CN109537823B - Portable stacked photovoltaic tile and installation method thereof - Google Patents

Abstract

The invention provides a portable stacked photovoltaic tile and an installation method thereof, wherein the portable stacked photovoltaic tile is arranged on a base with an inclined plane, the portable stacked photovoltaic tile comprises a tile body, a battery piece, a rotating mechanism, a supporting plate and a limiting plate, the battery piece is arranged at the top of the tile body, the rotating mechanism comprises a fixing lug and a rotating sleeve pivoted on the fixing lug, the fixing lug is arranged on the tile body, the supporting plate and the limiting plate are both arranged on the rotating sleeve, the included angle between the supporting plate and the limiting plate is larger than 90 degrees and smaller than 180 degrees, and the included angle between the inclined plane and the bottom surface of the base is the same as the included angle between the supporting plate and the limiting plate. On a non-tiled linoleum roof, the bases are sequentially arranged, and then the photovoltaic tiles are placed on the bases, and the support plates and the limiting plates are turned over. The limiting plate is contacted with the inclined plane of the base, so that the photovoltaic tile can be prevented from falling off, and the installation is firm. And placing the next photovoltaic tile on the previous photovoltaic tile, and enabling the support plate groove of the photovoltaic tile to be embedded with the support plate of the previous tile.

Description

Portable stacked photovoltaic tile and installation method thereof

Technical Field

The invention relates to the technical field of photovoltaics, in particular to a portable stacked photovoltaic tile and an installation method thereof.

Background

With the development of society, fossil energy sources such as coal, petroleum and natural gas are gradually reduced, and solar energy is gradually popularized and applied as a clean energy source. Because solar energy has the characteristics of dispersibility, instability and low efficiency, the solar energy utilization at the present stage mainly comprises solar energy photovoltaics and solar heat energy. The solar photovoltaic uses a photovoltaic panel assembly as a carrier, and the photovoltaic panel assembly generates direct current when irradiated by sunlight.

Solar panels have fewer components. The main components are panels, mounting systems, inverters, electrical interfaces to existing electrical grids, etc.

While existing roofs covered with ordinary tiles present unique challenges in terms of installation of photovoltaic panels, primarily because ordinary tiles are neither flat nor flexible. In addition, they must typically be removed or completely removed at the time of installation to attach the required mounting hardware to the underlying roof or roof rafters to support the array of solar photovoltaic panels. The installation mode is complicated, the original roof structure is damaged greatly in the installation process, and hidden dangers such as water leakage exist.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides the portable stacked photovoltaic tile which is convenient to install and transport and the installation method thereof.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a portable stack photovoltaic tile, sets up on the base that has the inclined plane, including tile body, battery piece, rotary mechanism, backup pad, limiting plate, the battery piece sets up the top at the tile body, rotary mechanism includes fixed ear and pin joint swivel boot on fixed ear, fixed ear sets up on the tile body, backup pad and limiting plate all set up on swivel boot, the contained angle between backup pad and the limiting plate is greater than 90 and is less than 180, contained angle between inclined plane and the base bottom surface is the same with the contained angle between backup pad and the limiting plate.

Preferably, concave caulking grooves are formed in the tops of the tile bodies, and the battery pieces are embedded in the caulking grooves.

Preferably, the support plate can cover the caulking groove after being turned upwards.

Preferably, a support plate groove matched with the support plate is formed in the bottom of the tile body, and the support plate can be placed in the support plate groove.

Preferably, the included angle between the supporting plate and the limiting plate is 100 degrees.

Preferably, the device further comprises a buckling mechanism, wherein the buckling mechanism comprises a clamping groove formed in the base and a clamping block matched with the clamping groove, and the clamping block is arranged on the supporting plate.

The installation method of the portable stacked photovoltaic tile comprises the following steps of:

step one: a plurality of long-strip bases are equidistantly arranged on the roof along the longitudinal direction.

Step two: the first light tile is placed on the first base, the battery piece faces upwards, and then the supporting plate is turned over towards the direction of the adjacent second base, so that the supporting plate acts on the second base, and meanwhile, the limiting plate is contacted with the inclined plane of the first base.

Step three: the supporting plate groove at the bottom of the second light tile is buckled on the supporting plate of the first light tile, then the supporting plate on the second light tile is turned towards the direction of the adjacent third base, so that the supporting plate on the second light tile acts on the third base, and meanwhile, the limiting plate on the second light tile is contacted with the inclined plane of the second base.

