Photovoltaic honeycomb component module with heat collecting pipe

Abstract

The invention relates to a photovoltaic honeycomb component module with a heat collecting pipe, comprising a photovoltaic component formed by a photovoltaic plate, a connector and a connecting box, wherein a solar heat collecting pipe, a honeycomb core layer and a back plate are arranged at the lower layer of the photovoltaic plate in sequence and are adhered through a hot melt adhesive membrane to form a main body structure of the component module; an aluminum alloy frame is arranged at the periphery of the main body structure of the component module; the connector includes a positive electrode connector and a negative electrode connector; two ports of the solar heat collecting pipe are provided with an inlet joint and an entrance joint which are respectively arranged at the two sides ofthe component module; and the connecting box is arranged inside the honeycomb core layer. The photovoltaic honeycomb component module integrates the advantages of photovoltaic batteries and the heat collecting technology, has all the performance characteristics of aluminum honeycomb plates, better solves the problems of the peeling of the photovoltaic component and materials and heat dissipation of the diode in the connecting box and the like, and has the advantages of standard modular structure design, strong integrity, convenience in install and relatively lower cost.

Description

[0001] technical field [0002] The invention relates to a novel photovoltaic building material, in particular to a photovoltaic heat pipe honeycomb component module, which can be used for solar power generation and heat collection, and can also be used as a building material for the top floor or wall of a building. [0003] Background technique [0004] Due to the energy crisis and the need for sustainable development, photovoltaic power generation, especially photovoltaic building integration, is one of the important technical means. The optimal combination of photovoltaics and buildings has a broad market, and photovoltaic honeycomb modules will be an important choice. In the solar photovoltaic cells in the prior art, the photovoltaic panels are laid on the top floor of the building using a fixing frame, and the photovoltaic panels are connected by cables. This installation method is costly and complicated. However, the honeycomb panels in the prior art are mainly used...

AI Technical Summary

Problems solved by technology

The technical solution of this patent is simply to bond and combine the finished photovoltaic module and the finished aluminum honeycomb panel. Thick photovoltaic modules, photovoltaic modules and material peeling off will be more serious, and their safety cannot be guaranteed in engineering applications. The current building exterior walls are no longer allowed to use adhesive building materials; The junction box and its bypass protection diode are necessary and important parts, which are usually bonded on the back of the photovoltaic module. According to the structure of the above patent, only the junction box and the bypass diode are placed outside the solar honeycomb panel. The first solar honeycomb panel lacks integrity; if it is to be placed in the solar honeycomb panel, there will be a problem of heat dissipation of the diodes in the junction box; fourth: the patent "set the solar panel on the upper aluminum alloy panel, and the solar panel and the upper aluminum alloy panel There is a third layer of glue between them. The upper aluminum alloy panel is the most expensive material in the aluminum honeycomb panel. This combination not only causes the problem of material peeling off, but also directly leads to an increase in cost; fifth: it cannot be used for heating

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