CN202299186U - Solar photovoltaic glass installation structure for mesh frame structure - Google Patents

Abstract

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

Description

The solar energy photovoltaic glass mounting structure that is used for space truss structure

Technical field

The utility model relates to building field, and particularly the solar energy constructing structure specifically is a kind of solar energy photovoltaic glass mounting structure that is used for space truss structure.

Background technology

The solar photovoltaic building integrated technique is that solar electrical energy generation (photovoltaic) product is integrated or be attached to architectural technology, not only has the function of peripheral structure, can produce electric energy simultaneously again and supply building to use.Solar photovoltaic roof is integrated be with electro-optical package make roof panel or with watt form be covered in flat roof or the whole roofing of pitched roof, also can the cover part roofing, have higher flexibility with the integration of building.Existing metal construction roofing construction structure can be destroyed the original structure of metal construction roof panel usually, causes the safe in utilization of roof panel, even hidden danger of quality such as rain leakage are arranged.

Summary of the invention

The purpose of the utility model is to provide a kind of solar energy photovoltaic glass mounting structure that is used for space truss structure, and the described this solar energy photovoltaic glass mounting structure that is used for space truss structure will solve prior art solar energy electro-optical package mounting structure and destroy the existing structure of metal construction roofing and influence construction back technical problem safe in utilization.

The purpose of the utility model realizes through following technical scheme: it comprises metal truss, main purlin, inferior purlin, galvanized steel wire netting, rotary glass heat-preservation cotton layer, straight empty lock seaming aluminium sheet, square steel keel, the secondary frame of aluminium alloys and solar opto-electronic board; Main purlin is located on the metal truss through the rack carriage; Inferior purlin is fixed on the main purlin, is fixed with galvanized steel wire netting on the inferior purlin, and this zinc-coated wire is covered with rotary glass heat-preservation cotton layer on the net; On rotary glass heat-preservation cotton layer, be fixed with aluminium alloy post; The aluminium alloy post upper end is connected with straight empty lock seaming aluminium sheet, is fixed with the square steel keel on the straight empty lock seaming aluminium sheet, and these square steel keel are made up of square steel; Be fixed with the secondary frame of aluminium alloys on the square steel keel, solar opto-electronic board is located on the secondary frame of aluminium alloys.

Described straight empty lock seaming aluminium sheet is to be made up of the Al-Mg-Mn plate.

Inferior purlin and main purlin are perpendicular, also are provided with dividing strip between adjacent two purlins.

The secondary frame of aluminium alloys is connected with the square steel keel through rivet.

Solar opto-electronic board bonds together through glue and the secondary frame of aluminium alloys, seals through injecting glue between adjacent two solar opto-electronic boards.

On rotary glass heat-preservation cotton layer, be covered with polyvinyl and polypropylene screen.

The rack carriage is made up of the transversal steel pipe that is square.

The utility model is compared with prior art, and its effect is actively with tangible.The employing carriage will be installed the master of solar opto-electronic board in the utility model, inferior purlin structure is connected with metal truss, does not destroy the roofing existing structure, and construction is simple, guarantee the safety in utilization of solar opto-electronic board, improve efficiency of construction.

Description of drawings

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

The specific embodiment

Through embodiment the utility model is done further explain below in conjunction with accompanying drawing.

As shown in Figure 1, the solar energy photovoltaic glass mounting structure that is used for space truss structure of the utility model, it comprises metal truss 1, main purlin 2, inferior purlin 3, galvanized steel wire netting 4, rotary glass heat-preservation cotton layer 5, straight empty lock seaming aluminium sheet 6, square steel keel 7, the secondary frame 8 of aluminium alloys and solar opto-electronic board 9; Main purlin 2 is located on the metal truss 1 through rack carriage 10; Inferior purlin 3 is fixed on the main purlin 2, is fixed with galvanized steel wire netting 4 on the inferior purlin 3, is covered with rotary glass heat-preservation cotton layer 5 on this galvanized steel wire netting 4; On rotary glass heat-preservation cotton layer 5, be fixed with aluminium alloy post 11; Aluminium alloy post 11 upper ends are connected with straight empty lock seaming aluminium sheet 6, are fixed with square steel keel 7 on the straight empty aluminium sheet 6 of lockstitching a border, and this square steel keel 7 are made up of square steel; Be fixed with the secondary frame 8 of aluminium alloys on the square steel keel 7, solar opto-electronic board 9 is located on the secondary frame 8 of aluminium alloys.

Described straight empty lock seaming aluminium sheet 6 is to be made up of the Al-Mg-Mn plate.

Inferior purlin 3 and main purlin 2 are perpendicular, also are provided with dividing strip between adjacent two purlins 3.

The secondary frame 8 of aluminium alloys is connected with square steel keel 7 through rivet.

Solar opto-electronic board 9 bonds together through glue and the secondary frame 8 of aluminium alloys, seals through injecting glue between adjacent two solar opto-electronic boards.

On rotary glass heat-preservation cotton layer 5, be covered with polyvinyl and polypropylene screen.

Rack carriage 10 is made up of the transversal steel pipe that is square.

Claims (7)

1. A solar photovoltaic glass installation structure for a grid structure, characterized in that: a solar photovoltaic glass installation structure for a grid structure, characterized in that: it includes a metal grid, 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 grid through the grid bracket, and the secondary purlin is fixed to the main purlin The upper and lower purlins are fixed with galvanized steel wire mesh, and the galvanized steel mesh is covered with a centrifugal glass insulation wool layer, and an aluminum alloy bracket is fixed on the centrifugal glass insulation wool layer, and the upper end of the aluminum alloy bracket is connected with a straight air seam aluminum plate , The square steel keel is fixed on the straight air seam aluminum plate, the square steel keel 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 grid 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 grid structure as claimed in claim 1, characterized in that: the sub-purlins are perpendicular to the main purlins, and a grid bar is provided between two adjacent sub-purlins. 4. The solar photovoltaic glass installation structure for grid 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 grid structure as claimed in claim 1, characterized in that: the solar photovoltaic panels are glued together with the aluminum alloy sub-frame, and the two adjacent solar photovoltaic panels pass through Glue injection seal. 6. The solar photovoltaic glass installation structure for grid 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 grid structure according to claim 1, characterized in that: the bracket of the grid is made of a steel pipe with a cross-section in a square shape.

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