Step four: the supporting plate groove at the bottom of the Nth light tile is buckled on the supporting plate of the second light tile, then the supporting plate on the Nth light tile is turned towards the direction of the adjacent (N+1) th base, so that the supporting plate on the Nth light tile acts on the (N+1) th base, and meanwhile, the limiting plate on the Nth light tile contacts with the inclined plane of the Nth base.

Step five: the supporting plate groove at the bottom of the (N+1) th optical tile is buckled on the supporting plate of the (N+1) th optical tile, and then the supporting plate on the (N+1) th optical tile is turned towards the direction of the adjacent (N+2) th base, so that the supporting plate on the (N+1) th optical tile acts on the (N+2) th base, and meanwhile, the limiting plate on the (N+1) th optical tile contacts with the inclined plane of the (N+1) th base.

Step six: and step five, repeating the step until the transverse row of light tiles are completely paved.

Step seven: and (3) starting M rows, and repeating the second to sixth steps until the roof is full of light tiles.

(III) beneficial effects

The invention provides a portable stacked photovoltaic tile and an installation method thereof. The beneficial effects are as follows:

1. the portable stacked photovoltaic tiles are arranged on a base in sequence on a non-tiled linoleum roof, and then the photovoltaic tiles are placed on the base, and the supporting plate and the limiting plate are turned over. The limiting plate is contacted with the inclined plane of the base, so that the photovoltaic tile can be prevented from falling off, and the installation is firm. And placing the next photovoltaic tile on the previous photovoltaic tile, and enabling the support plate groove of the photovoltaic tile to be embedded with the support plate of the previous tile. The whole row of photovoltaic tiles are connected together, and the firmness is high. And the installation and the laying are simple and convenient.

2. The portable stacking photovoltaic tile is characterized in that the supporting plate is turned upwards to cover the battery piece, so that the plurality of Zhang Guangfu tiles are stacked together, the battery piece is not easy to damage, and the supporting plate plays a role in protecting the battery piece in the transportation process.

Drawings

FIG. 1 is a side view of an installation shaft of the present invention;

FIG. 2 is a top plan view of the installation of the present invention;

FIG. 3 is a side elevational view of the support plate of the present invention with the support plate turned open;

FIG. 4 is a top plan view of the support plate of the present invention;

FIG. 5 is a side view of the folding axis of the support plate of the present invention;

FIG. 6 is a stacked storage view of the present invention;

FIG. 7 is an installation elevation view of the present invention;

fig. 8 is an enlarged view of fig. 7 at a in accordance with the present invention.

In the figure: the tile comprises a tile body 1, a caulking groove 11, a supporting plate groove 12, a battery piece 2, a rotating mechanism 3, a fixing lug 31, a rotating sleeve 32, a rotating shaft 33, a supporting plate 4, a limiting plate 5, a base 6, an inclined surface 61, a buckling mechanism 7, a clamping block 71 and a clamping groove 72.

Detailed Description

The embodiment of the invention provides a portable stacked photovoltaic tile, which is arranged on a base 6 with an inclined plane 61 as shown in figures 1-8 and comprises a tile body 1, a battery piece 2, a rotating mechanism 3, a supporting plate 4 and a limiting plate 5.

The battery piece 2 sets up at the top of tile body 1, and concave caulking groove 11 has been seted up at the top of tile body 1. The battery piece 2 is embedded in the caulking groove 11.

The rotation mechanism 3 includes a fixed lug 31 and a rotation sleeve 32. The rotary sleeve 32 is pivoted to the fixed lug 31 through a rotary shaft 33, and both ends of the rotary shaft 33 are fixed through nuts.

The fixed ear 31 sets up on tile body 1, and backup pad 4 and limiting plate 5 all set up on swivel 32. The rotation of the rotating sleeve 32 can drive the supporting plate 4 and the limiting plate 5 to synchronously rotate.

The included angle between the supporting plate 4 and the limiting plate 5 is more than 90 degrees and less than 180 degrees.

Since the support plate 4 is laid on the base 6 in parallel, the limiting plate 5 and the inclined surface 61 on the base 6 form a supporting force, and the included angle between the limiting plate and the support plate 4 is at least greater than 90 degrees. And theoretically cannot be greater than 180 °. The angle between the support plate 4 and the limiting plate 5 is optimally 100 degrees.

The base 6 is isosceles trapezoid, two waists are inclined planes 61, and the upper bottom of the base 6 faces downwards and the lower bottom faces upwards when the base is installed. The included angle between the upper bottom of the trapezoid base 6 and the inclined plane 61 is the same as the included angle between the supporting plate 4 and the limiting plate 5.

