CN110616858A - Photovoltaic tile adjusting device for dome roof - Google Patents

Abstract

The invention provides a photovoltaic tile adjusting device for a dome roof, which is arranged on a circular roof. The solar panel comprises a lower layer fixing component, a plurality of supporting components, a steel cable, a driving wheel, an annular slideway, a sliding block fixed with the steel cable and a solar panel. The lower layer fixing component is sleeved on the circular roof. This photovoltaic tile adjusting device to dome roof through the lower floor fixed subassembly that sets up, a plurality of supporting component, cable wire, drive wheel, annular slide, mutually support with slider and solar panel that the cable wire is fixed mutually. The solar energy fixing device can fix the solar panel on the premise of not punching and damaging the circular roof, and meanwhile, a targeted moving structure is arranged on the circular roof structure by utilizing the difference between the circular roof structure and other plane and inclined roof structures, so that the solar panel can convert light energy into electric energy to the maximum degree every day. The working efficiency of the solar panel is greatly improved.

Description

Photovoltaic tile adjusting device for dome roof

Technical Field

The invention relates to the technical field of solar panels, in particular to a photovoltaic tile adjusting device for a dome roof.

Background

In recent years, the awareness of environmental protection in the world is gradually raised, and in order to reduce the pollution of firepower and nuclear power generation to the environment, various research units propose to replace high-pollution energy with renewable energy. In the renewable energy, solar energy is used for generating electricity, which is very attractive because of its low cost and simple operation, so people can use the vacant areas of the building top to install solar panels, and convert the light energy into electric energy by using photoelectric semiconductors for storage.

For example, the Chinese patent "a photovoltaic tile adjusting device" (patent number: CN201910006344.6) comprises two side plates, a supporting plate, a tile hanging strip and a photovoltaic tile member. This patent can be adjusted the inclination of one row of photovoltaic board simultaneously, adjusts more convenience, when the angle of sunshine changes, can be convenient adjust the installation angle of photovoltaic board at any time through step motor's rotation.

However, the above patent is only used for pitched roofs or flat color steel roofs. For the existing circular roof or conical roof, the angle adjusting mechanism used by the device cannot effectively make the lighting of the photovoltaic tiles better. The working efficiency of the photovoltaic tile is greatly reduced.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a photovoltaic tile adjusting device for a dome roof, which solves the problem that the adjusting function of the traditional photovoltaic tile adjusting mechanism on a round or conical roof is greatly reduced.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a photovoltaic tile adjusting device for a dome roof is arranged on a circular roof. The solar panel comprises a lower layer fixing component, a plurality of supporting components, a steel cable, a driving wheel, an annular slideway, a sliding block fixed with the steel cable and a solar panel. The fixed subassembly cover of lower floor is on circular roof, and a plurality of supporting components use the fixed subassembly of lower floor to distribute on the fixed subassembly of lower floor for the equal angle in center. The annular slide way is arranged on the supporting component, and the sliding block is in sliding fit with the annular slide way. The solar panel is arranged on the sliding block. The motor is arranged in the circular roof, and the driving wheel is connected with the output end of the motor. Two limiting grooves are formed in the driving wheel. One end of the steel cable is wound on one limiting groove, and the other end of the steel cable penetrates through the sliding block and is connected with the other limiting groove around the annular slide way in a circle. The winding directions of the steel cables on the two limiting grooves are different.

Preferably, the support assembly comprises a plurality of support blocks and a connection seat. The supporting blocks are sequentially hinged, and the supporting components are connected with the lower-layer fixing component through bolts. And the bottom of the supporting block is provided with a connecting seat. And the two adjacent supporting blocks are drilled manually and fixed by bolts.

Preferably, the lower fixing member includes a plurality of connection blocks. A plurality of connecting blocks are sequentially hinged to form a whole, and the connecting blocks positioned at the head end and the tail end of the whole are connected through bolts. The roof structure also comprises an upper layer fixing component arranged on the circular roof. The upper layer fixing component and the lower layer fixing component are consistent in shape, and the size of the upper layer fixing component is smaller than that of the lower layer fixing component.

