CN201330476Y

CN201330476Y - Novel Han tile integrating comprehensive utilization of solar energy and building

Info

Publication number: CN201330476Y
Application number: CNU2008202381949U
Authority: CN
Inventors: 徐诵舜
Original assignee: Individual
Current assignee: NANJING NANZHOU NEW ENERGY RESEARCH AND DEVELOPMENT Co Ltd
Priority date: 2008-12-18
Filing date: 2008-12-18
Publication date: 2009-10-21
Anticipated expiration: 2018-12-18

Abstract

The utility model relates to a building component, in particular to a novel Han tile integrating comprehensive utilization of solar energy and building, which comprises a CPC compound parabolic condensing lens and a silicon photovoltaic cell component. The silicon photovoltaic cell component is arranged on the bottom of the CPC compound parabolic condensing lens and is connected with a storage battery; a heat exchange pipe is arranged below the CPC compound parabolic condensing lens or between adjacent CPC compound parabolic condensing lenses and connected with a heat capacitor; and the periphery of the heat exchange pipe is provided with a thermal insulation material. The utility model has the advantages of requiring no tracking of sunlight, realizing the synchronous and synoecious photovoltaic and photothermal conversion throughout the year with the solar energy, and simultaneously solving the problems of water prevention, thermal insulation, wind resistance, cold protection and finishes for the roof.

Description

The Xin Hanwa of solar energy composite utilization and architecture-integral

Technical field

The utility model relates to a kind of building unit, the Xin Hanwa of solar energy composite utilization specifically and architecture-integral.

Background technology

The Chinese watt is a kind of building unit of using always, the effect of waterproof, heat insulation, wind resistance, resisting cold and facing is only arranged over over thousands of year, do not fully utilize the function of solar energy, and existing solar energy collector is the single-piece assembling, it is poor to exist with the structure trunk associativity, complexity is installed, the wind resistance deficiency, influence the cleaning of building own, problem such as the roofing overall utilization rate is low.Solar water heater that construction sector and energy sector advocate and building combination technology are in demonstration phase and rarely commercially produce.

Solar energy power generating is the important component part of regenerative resource, but because solar cell costs an arm and a leg to have hindered and large-scale develops and utilizes, technology and approach that countries in the world all reduce cost in exploration, main following several: one, set about adopting new technology from solar cell itself, new material, new technology; Two, set about from photovoltaic generating system, improve the solar radiation density that incides on the solar cell unit area, obtain electric energy as much as possible with minimum area, improve photoelectric transformation efficiency; Three, adopt the technology of following the tracks of the sun.The main difficulty that wherein improves photoelectric transformation efficiency is: along with the solar energy irradiation intensity increases, the photocell surface Working Temperature increases synchronously, and battery open circuit voltage reduces, and photoelectric transformation efficiency reduces.

Summary of the invention

Technical problem to be solved in the utility model is: at the shortcoming of above prior art existence, propose a kind of existing waterproof, insulation, draining, have again and utilize the whole year solar energy to make up for resident family provides the integrated building of power supply, the energy---the Xin Hanwa of solar energy composite utilization and architecture-integral.

The technical scheme that the utility model solves above technical problem is: the Xin Hanwa of solar energy composite utilization and architecture-integral, comprise CPC compound parabolic concentrator and silicon photocell assembly, the silicon photocell assembly is located at the bottom of CPC compound parabolic concentrator, the silicon photocell assembly is connected with battery, below the CPC compound parabolic concentrator, or the below of adjacent CPC compound parabolic concentrator is equipped with heat-exchange tube, heat-exchange tube links to each other with thermal storage device, and the periphery of heat-exchange tube is provided with heat insulating material.

The Xin Hanwa of solar energy composite utilization of the present utility model and architecture-integral, the optically focused ratio of CPC compound parabolic concentrator are greater than 2.5, and the collection angle of CPC compound parabolic concentrator is 47 degree.The surface of silicon photocell assembly is provided with translucent cover.The top of CPC compound parabolic concentrator is provided with transparent cover plate, is provided with sealing buckle or rhone between each adjacent transparent cover plate.The heat insulating material bottom is provided with and the corresponding draw-in groove of the pre-buried card article in roof.

