower supporting piece 202 and the photovoltaic tile upper clamping piece 203; a stress through hole structure 204 is arranged above the second corner brace connecting through hole 201, and a hook fixing piece 205 is arranged on the left side above the stress through hole structure 204;

as an illustration, the hook fixing member 205 is used for clamping a purline 206 to complete the hanging and fixing above the photovoltaic tile;

by way of illustration, the photovoltaic tile lower holder 202 has a length greater than the photovoltaic tile upper clip 203;

as an example, the stress through hole structure 204 can increase the overall stress of the integrated frame structure, and also can increase a construction gap, so as to prevent the photovoltaic tile above from pressing the panel lighting surface of the photovoltaic tile below when the photovoltaic tiles are stacked up and down;

as an example, the integrated frame structure is made of bridge-cut aluminum, aluminum alloy or stainless steel;

further, the lower unit is arranged below the photovoltaic tile, the lower unit adopts an integrated frame structure, a third code through hole 301 is formed in the right side of the integrated frame structure, and the third code through hole 301 is communicated in the front and back directions; during construction, the left side of the third angle code through hole 301 presses the right side of the stress through hole 204 of the other group of upper units to form a laminated structure, so that rainwater erosion is effectively reduced; a photovoltaic tile supporting plate 302 is arranged on the left side above the lower unit, and a photovoltaic tile clamping plate 303 is arranged on the right side above the lower unit; the photovoltaic tile supporting plate 302 is matched with the photovoltaic tile clamping plate 303 to wrap the lower part of the photovoltaic tile; a lower frame fixing part 304 is arranged on the left side of the photovoltaic tile supporting plate 302;

for an example, a waterproof structure 305 is arranged on the left side below the third corner through hole 301, and is used for further reducing rainwater backflow in windy weather when the right side of the stress through hole 204 of another group of upper units is laminated;

as an application example, the waterproof structure 305 employs a waterproof adhesive tape;

by way of illustration, the length of the photovoltaic tile pallet 302 is greater than the length of the photovoltaic tile cleat 303;

as an example, the integrated frame structure is made of bridge-cut aluminum, aluminum alloy or stainless steel;

furthermore, the left unit, the right unit, the upper unit and the lower unit are connected into a whole through corner connectors; after the lower frame fixing piece 304 compresses the hook fixing piece 205 of the other group of photovoltaic tiles, the two are fixedly connected to the purline 206 through bolts;

furthermore, the arc-shaped units are of an integrated structure, an arc capping structure 401 is arranged in the middle of the integrated structure, two ends of the arc capping structure 401 are provided with limiting blocks 402, water seepage prevention pieces 403 are welded on the outer sides above the limiting blocks 402 respectively, and the water seepage prevention pieces 403 are arranged in a bilateral symmetry manner and used for covering the upper parts of the left side unit of one group of photovoltaic tiles and the right side unit of the other group of photovoltaic tiles and preventing strong wind and rainwater from flooding into gaps between the two groups of photovoltaic tiles; the thickness of the arc capping 401 between the limiting block 402 and the anti-seepage piece 403 is smaller than the caliber of the socket 104, so that the arc unit can be inserted into the slot structure;

as an example, the arc roof structure can effectively disperse the rainwater collection and reduce the load of the roof;

as an example, the arc roof structure can effectively form diffuse reflection sunlight, so as to avoid optical pollution caused by large-area light reflection formed by a traditional plane connecting piece;

as an example, the upper and lower limiting functions of the arc capping structure are also performed between the limiting block 402 and the water-seepage-proof member 403, and at the same time, the bottom of the limiting block 402 is ensured to be suspended, and possible water inflow is discharged by using the water tank structure 105;

as an example, a waterproof rubber strip 404 is arranged inside the water seepage prevention piece 403, so that the problem of rainwater backflow caused by strong wind is further reduced;

as an example, the outer sides of the two groups of water seepage prevention pieces 403 are respectively provided with a chamfer angle which is inclined downwards, so that the gathering effect caused by rainwater is reduced;

the utility model has scientific structural design and strong stress of the whole structure, and can resist the damage of strong wind in severe weather; through the action of the arc-shaped unit, the problem of water inflow between the left photovoltaic tile and the right photovoltaic tile after the photovoltaic tiles are installed is solved; by the ingenious design of the stacked structure, the problem of insufficient water leakage between the upper photovoltaic part and the lower photovoltaic part is solved; the integral structure design is beautiful, the manufacture, the installation and the future maintenance are convenient, and the device is suitable for popularization and application.

The disclosure above is only one specific embodiment of the present application, but the present application is not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present application.

