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Method for manufacturing adjustable bracket for flat roof of solar system

Method for manufacturing adjustable bracket for flat roof of solar panel system


[Technical Field]


[0001] The utility model relates to a solar panel technology, in particular to a solar panel module accessory, in particular to an adjustable bracket for a flat roof of a solar panel system.




【Background technique】


[0002] At present, solar panel power plants do not have a very uniform standard for the support of the system, and the specifications of the support are various and constantly updated. The manufacturing process of the system bracket is also very different from each manufacturer, but most of them use fixed brackets or adjustable brackets that need to be cemented on the roof. Therefore, in the market and process requirements, there is a need for a cement foundation without roofing and System brackets for angle adjustment according to different seasons and different regions are used for solar panel power stations to improve the power generation efficiency of the system and reduce the installation cost of the system.




[utility content]


[0003] The purpose of the utility model is to solve the problem that the current solar panel power station system has low power generation efficiency, complicated cement foundation installation, and relatively expensive installation cost, and the design of a cement foundation without roofing can be carried out according to different seasons and regions. Angle-adjustable solar panel system flat roof with adjustable brackets to increase system power generation efficiency and reduce system installation costs.


The technical solution of the present invention is:


[0005] An adjustable bracket for a planar roof of a solar panel system, comprising an upper beam 2, a front pillar 4, a rear pillar 9 and a bottom beam 7, the solar solar panel module I being mounted on the upper beam 2, characterized by the upper beam 2 The front end is hinged on the upper end of the front pillar 4 by the front triangular connecting member 3. The lower end of the front pillar 4 is fixed on the bottom cross beam 7, and the lower end of the rear pillar 9 is rotatably mounted on the bottom triangular connecting member 8, and the bottom triangular connecting member 8 is mounted on the bottom beam 7, the upper end of the rear pillar 9 is connected to one end of the regulating column 10, and the other end of the regulating column 10 is hingedly connected to the rear triangular connecting member 11, and the rear triangular connecting member 11 is fixedly connected with the upper beam 2.


[0006] The adjustment column 10 is provided with an adjusted angle value calculated by conversion.


The solar solar panel module I is mounted on the upper beam 2 by the component support frame 12, and the component support frame is connected with the component pressure block 13.


[0008] The bottom cross member 7 is provided with a weight pressing block 6, and the weight pressing blocks 6 on the adjacent bottom cross members 7 are connected by the reinforcing ribs 5.


[0009] The beneficial effects of the utility model:


[0010] 1. The angle adjustment can be carried out according to different regions and different seasons, and the system power generation efficiency is increased by about 5%.


[0011] 2. Suitable for installation of most specifications of components on the market, wide application range and strong compatibility.


[0012] 3. There is no need to make a cement foundation on the roof and it is not necessary to pierce the roof and damage the waterproof layer.


[0013] 4. The installation is convenient and quick, the structure is simple, the manufacture is easy, the work is reliable, and the maintenance is convenient.


[Description of the Drawings]


1 is a schematic perspective view of the utility model.


[00? 5] Figure 2 is a side view structure of the present invention is not intended.


3 is a top view of FIG. 2.


【Detailed ways】


[0017] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.


[0018] As shown in Figures 1-3.


[0019] An adjustable bracket for a planar roof of a solar panel system, comprising two support frames consisting of an upper beam 2, a front pillar 4, a rear pillar 9 and a bottom beam 7, the two ends of the solar solar panel module I are supported by components The frames 12 are respectively mounted on the two upper cross beams 2 of the two sets of support frames and fixed by the assembly clamps 13. The front end of each upper cross member 2 is hinged on the upper end of the front uprights 4 through the front triangular connecting members 3, and the front uprights 4 The lower end is fixed to the bottom cross member 7, and the lower end of the rear post 9 is rotatably mounted on the bottom triangular connecting member 8, and the bottom triangular connecting member 8 is mounted on the bottom cross member 7, and the upper end of the rear post 9 is connected to one end of the regulating column 10. The other end of the adjusting column 10 is hingedly connected to the rear triangular connecting member 11, and the rear triangular connecting member 11 is fixedly connected with the upper beam 2, and the adjusting column 10 is provided with an adjusted angle value after conversion calculation, and the bottom beam 7 is provided. A weighting block 6 is attached thereto, and the weighting blocks 6 on the adjacent bottom beams 7 are connected by the reinforcing ribs 5, as shown in Figs. In a specific implementation, the adjusting column 10 can be inserted into the rear pillar 9 and locked by screws, or can be directly bolted to the groove of the surface of the rear pillar. It can be adjusted steplessly or at an angle.




