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Building wall with linear photovoltaic device

A building wall, linear light technology, applied in the support structure of photovoltaic modules, photovoltaic power generation, photovoltaic modules and other directions, can solve the problems of many installation frames, unable to meet the requirements of building materials, difficult costs, etc., to achieve beautiful lines and reduce the frame. Cost and labor cost, simple and practical effect

Pending Publication Date: 2018-11-06
深圳市优行光能科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In the past, photovoltaic buildings have the following disadvantages: low strength, traditional photovoltaic installation methods are difficult to withstand wind pressure, and cannot meet the requirements of building materials; there are many installation frames around photovoltaic modules, and the cost is difficult to reduce; single function, which affects the light transmission of buildings while generating electricity Ratio and perspective; the appearance is more like a dense dark photovoltaic power station, which is difficult to meet the requirements of architectural aesthetics

Method used

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  • Building wall with linear photovoltaic device
  • Building wall with linear photovoltaic device
  • Building wall with linear photovoltaic device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] Such as Figures 1 to 3 As shown, a building wall with a linear photovoltaic device includes a wall body 10, and a number of linear photovoltaic devices 11 are installed on the wall body 10. The linear photovoltaic device 11 includes several mounting brackets and several photovoltaic modules 12, and the mounting bracket Fixed on the wall body 10, the photovoltaic module 12 is installed on the mounting bracket.

[0037] Such as Figure 4 As shown, the mounting bracket includes a support frame 13, an upper mounting frame 14 and a lower mounting frame 15, the support frame 13 is parallel to the wall surface of the wall body 11, and is fixed on the wall body 11 by bolts 131, the upper mounting frame 14 and the The lower mounting frame 15 is distributed on the upper and lower ends of the supporting frame 13, and extends outwards perpendicular to the supporting frame 13. The upper mounting frame 14 includes a front card 141 of the upper mounting frame and a rear card 142 of ...

Embodiment 2

[0042] Such as Figures 5 to 7As shown, a building wall with a linear photovoltaic device includes a wall body 20, and a number of linear photovoltaic devices 21 are installed on the wall body 20. The linear photovoltaic device 21 includes several mounting brackets and several photovoltaic modules 22, and the mounting bracket Fixed on the wall body 20, the photovoltaic module 22 is installed on the installation bracket.

[0043] Such as Figure 8 As shown, the mounting bracket includes a left mounting frame 23 and a right mounting frame 24. The left mounting frame 23 and the right mounting frame 24 are respectively fixed on the wall body 20 by bolts 231 and 241. The photovoltaic module 22 is a U-shaped glass photovoltaic module. One end is folded into the left mounting frame 23, the other end is folded into the right mounting frame 24, and fixed with glass glue 25 respectively, and respectively pressed with the second photovoltaic bead 26, and the second photovoltaic bead 26 ...

Embodiment 3

[0048] Such as Figures 9 to 10 As shown, a building wall with a linear photovoltaic device includes a wall body 30, and a number of linear photovoltaic devices 31 are installed on the wall body 30. The linear photovoltaic device 31 includes several mounting brackets and several photovoltaic modules 32, and the mounting bracket Fixed on the wall body 30, the photovoltaic module 32 is installed on the installation bracket.

[0049] Such as Figures 11 to 12 As shown, the mounting bracket includes a main mounting frame 33, a lower mounting groove 34, a lower buffer block 35, an upper mounting groove 36 and an upper buffer block 37, the mounting main frame 33 is fixed on the wall body 30 by bolts 331, and the lower mounting groove 34 It is installed on the upper frame surface 332 of the main frame 33 by bolts 341, and the lower buffer block 35 is snapped into the lower installation groove 34, and the upper installation groove 36 is installed on the lower frame surface 333 of the...

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Abstract

The invention discloses a building wall with a linear photovoltaic device. The building wall with the linear photovoltaic device comprises a wall body; a plurality of linear photovoltaic devices are arranged on the wall body, the linear photovoltaic device comprises a plurality of mounting brackets and a plurality of photovoltaic modules; the mounting brackets are fixed on the wall body, the photovoltaic modules are arranged on the mounting bracket. By adopting the high-strength U-shaped glass photovoltaic module, the frame cost and manpower cost are reduced by only needing the mounting brackets at two sides without dense frames all around; the structure is simple and practical in structure, the photovoltaics are arranged on the building wall at intervals and horizontally arranged as building waistline and louvers, or vertically arranged as the grid decoration, the line is beautiful and the building wall is not only the pure power station.

Description

【Technical field】 [0001] The invention relates to the field of energy-saving and environment-friendly buildings, in particular to a building wall with a linear photovoltaic device. 【Background technique】 [0002] Photovoltaic buildings have been advocated for many years, but due to the high cost and lack of aesthetic appearance, the application of photovoltaics in buildings is limited. With the reduction of photovoltaic costs and the diversification of photovoltaic products, it is possible to design a photovoltaic building that is both beautiful and cheap. [0003] In the past, photovoltaic buildings have the following disadvantages: low strength, traditional photovoltaic installation methods are difficult to withstand wind pressure, and cannot meet the requirements of building materials; there are many installation frames around photovoltaic modules, and the cost is difficult to reduce; single function, which affects the light transmission of buildings while generating elec...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02S20/22
CPCH02S20/22Y02B10/10Y02E10/50
Inventor 徐国华谢志东刘壮
Owner 深圳市优行光能科技有限公司