The utility model has the advantages that: the Xin Hanwa of solar energy composite utilization of the present utility model and architecture-integral need not to follow the tracks of sunshine, utilize the whole year solar energy to realize the synchronous consubstantiality conversion of photovoltaic/thermal, when solving the waterproof on roof, heat insulation, wind resistance, resisting cold and facing problem, provide thermal source and power supply, building roof and utilization of new energy resources are struck up partnership, reaching material-saving, the effect of energy-conservation and environmental protection.The utility model utilizes the CPC compound parabolic concentrator by photoelectricity, photo-thermal combination, and the width of cloth that increases the silicon photocell assembly has reduced cost according to intensity.And the silicon photocell assembly surface is cooled with cooling medium by heat-exchange tube, both improved the photoelectric transformation efficiency of silicon photocell assembly at double, the heat energy of the sun is utilized effectively.The utility model can replace the roofing and the body of wall of brick, watt application housing construction, has realized that housing construction utilizes the purpose of the synchronous consubstantiality power supply of solar energy heat supply.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment one.

The specific embodiment

Embodiment one

The structure of present embodiment as shown in Figure 1, solar energy composite utilizes and the Xin Hanwa of architecture-integral is made up of a plurality of CPC compound parabolic concentrators 1, the bottom surface of each CPC compound parabolic concentrator 1 all is provided with silicon photocell assembly 2, the optically focused ratio of CPC compound parabolic face condenser 1 is greater than 2.5, and the collection angle of CPC composite parabolic optically focused 1 device is 47 degree.Silicon photocell assembly 2 is by silicon photocell monomer assembling and packaged, and it has the connection lead, is used to connect battery etc., is used for generating.Be provided with heat-exchange tube 3 below silicon photocell assembly 2, heat-exchange tube 3 links to each other with thermal storage device, and the heat-exchange tube of present embodiment can be a circulating water pipe, and the top is connected to water inlet pipe, and the below is connected to outlet pipe.Periphery at heat-exchange tube 3 is provided with heat insulating material 5, plays insulation effect.The top of CPC compound parabolic concentrator 1 is provided with transparent cover plate 6, is provided with sealing buckle or rhone between each adjacent transparent cover plate 6.Transparent cover plate 6 can protect CPC compound parabolic concentrator 1 and silicon photocell assembly 2 surfaces not contaminated.The surface of silicon photocell assembly 2 also is provided with translucent cover 4.

The utility model is when concrete the installation, the Xin Hanwa monomer of each solar energy composite utilization and architecture-integral is stuck on the pre-buried card article in roof, closely link to each other between each monomer, top between each monomer joins by the sealing of transparent cover plate utilization sealing buckle, maintenance personal's passage during for the ease of draining and as maintenance, utilize rhone to join between the Chinese watt monomer of certain distance, rhone can be the U type, is used to connect adjacent transparent cover plate.

Embodiment two

The unique difference part of the structure of present embodiment and embodiment one is: heat-exchange tube 3 be located at adjacent CPC compound parabolic concentrator 1 between.The operating principle of present embodiment is identical with embodiment one.

The utility model can also have other embodiment, and the technical scheme that equal replacement of all employings or equivalent transformation form all drops within the claimed scope of the utility model.

Claims

1. the Xin Hanwa of solar energy composite utilization and architecture-integral, comprise CPC compound parabolic face condenser and silicon photocell assembly, described silicon photocell assembly is located at the bottom of CPC compound parabolic face condenser, described silicon photocell assembly is connected with battery, it is characterized in that: below CPC compound parabolic face condenser, or be provided with heat-exchange tube below the adjacent CPC compound parabolic face condenser, and described heat-exchange tube links to each other with thermal storage device, and the periphery of described heat-exchange tube is provided with heat insulating material.

2. the Xin Hanwa of solar energy composite utilization as claimed in claim 1 and architecture-integral is characterized in that: the optically focused ratio of described CPC compound parabolic face condenser is greater than 2.5.

3. the Xin Hanwa of solar energy composite utilization as claimed in claim 1 and architecture-integral is characterized in that: the collection angle of described CPC compound parabolic face condenser is 47 degree.

4. the Xin Hanwa of solar energy composite utilization as claimed in claim 1 and architecture-integral is characterized in that: the surface of described silicon photocell assembly is provided with translucent cover.

5. the Xin Hanwa of solar energy composite utilization as claimed in claim 1 and architecture-integral is characterized in that: the top of described CPC compound parabolic face condenser is provided with transparent cover plate, is provided with sealing buckle or rhone between described each adjacent transparent cover plate.

6. the Xin Hanwa of solar energy composite utilization as claimed in claim 1 and architecture-integral is characterized in that: described heat insulating material bottom is provided with and the corresponding draw-in groove of the pre-buried card article in roof.