Preferably, the supporting block is provided with a groove for facilitating a person to stretch the pliers into and rotate the bolt.

Preferably, a fixing seat is arranged on the supporting component, and the annular slide way is connected with the fixing seat through a bolt.

Preferably, the roof support further comprises a friction block, the back of the support block is provided with the friction block, and the friction block is in contact with the surface of the circular roof.

Preferably, the supporting device further comprises a connecting seat, and the connecting seat is arranged on the back of the supporting block. The friction block is connected with the connecting seat. The connecting seats on two adjacent supporting blocks can be manually punched and connected by bolts.

Preferably, the supporting block and the connecting block are made of high-strength carbon fiber materials.

(III) advantageous effects

The invention provides a photovoltaic tile adjusting device for a dome roof. Has the following beneficial effects:

this photovoltaic tile adjusting device to dome roof through the lower floor fixed subassembly that sets up, a plurality of supporting component, cable wire, drive wheel, annular slide, mutually support with slider and solar panel that the cable wire is fixed mutually. The solar energy fixing device can fix the solar panel on the premise of not punching and damaging the circular roof, and meanwhile, a targeted moving structure is arranged on the circular roof structure by utilizing the difference between the circular roof structure and other plane and inclined roof structures, so that the solar panel can convert light energy into electric energy to the maximum degree every day. The working efficiency of the solar panel is greatly improved.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a side view of the present invention;

FIG. 5 is a top view of the present invention;

fig. 6 is a partial component schematic of the present invention.

In the figure: 1 circular roof, 2 connecting blocks, 3 supporting blocks, 4 fixing seats, 5 driving wheels, 6 lower-layer fixing components, 7 limiting grooves, 8 annular slide ways, 9 supporting components, 10 upper-layer fixing components, 11 solar panels, 12 sliding blocks, 13 middle control mechanisms, 14 motors, 15 steel cables, 16 connecting seats, 17 grooves and 18 friction blocks.

Detailed Description

The invention is explained in more detail below with reference to the figures and examples.

The embodiment of the invention provides a photovoltaic tile adjusting device for a dome roof, which is arranged on a circular roof 1 as shown in figures 1-6. Comprises a lower layer fixing component 6, a plurality of supporting components 9, a steel cable 15, a driving wheel 5, an annular slideway 8, a sliding block 12 fixed with the steel cable 15 and a solar panel 11. The lower layer fixing component 6 is sleeved on the circular roof 1, and the plurality of supporting components 9 are distributed on the lower layer fixing component 6 at equal angles by taking the lower layer fixing component 6 as a center. The annular slide way 8 is arranged on the supporting component 9, and the sliding block 12 is in sliding fit with the annular slide way 8. The solar panel 11 is disposed on the slider 12. An electric motor 14 is arranged in the circular roof 1, and a driving wheel 5 is connected with the output end of the electric motor 14. Two limiting grooves 7 are formed in the driving wheel 5. One end of the steel cable 15 is wound on one of the limiting grooves 7, and the other end of the steel cable passes through the sliding block 12 and is connected with the other limiting groove 7 around the annular slide way 8. The winding directions of the steel cables 15 on the two limiting grooves 7 are different.

Conventional photovoltaic tile adjustment mechanisms are generally only directed to flat roofs or sloping roofs, and are not practical for some special dome buildings, such as gothic conical roofs or semi-circular roofs. And the installation of forcing also can make its fixed firm inadequately, uses the bolt again to destroy its roof surface, moreover because its angle of regulation is limited, also can appear photovoltaic tile daylighting insufficient problem.

The solar energy collecting device can enable the solar panel 11 to move on the annular slide way 8 through the arranged annular slide way 8, so that the solar panel can rotate along with the sun. Further, the solar panels 11 of the present invention can be exposed to sufficient sunlight in both the morning and afternoon.

