CN202299188U - Mounting structure of solar photovoltaic glass for truss structure - Google Patents

Abstract

A solar photovoltaic glass installation structure for a truss structure, which includes a metal truss, main purlins, secondary purlins, galvanized steel wire mesh, centrifugal glass insulation cotton layer, straight air seam aluminum plate, square steel keel, aluminum alloy sub-frame and Solar photovoltaic panels, the main purlin is set on the metal truss through the truss bracket, the secondary purlin is welded on the main purlin, and the secondary purlin is fixed with galvanized steel wire mesh, and the galvanized steel mesh is covered with a centrifugal glass insulation layer. The aluminum alloy bracket is fixed on the glass insulation cotton layer, the upper end of the aluminum alloy bracket is connected with the straight air-locked aluminum plate, the straight-air seamed aluminum plate is fixed with a square steel keel, and the aluminum alloy sub-frame is fixed on the square steel keel, and the solar photovoltaic panel is installed on the aluminum alloy subframe. In the utility model, brackets are used to connect the main and secondary purlin structures on which solar photovoltaic panels are installed with metal trusses, without damaging the existing structure of the roof, and the construction is simple, which ensures the safety of solar photovoltaic panels and improves construction efficiency.

Description

Solar photovoltaic glass installation structure for truss structure

technical field

The utility model relates to the construction field, in particular to a solar construction structure, in particular to a solar photovoltaic glass installation structure for a truss structure.

Background technique

Building-integrated solar photovoltaic technology is a technology that integrates or combines solar power generation (photovoltaic) products into buildings. It not only has the function of external protective structures, but also can generate electricity for building use. Solar photovoltaic roof integration is to make photovoltaic panels into roof panels or cover the entire roof of flat or sloped roofs in the form of tiles, and can also cover part of the roof. The integration with buildings has higher flexibility. The existing metal structure roof construction structure usually destroys the original structure of the metal structure roof panel, resulting in the safety of the roof panel, and even hidden quality problems such as rainwater leakage.

Contents of the invention

The purpose of this utility model is to provide a solar photovoltaic glass installation structure for a truss structure. The solar photovoltaic glass installation structure for a truss structure should solve the problem that the solar photoelectric panel installation structure in the prior art destroys the metal structure The existing structure of the roof will affect the technical problems of using safety after construction.

The purpose of this utility model is achieved through the following technical solutions: it includes metal trusses, main purlins, secondary purlins, galvanized steel wire mesh, centrifugal glass insulation cotton layer, straight air seam aluminum plate, square steel keel, aluminum alloy sub-frame and Solar photovoltaic panels, the main purlin is set on the metal truss through the truss bracket, the secondary purlin is welded on the main purlin, and the secondary purlin is fixed with galvanized steel wire mesh, and the galvanized steel mesh is covered with a centrifugal glass insulation layer. The aluminum alloy bracket is fixed on the glass insulation cotton layer, the upper end of the aluminum alloy bracket is connected with the straight-edge seam aluminum plate, and the square steel keel is fixed on the straight-air seam aluminum plate, which is composed of square steel, and the square steel keel is fixed with The aluminum alloy sub-frame, the solar photovoltaic panel is set on the aluminum alloy sub-frame.

The straight air seaming aluminum plate is composed of aluminum magnesium manganese plate.

The sub-purlins are perpendicular to the main purlins, and there are grid strips between two adjacent sub-purlins, and the grid bars are welded on the sub-purlins.

The aluminum alloy sub-frame is connected with the square steel keel through rivets.

The solar photovoltaic panels are bonded together with the aluminum alloy sub-frame through glue, and the two adjacent solar photovoltaic panels are sealed by injecting glue.

The centrifugal glass insulation wool layer is covered with polyethylene and polypropylene membranes.

The truss bracket is composed of steel pipes with a square cross section, and the main purlins are welded on the truss bracket.

Compared with the prior art, the utility model has positive and obvious effects. In the utility model, brackets are used to connect the main and secondary purlin structures on which solar photovoltaic panels are installed with metal trusses, without damaging the existing structure of the roof, and the construction is simple, which ensures the safety of solar photovoltaic panels and improves construction efficiency.