Claims (9)

1. The utility model provides a photovoltaic tile mounting structure spare that possesses waterproof performance which characterized in that includes: the device comprises a left side unit, a right side unit, an upper unit, a lower unit and an arc unit;

the left side unit is arranged on the left side of the photovoltaic tile, the left side unit is of an integrated frame structure, a first corner connector through hole is formed in the middle of the integrated frame structure, and the first corner connector through hole is vertically communicated; a photovoltaic tile lower supporting plate is arranged below the right side of the first corner brace connecting through hole; a photovoltaic tile upper clamping plate is arranged above the right side of the first corner brace connecting through hole; the left side of the photovoltaic tile is wrapped through the matching of the photovoltaic tile lower supporting plate and the photovoltaic tile upper clamping plate; a slot structure is arranged on the left side of the first corner connector through hole, an insertion opening is formed in the upper portion of the slot structure, a water tank structure is arranged below the insertion opening, and the water tank structure is communicated up and down;

the right side unit is arranged on the right side of the photovoltaic tile, and the structure of the right side unit and the structure of the left side unit are arranged in a mirror symmetry mode;

the upper unit is arranged above the photovoltaic tile, the upper unit adopts an integrated frame structure, a second corner brace connecting through hole is arranged in the middle of the integrated frame structure, and the second corner brace connecting through hole is through from front to back; a photovoltaic tile lower supporting piece is arranged on the left side below the second corner brace connecting through hole; a photovoltaic tile upper clamping piece is arranged on the right side below the second corner brace connecting through hole; the upper part of the photovoltaic tile is wrapped through the matching of the photovoltaic tile lower support piece and the photovoltaic tile upper clamping piece; a stress through hole structure is arranged above the second corner brace connecting through hole, and a hook fixing piece is arranged on the left side above the stress through hole structure;

the lower unit is arranged below the photovoltaic tile, the lower unit adopts an integrated frame structure, a third corner brace through hole is formed in the right side of the integrated frame structure, and the front part and the rear part of the third corner brace through hole are communicated; during construction, the left side of the third angle code through hole presses the right side of the stress through hole of the other group of upper units to form a laminated structure, so that rainwater erosion is effectively reduced; a photovoltaic tile supporting plate is arranged on the left side above the lower unit, and a photovoltaic tile clamping plate is arranged on the right side above the lower unit; the lower part of the photovoltaic tile is wrapped through the matching of the photovoltaic tile supporting plate and the photovoltaic tile clamping plate; a lower frame fixing piece is arranged on the left side of the photovoltaic tile supporting plate;

the left side unit, the right side unit, the upper unit and the lower unit are connected into a whole through corner connectors; the lower frame fixing piece is fixedly connected to the purline through a bolt after pressing the other group of hook fixing pieces;

the photovoltaic tile assembly is characterized in that the arc-shaped units are of an integrated structure, an arc capping structure is arranged in the middle of the integrated structure, limiting blocks are arranged at two ends of the arc capping structure, anti-seepage pieces are welded on the outer sides above the limiting blocks respectively, and the anti-seepage pieces are arranged in a bilateral symmetry manner and used for covering the upper parts of the left side units of one group of photovoltaic tiles and the right side units of the other group of photovoltaic tiles and preventing strong wind and rainwater from flooding into gaps between the two groups of photovoltaic tiles; the thickness of the arc capping between the limiting block and the anti-seepage piece is smaller than the caliber of the socket, so that the arc unit can be inserted into the slot structure.

2. The waterproof photovoltaic tile installation according to claim 1, wherein said gutter structure is adapted to channel and drain rain water.

3. The waterproof photovoltaic tile installation structure of claim 1, wherein the photovoltaic tile lower supporting plate has a length greater than that of the photovoltaic tile upper clamping plate; the length of the photovoltaic tile lower supporting piece is greater than that of the photovoltaic tile upper clamping piece; the length of the photovoltaic tile supporting plate is greater than that of the photovoltaic tile clamping plate.

4. The waterproof photovoltaic tile installation structure member according to claim 1, wherein the integrated frame structure is made of bridge-cut aluminum, aluminum alloy or stainless steel; the integrated frame structure is made of bridge-cut-off aluminum, aluminum alloy or stainless steel materials; the integrated frame structure is made of bridge-cut-off aluminum, aluminum alloy or stainless steel materials.

5. The waterproof photovoltaic tile installation structure member as claimed in claim 1, wherein the hook fixing member is used for clamping a purline to complete hooking and fixing above the photovoltaic tile.

6. The photovoltaic tile installation structure with waterproof performance as claimed in claim 1, wherein a waterproof structure is arranged on the left side below the third corner through hole, and the waterproof structure adopts a waterproof adhesive tape.

7. The photovoltaic tile installation structure member with waterproof performance as claimed in claim 1, wherein the upper and lower limiting functions of the arc capping structure are further performed between the limiting block and the water seepage prevention member, and the bottom of the limiting block is suspended, so that the water is drained by the water tank structure.

8. The photovoltaic tile installation structure with waterproof performance as claimed in claim 1, wherein a waterproof rubber strip is arranged inside the waterproof member.

9. The photovoltaic tile installation structure with waterproof performance as claimed in claim 1, wherein the two sets of water seepage prevention members are provided with downward-inclined chamfers at outer sides thereof, respectively.

Images