The support plate 4 can cover the caulking groove 11 after being turned upwards. As shown in fig. 6, the supporting plate 4 is turned upwards to cover the battery piece 2, so that the battery piece 2 is not easily damaged when a plurality of Zhang Guangfu watts are stacked together, and the supporting plate 4 plays a role in protecting the battery piece 2 in the transportation process. And the support plate 4 of the lower layer photovoltaic tile can be pressed by the upper layer photovoltaic tile, and the support plate 4 and the limiting plate 5 can not rotate in the transportation process. The stability in the transportation process is higher.

The bottom of the tile body 1 is provided with a support plate groove 12 which is matched with the support plate 4, and the support plate 4 can be placed in the support plate groove 12.

The photovoltaic tile further comprises a buckling mechanism 7, wherein the buckling mechanism 7 comprises a clamping groove 72 formed in the base 6 and a clamping block 71 matched with the clamping groove, and the clamping block 71 is arranged on the supporting plate 4. While the support plate 4 is turned over onto the base 6, the clamping block 71 falls into the clamping groove 72.

As shown in fig. 1-2, a method for installing a portable stacked photovoltaic tile includes the steps of:

step one: a plurality of elongated bases 6 are mounted on the roof at equal intervals in the longitudinal direction.

Step two: the first photovoltaic tile is placed on the first base 6, the battery piece 2 faces upwards, and then the supporting plate 4 is turned over towards the adjacent second base 6, so that the supporting plate 4 acts on the second base 6, and meanwhile, the limiting plate 5 is contacted with the inclined surface 61 of the first base 6. And then wiring is carried out, wherein the wiring is in the prior art, and detailed description is omitted.

Step three: the support plate groove 12 at the bottom of the second light tile is buckled on the support plate 4 of the first light tile, then the support plate 4 on the second light tile is turned towards the direction of the adjacent third base 6, so that the support plate 4 on the second light tile acts on the third base 6, and meanwhile, the limit plate 5 on the second light tile contacts with the inclined surface 61 of the second base 6.

Step four: the supporting plate groove 12 at the bottom of the nth light tile is buckled on the supporting plate 4 of the second light tile, then the supporting plate 4 on the nth light tile is turned towards the direction of the adjacent (n+1) th base 6, so that the supporting plate 4 on the nth light tile acts on the (n+1) th base 6, and meanwhile, the limiting plate 5 on the nth light tile is contacted with the inclined plane 61 of the (N) th base 6.

Step five: the supporting plate groove 12 at the bottom of the (N+1) th optical tile is buckled on the supporting plate 4 of the (N+1) th optical tile, and then the supporting plate 4 on the (N+1) th optical tile is turned towards the direction of the adjacent (N+2) th base 6, so that the supporting plate 4 on the (N+1) th optical tile acts on the (N+2) th base 6, and meanwhile, the limiting plate 5 on the (N+1) th optical tile is contacted with the inclined plane 61 of the (N+1) th base.

Step six: and step five, repeating the step until the transverse row of light tiles are completely paved.

Step seven: and (3) starting M rows, and repeating the second to sixth steps until the roof is full of light tiles.

The specific value of N, M in the above steps depends on the specific length and width of the roof.

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

Claims (3)

1. A portable stacked photovoltaic tile, arranged on a base (6) with an inclined surface (61), characterized in that: including tile body (1), battery piece (2), rotary mechanism (3), backup pad (4), limiting plate (5), battery piece (2) set up the top at tile body (1), rotary mechanism (3) are including fixed ear (31) and pin joint swivel boot (32) on fixed ear (31), fixed ear (31) set up on tile body (1), backup pad (4) all set up on swivel boot (32) with limiting plate (5), contained angle between backup pad (4) and limiting plate (5) is greater than 90 and is less than 180, contained angle between inclined plane (61) and base (6) bottom surface is the same with contained angle between backup pad (4) and limiting plate (5); concave caulking groove (11) have been seted up at the top of tile body (1), battery piece (2) are inlayed in caulking groove (11), can cover caulking groove (11) after backup pad (4) upwards overturn, backup pad groove (12) with backup pad (4) looks adaptation have been seted up to the bottom of tile body (1), and backup pad (4) can be put into in backup pad groove (12).

2. A portable stacked photovoltaic tile as claimed in claim 1, wherein: the included angle between the supporting plate (4) and the limiting plate (5) is 100 degrees.

3. A portable stacked photovoltaic tile as claimed in claim 1, wherein: the novel clamping device is characterized by further comprising a buckling mechanism (7), wherein the buckling mechanism (7) comprises a clamping groove (72) formed in the base (6) and a clamping block (71) matched with the clamping groove, and the clamping block (71) is arranged on the supporting plate (4).