[0020] The installation and use method of the utility model is:


[0021] Take two bottom beams 7, measure the size, mount the reinforcing ribs 5 on the bottom beam, put the weighting block 6, and then attach the two bottom triangular connecting pieces 8 to the two bottom beams, two The rear pillars 9 are respectively connected with the two bottom triangular connecting members, and then the two adjusting pillars 10 are respectively mounted on the two rear pillars 9, the rear triangular connecting members 11 are mounted, and the two front pillars 4 are respectively mounted on the two bottom beams. The front triangular connecting member 3 is mounted on the front pillar, and then the two upper cross members 2 are respectively fixed to the front and rear triangular connecting members, and then the component supporting frame 12 is fixed on the upper beam, and finally the solar solar panel module I is mounted on the component supporting frame. Upper, the component clamp 13 is mounted. When adjusting the mechanism, simply loosen the bolts on the rear pillar, adjust the PV module to the required angle with a tool (or manual), and tighten the bolts.


[0022] The parts not covered by the present invention are the same as the prior art or can be implemented by the prior art.


[sovereign item]


An adjustable support for a flat roof of a solar panel system, comprising an upper beam (2), a front pillar (4), a rear pillar (9) and a bottom beam (7), the solar solar panel module (I) being mounted on the upper beam ( 2) upper, characterized in that the front end of the upper beam (2) is hinged on the upper end of the front pillar (4) through the front triangular joint (3), and the lower end of the front pillar (4) is fixed on the bottom beam (7). The lower end of the rear pillar (9) is rotatably mounted on the bottom triangular connecting member (8), and the bottom triangular connecting member (8) is mounted on the bottom cross member (7), and the upper end of the rear pillar (9) and the regulating column (10) One end of the adjusting column (10) is hingedly connected to the rear triangular connecting member (11), and the rear triangular connecting member (11) is fixedly connected with the upper beam (2). 2 . The adjustable bracket for a flat roof of a solar panel system according to claim 1 , wherein the adjusting column ( 10 ) is provided with an adjusted angle value after conversion calculation. 3 . The adjustable support for a flat roof of a solar panel system according to claim 1, characterized in that the solar solar panel module (I) is mounted on the upper beam (2) through the component support frame (12), and the component support frame is connected. There are component clamps (13). The adjustable support for a flat roof of a solar panel system according to claim 1, characterized in that the bottom cross member (7) is provided with a weight pressing block (6) adjacent to the bottom cross member (7). The weighting blocks (6) are connected by reinforcing ribs (5).


[Patent Abstract] An adjustable bracket for a flat roof of a solar panel system, comprising an upper beam (2), a front pillar (4), a rear pillar (9) and a bottom beam (7), on which the solar solar panel module (1) is mounted The beam (2) is characterized in that the front end of the upper beam (2) is hinged on the upper end of the front pillar (4) through the front triangular joint (3), and the lower end of the front pillar (4) is fixed to the bottom beam (7) The lower end of the upper rear pillar (9) is rotatably mounted on the bottom triangular connecting member (8), and the bottom triangular connecting member (8) is mounted on the bottom cross member (7), and the upper end of the rear pillar (9) and the regulating column ( 10) is connected at one end, and the other end of the adjusting column (10) is hingedly connected with the rear triangular connecting member (11), and the rear triangular connecting member (11) is fixedly connected with the upper beam (2). The utility model not only has the advantages of simple structure, convenient and quick installation, but also can adjust the angle according to the illumination of different regions and different seasons, thereby effectively improving the power generation efficiency of the solar panel system and saving the cost.