Description of drawings

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

Detailed ways

Below in conjunction with accompanying drawing, the utility model is described in further detail through embodiment.

As shown in Figure 1, the solar photovoltaic glass installation structure for truss structure of the present invention includes metal truss 1, main purlin 2, secondary purlin 3, galvanized steel wire mesh 4, centrifugal glass insulation cotton layer 5, direct air Overlock aluminum plate 6, square steel keel 7, aluminum alloy sub-frame 8 and solar photovoltaic panel 9, main purlin 2 is set on metal truss 1 through truss bracket 10, sub-purlin 3 is welded on main purlin 2, and sub-purlin 3 A galvanized steel wire mesh 4 is fixed, and the galvanized steel wire mesh 4 is covered with a centrifugal glass insulation wool layer 5, and an aluminum alloy bracket 11 is fixed on the centrifugal glass insulation wool layer 5, and the upper end of the aluminum alloy bracket 11 is edged with a straight air The aluminum plate 6 is connected, and the square steel keel 7 is fixed on the straight air seam aluminum plate 6. The square steel keel 7 is made of square steel. The aluminum alloy sub-frame 8 is fixed on the square steel keel 7. Box 8 on.

The straight airlock aluminum plate 6 is made of aluminum magnesium manganese plate.

The sub-purlins 3 are perpendicular to the main purlins 2, and there are grid bars between two adjacent sub-purlins, and the grid bars are welded on the sub-purlins.

The aluminum alloy sub-frame 8 is connected with the square steel keel by rivets.

The solar photovoltaic panels 9 are bonded together with the aluminum alloy sub-frame 8 through glue, and the two adjacent solar photovoltaic panels are sealed by injecting glue.

The centrifugal glass insulation wool layer is covered with polyethylene and polypropylene membranes.

The truss bracket 10 is made of a steel pipe with a square cross section, and the main purlin 2 is welded on the truss bracket 10 .

Claims (7)

1. A solar photovoltaic glass installation structure for a truss structure, characterized in that: it includes a metal truss, main purlins, secondary purlins, galvanized steel wire mesh, centrifugal glass insulation cotton layer, straight air seam aluminum plate, square steel keel , aluminum alloy sub-frame and solar photovoltaic panels, the main purlin is set on the metal truss through the truss bracket, the secondary purlin is welded to the main purlin, the secondary purlin is fixed with galvanized steel wire mesh, and the galvanized steel mesh is covered with centrifugal glass The thermal insulation cotton layer is fixed with an aluminum alloy bracket on the centrifugal glass thermal insulation cotton layer. The upper end of the aluminum alloy bracket is connected with the straight-space seamed aluminum plate, and the straight-space seamed aluminum plate is fixed with a square steel keel, which is made of square steel. The aluminum alloy sub-frame is fixed on the square steel keel, and the solar photovoltaic panel is set on the aluminum alloy sub-frame. 2. The solar photovoltaic glass installation structure for truss structure as claimed in claim 1, characterized in that: said straight air-locked aluminum plate is made of aluminum magnesium manganese plate. 3. The solar photovoltaic glass installation structure for truss structure as claimed in claim 1, characterized in that: the secondary purlins are perpendicular to the main purlins, and a grid bar is also arranged between adjacent two secondary purlins, and the grid bar Welded to the purlins. 4. The solar photovoltaic glass installation structure for truss structure according to claim 1, characterized in that: the aluminum alloy sub-frame is connected to the square steel keel through rivets. 5. The solar photovoltaic glass installation structure for truss structure as claimed in claim 1, characterized in that: the solar photovoltaic panels are bonded together with the aluminum alloy sub-frame by glue, and the adjacent two solar photovoltaic panels are injected Glue to seal. 6. The solar photovoltaic glass installation structure for truss structure as claimed in claim 1, characterized in that: polyethylene and polypropylene films are covered on the centrifugal glass insulation wool layer. 7 . The solar photovoltaic glass installation structure for truss structure according to claim 1 , characterized in that: the truss bracket is made of a steel pipe with a square cross section, and the main purlins are welded on the truss bracket.

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