Photovoltaic building integrated corridor

Abstract

The invention discloses a photovoltaic building integrated corridor. The photovoltaic building integrated corridor comprises a steel frame structure, a wallboard and an obliquely arranged roof panel, wherein the roof panel is a photovoltaic module panel; a plurality of oblique brackets are uniformly distributed on the top structure of the steel frame structure in the longitudinal direction of the corridor; a plurality of groups of photovoltaic module panels are sequentially laid between the adjacent oblique brackets in the longitudinal direction of the corridor; each group of photovoltaic module panels comprises a plurality of first-class photovoltaic module panels and a second-class photovoltaic module panel; the first-class photovoltaic module panels are connected with the adjacent photovoltaic module panels through inserting structures; the first-class photovoltaic module panels are connected with the oblique brackets through inserting structures; the second-class photovoltaic module panels are connected with the oblique brackets through oblique plane pressing structures; water-resisting strips are arranged between the opposite side surfaces of the oblique plane pressing structures and the second-class photovoltaic module panels; and water-resisting strips are also arranged between the opposite surfaces in the inserting structures. According to the photovoltaic building integrated corridor, the mounting steps are simplified on the premise of ensuring the anti-seepage effect of the roof, the mounting time required by mounting personnel on the roof is reduced, and the risk is reduced.

Description

technical field [0001] The invention belongs to the field of solar power generation and relates to a photovoltaic building integrated corridor. Background technique [0002] The installation of photovoltaic modules on the top of the original corridor adopts the traditional installation method, and is installed flat on the top of the corridor color steel tile. As the roof panel, the corridor color steel tile needs to be installed through the anti-seepage installation structure. In this structural form, the photovoltaic square array needs to be installed after the corridor construction is completed, that is, the corridor color steel tile and the photovoltaic array need to be installed successively on the roof part of the corridor. Components have high economic costs, which also lead to longer installation time on the roof, construction difficulty and greater safety risks during installation. Installing photovoltaic modules on color steel tiles will also damage the original co...

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to provide a building integrated photovoltaic corridor to solve the technical problems in the prior art that it is difficult to simplify the installation steps on the premise of ensuring the roof seepage prevention effect, reduce the installation time required by the installation personnel on the roof and reduce the risk

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