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Integrated solar roof

A technology of solar energy and solar modules, applied in the field of building energy conservation, can solve problems such as damage to roof waterproofing and heat preservation, difficulty in installing heat collectors, and easy freezing of collection pipelines, etc., to delay aging, improve indoor thermal stability, and save roof space Effect

Inactive Publication Date: 2016-08-31
XIAN BO SOLAR ENERGY CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The traditional sloping roof has the functions of waterproof, heat preservation, light transmission, sunshade, and structural support, but it is difficult to install heat collectors, photovoltaic panels, and skylights. The collection pipelines are exposed on the roof surface and occupy a large space; construction will also Damage to the waterproof and thermal insulation of the roof, making maintenance difficult; during winter operation, the collection pipeline is prone to freeze blockage, aging and damage, and is not beautiful

Method used

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Examples

Experimental program
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Effect test

Embodiment 1

[0030] Example 1: see figure 2 , the black is the radiation conversion module 5 , and the white is the light-transmitting / shielding / heat-reflecting module 4 . This implementation case includes radiation conversion module 5, light-transmitting / shading / heat-reflecting module 4 and light-shielding module 12, etc., according to the design modulus as shown in the figure, they are staggeredly installed above the waterproof and thermal insulation structure layer 1, and treated for waterproofing. The waterproof and thermal insulation structure layer 1 is provided with a waterproof penetration hole 10, and after the radiation conversion module 5 passes through the waterproof penetration hole 10 through the collection pipeline 11, it is connected indoors; the radiation conversion module 5 provided on the solar module layer 3, the light transmission The / shading / heat reflection module 4 itself has a waterproof function. When it rains and snows, most of the rain and snow will be drained ...

Embodiment 2

[0032] Example 2: see image 3 , the black is the radiation conversion module 5 , and the white is the light-transmitting / shielding / heat-reflecting module 4 . This implementation case includes radiation conversion module 5, light-transmitting / shading / heat-reflecting module 4 and shading module 12, etc. According to the design modulus as shown in the figure, the upper and lower strips are installed above the waterproof and thermal insulation structure layer 1, and a flow guide is set Decorative strips are waterproofed.

[0033] When in use, the implementation scheme is the same as that of Embodiment 1; compared with Embodiment 1, the advantage lies in that in Embodiment 2, after the radiation conversion modules 5 are installed in strips up and down, the design and arrangement of the collection pipeline 11 is simplified.

Embodiment 3

[0034] Embodiment 3: see Figure 4 , the black is the radiation conversion module 5 , and the white is the light-transmitting / shielding / heat-reflecting module 4 . This implementation case includes radiation conversion module 5, light-transmitting / shading / heat-reflecting module 4 and shading module 12 lamps. According to the design modulus as shown in the figure, the left and right strips are installed above the waterproof and heat-insulating structure layer 1, and diversion is set Decorative strips are waterproofed.

[0035] When in use, the implementation is the same as in Example 1; compared with Example 1, the advantage lies in that in Example 3, after the radiation conversion modules 5 are installed in strips on the left and right, the design and arrangement of the manifold pipeline 11 is simplified. Compared with embodiment 2, the daylighting of embodiment 3 is not affected by the sun altitude angle.

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PUM

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Abstract

The invention discloses an integrated solar roof, comprising a waterproof thermal insulation structure layer and a solar module layer arranged on the upper side of the waterproof thermal insulation structure layer. The waterproof thermal insulation structure layer and the solar module layer are fixed by support structures arranged therebetween, a spacing interval layer is arranged between the waterproof thermal insulation structure layer and the solar module layer, the solar module layer comprises multiple irradiation conversion modules, multiple waterproof traversing holes are formed in the waterproof thermal insulation structure layer, and the irradiation conversion modules are integrally connected through an integrally connecting pipeline in the waterproof traversing holes. The integrated solar roof has the functions of waterproofness, thermal insulation, photopermeability, sunshading and structural support, and further the integrated solar roof can realize photo-thermal and photo-electricity irradiation conversion, and meets the requirements for hot water, heating and power supply of buildings.

Description

technical field [0001] The invention relates to the field of building energy conservation, in particular to a solar integrated roof. Background technique [0002] Future high-comfort buildings require low-carbon, low-emission solar thermal energy, electric energy, and moderately controllable indoor light and heat radiation environments. From the perspective of the distribution of solar radiation in the building, the inclined roof is the best place to collect solar radiation, and the roof is also the most sensitive place for heat preservation and waterproofing. It is the best solution to use the roof to provide light, heat and photoelectricity to solve light transmission, sunshade and heat radiation control. [0003] The traditional sloping roof has the functions of waterproof, heat preservation, light transmission, sunshade, and structural support, but it is difficult to install heat collectors, photovoltaic panels, and skylights. The collection pipelines are exposed on the...

Claims

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Application Information

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IPC IPC(8): E04D13/00E04D13/16E04D13/18F24J2/20H02S20/23F24S10/50
CPCE04D13/00E04D13/16F24S10/50H02S20/23Y02B10/10Y02B10/20Y02E10/44Y02E10/50
Inventor 李博峰魏永才李建平刘晓波张新华赵长海李兴宾王磊杜悦
Owner XIAN BO SOLAR ENERGY CO LTD
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