The support assembly 9 includes a plurality of support blocks 3 and a connection socket 16. The supporting blocks 3 are sequentially hinged, and the supporting component 9 is connected with the lower-layer fixing component 6 through bolts. The bottom of the supporting block 3 is provided with a connecting seat 16. The connecting seats 16 on two adjacent supporting blocks 3 are drilled manually and fixed by bolts.

Through setting up supporting component 9, can carry out angle modulation one by one with a plurality of supporting shoes 3 according to the cambered surface shape on roof for its supporting component 9 and roof surface maximize laminating, and after angle modulation finishes, the manual work is fixed through the long bolt through connecting seat 16 on electric screwdriver with two different supporting shoes 3. Greatly improving the stability of the structure.

The lower fixing member 6 includes a plurality of connection blocks 2. A plurality of connecting blocks 2 are sequentially hinged to form a whole, and the connecting blocks 2 positioned at the head end and the tail end of the whole are connected through bolts.

Also comprises an upper layer fixing component 10 arranged on the circular roof 1. The upper fixing member 10 is formed in conformity with the lower fixing member 6, and the size of the upper fixing member 10 is smaller than that of the lower fixing member 6.

By arranging the upper layer fixing component 10 and the lower layer fixing component 6, the dome can adapt to domes with various shapes by utilizing the adjustability of the plurality of connecting blocks 2, and the applicability of the dome fixing device is greatly enhanced. The fixing effect of the roof fixing device is effectively guaranteed, expansion bolts do not need to be arranged on the roof surface through the two fixing assemblies, and the integrity of the roof is effectively guaranteed. Greatly reducing the possibility of roof water leakage.

The supporting block 3 is provided with a slot 17 which is convenient for a person to extend the pliers into and rotate the bolt.

Through setting up fluting 17, be for making clear of operating space when personnel twist the bolt to two connecting seats 16, make things convenient for personnel's twisting. The work efficiency of personnel is improved indirectly.

The supporting block 3 and the connecting block 2 are made of high-strength carbon fiber materials. The material of the roof is high-strength carbon fiber, and the aim is to reduce the whole weight of the roof and reduce the possibility of pressing and deforming the roof.

The supporting component 9 is provided with a fixing seat 4, and the annular slide way 8 is connected with the fixing seat 4 through a bolt.

The roof support structure further comprises a friction block 18, wherein the friction block 18 is arranged on the back surface of the support block 3, and the friction block 18 is in contact with the surface of the circular roof 1.

The working principle is as follows: when the fixing device is used, firstly, the lower layer fixing component 6 is sleeved on the circular roof 1, the shape and the position of the lower layer fixing component 6 are adjusted, and the circular roof 1 is hooped through bolts. The upper fixing component 10 is placed above the lower fixing component 6, and the circular roof 1 is also hooped through the bolts. Then adjust the position of each supporting shoe 3 on the supporting component 9 earlier for the shape of supporting component 9 agrees with circular roof 1 cambered surface mutually, and the rethread bolt is installed supporting component 9 between lower floor's fixed subassembly 6 and upper strata fixed subassembly 10, install annular slide 8 on supporting component 9 again, and install solar panel 11 on the slider 12 that is located annular slide 8, when the afternoon, well control mechanism 13 signals, motor 14 work, drive spacing groove 7 and rotate, because the winding direction of its two ends of 15 of cable wire that connect is different, drag 15 one end of cable wire and pay off, one end is received the line, drive solar panel 11 and remove. When in the morning, the above working steps are repeated to move the solar panel 11 to the original position.

In summary, the photovoltaic tile adjusting device for the dome roof is characterized in that the lower fixing assembly 6, the plurality of supporting assemblies 9, the steel cable 15, the driving wheel 5, the annular slide way 8, the sliding block 12 fixed to the steel cable 15 and the solar panel 11 are arranged to be matched with each other. The solar energy fixing device can fix the solar panel 11 on the premise of not punching and damaging the circular roof 1, and meanwhile, a targeted moving structure is arranged on the circular roof 1 by utilizing the difference between the structure of the circular roof 1 and other plane and inclined plane roofs, so that the solar panel 11 can convert light energy into electric energy to the maximum degree every day. The working efficiency of the solar panel 11 is greatly improved.

Claims (8)

1. A photovoltaic tile adjusting device for a dome roof, arranged on a circular roof (1), characterized in that: comprises a lower layer fixing component (6), a plurality of supporting components (9), a steel cable (15), a driving wheel (5), an annular slide way (8), a sliding block (12) fixed with the steel cable (15) and a solar panel (11), wherein the lower layer fixing component (6) is sleeved on a circular roof (1), the plurality of supporting components (9) are distributed on the lower layer fixing component (6) by taking the lower layer fixing component (6) as a center and equiangularly, the annular slide way (8) is arranged on the supporting components (9), the sliding block (12) is in sliding fit with the annular slide way (8), the solar panel (11) is arranged on the sliding block (12), the motor (14) is arranged in the circular roof (1), the driving wheel (5) is connected with the output end of the motor (14), two limiting grooves (7) are formed in the driving wheel (5), one end of the steel cable (15) is wound on one of the limiting grooves (7), the other end of the steel rope passes through the sliding block (12) and is connected with the other limit groove (7) around the annular slide way (8), and the winding directions of the steel ropes (15) on the two limit grooves (7) are different.

2. A photovoltaic tile adjustment device for a dome roof, as claimed in claim 1, wherein: the supporting component (9) comprises a plurality of supporting blocks (3) and connecting seats (16), the supporting blocks (3) are sequentially hinged, the supporting component (9) is connected with the lower-layer fixing component (6) through bolts, the connecting seats (16) are arranged at the bottoms of the supporting blocks (3), and the two adjacent supporting blocks (3) are drilled manually and fixed through bolts.

3. A photovoltaic tile adjustment device for a dome roof, as claimed in claim 2, characterized in that: fixed subassembly (6) of lower floor include a plurality of connecting blocks (2), and a plurality of connecting blocks (2) articulate in proper order and form a whole, connecting block (2) that are located whole head and the tail both ends link to each other through the bolt, still including upper fixed subassembly (10) of setting on circular roof (1), the shape of upper fixed subassembly (10) and the fixed subassembly (6) of lower floor is unanimous, the size of the fixed subassembly (10) of upper strata is little than the size of the fixed subassembly (6) of lower floor.

4. A photovoltaic tile adjustment device for a dome roof, as claimed in claim 3, wherein: the supporting block (3) is provided with a groove (17) which is convenient for a person to extend the pliers into and rotate the bolt.

5. A photovoltaic tile adjustment device for a dome roof, according to claim 4, characterized in that: the supporting component (9) is provided with a fixing seat (4), and the annular slide way (8) is connected with the fixing seat (4) through a bolt.

6. A photovoltaic tile adjustment device for a dome roof, according to claim 5, characterized in that: the roof support structure is characterized by further comprising a friction block (18), wherein the friction block (18) is arranged on the back face of the support block (3), and the friction block (18) is in contact with the surface of the circular roof (1).

7. A photovoltaic tile adjustment device for a dome roof, according to claim 6, characterized in that: the supporting device is characterized by further comprising connecting seats (16), wherein the connecting seats (16) are arranged on the back surfaces of the supporting blocks (3), the friction blocks (18) are connected with the connecting seats (16), and the connecting seats (16) on two adjacent supporting blocks (3) can be manually punched and connected through bolts.

8. A photovoltaic tile adjustment device for a dome roof, as claimed in claim 7, wherein: the supporting block (3) and the connecting block (2) are made of high-strength carbon fiber materials.