RU192407U1 - Profile for mounting solar panels - Google Patents

Abstract

The technical solution relates to the field of supporting structures intended for fixing photovoltaic modules on the roof. A reduction in material consumption is achieved. The profile for mounting the PV modules contains two side, upper and lower walls. In the upper wall is made the upper mounting channel with thrust sides. In the bottom wall is made the lower mounting channel with thrust sides. Inside the profile, the bottom of the upper mounting channel is connected by a partition to the bottom of the lower mounting channel. 3 s.p. f-ly, 2 ill.

Description

The field of technology.

The claimed technical solution relates to the field of support structures intended for fixing photovoltaic modules on the roof.

The prior art.

Known structural profile of 80x80 mm OB-8080 manufactured by R.S.I., Chelyabinsk (Internet resource https://www.rsi-llc.ru/catalog/70/160/). This profile is hollow, square in cross section (Fig. 2). The specified analogue contains the upper, two side and lower walls. In each wall two mounting channels are made with persistent sides. Inside the profile has four hollow rods connected to the walls by partitions forming the mounting channels.

The disadvantage of this analogue is the implementation of the mounting channels on all walls, which leads to the need for reinforcing rods and partitions to ensure the rigidity of the profile, which leads to an increase in the material consumption of the product.

Disclosure of the claimed technical solution.

The technical problem to which the claimed technical solution is directed is to create a profile for mounting solar panels on the roof. The profile for this application should, on the one hand, have a minimum weight to reduce the load on the roof, and, on the other hand, be rigid enough to withstand the wind load on the solar panels mounted on it.

The technical result provided by the claimed technical solution is to reduce material consumption.

The essence of the claimed technical solution lies in the fact that the profile for mounting the photovoltaic modules contains two side, upper and lower walls. In the upper wall is made the upper mounting channel with thrust sides. In the bottom wall is made the lower mounting channel with thrust sides. It differs in that inside the profile the bottom of the upper mounting channel is connected by a partition with the bottom of the lower mounting channel.

The above essence is a set of essential features of the claimed technical solution, ensuring the achievement of the claimed technical result.

In special cases, it is permissible to carry out the technical solution as follows.

It is advisable to make the walls smooth outside.

The side walls and the partition are preferably parallel to each other and perpendicular to the upper and lower walls.

It is desirable to provide the upper mounting channel with a section for the nut adjacent to its thrust flanges and a section for the bolt adjacent to the section for the nut. In this case, the width of the upper mounting channel in the section of the thrust collars is less than the width of the section for the nut, the width of the section for the bolt is less than the width of the section for the nut.

The author of the claimed technical solution made a prototype of this solution, the tests of which confirmed the achievement of the technical result.

A brief description of the drawings.

Figure 1 shows a cross section of a profile; in FIG. 2 is a cross section of a prototype profile.

Implementation of a technical solution.

The profile for mounting solar panels (photovoltaic modules) is hollow and has two side (1), upper (2) and lower (3) walls (Fig. 1). The walls are made smooth on the outside, which contributes to their less pollution. Preferably, the cross-sectional profile is essentially in the shape of a rectangle or square. In a preferred embodiment, the side walls are parallel to each other and perpendicular to the upper and lower walls, which contributes to a rational distribution of the load forces on the profile and to reduce the material consumption of the profile.

A longitudinal upper mounting channel (4) is provided in the upper wall, provided with stop flanges (5), a section for a nut (6) and a section for a bolt (7). The upper mounting channel is designed to be fixed to the profile of the solar panels. The width of the channel (4) in the area of the stop flanges (5) is less than the width of the section for the nut (6). The width of the section for the bolt (7) is less than the width of the section for the nut (6).

The stop flange (5) has a thickness greater than the thickness of the upper wall (2). This design allows you to provide a large load on the thrust sides, but not to make the upper wall excessively thick to save wall material.

A longitudinal lower mounting channel (10) is provided in the bottom wall, provided with stop flanges (5). The lower mounting channel is designed to secure the profile to the roof.

Inside, the profile is equipped with a partition (8) connecting the bottom of the upper mounting channel (9) and the bottom of the lower mounting channel (11) along the shortest path. In a preferred embodiment, the partition is parallel to the side walls. This contributes to the rational distribution within the profile of the external forces of the load on the profile and reduce material consumption of the profile.

The profile is preferably made in the form of a single part.

An example of a specific implementation.

The profile is made of aluminum. The cross-section of the profile has the shape, in essence, of a square with a side of 70 mm. Mounting channels run along the central part of the respective walls. The width of the upper mounting channel in the area of the stop flanges (5) and in the area under the bolt (7) is 9 mm. The thickness of the thrust flanges is 3 mm. The height of the bolt section is 5.5 mm. The width of the upper mounting channel (4) in the area under the nut (6) is 13.2 mm. The height of the section under the nut is 7 mm.

The width of the lower mounting channel (10) is 20.3 mm, and in the area of the stop flanges (5) it is 11 mm. The height of the lower mounting channel is 8.5 mm (excluding the stop flanges).

The implementation of the proposed technical solution is not limited to the above example.

The order of use.

When using a profile, it is fixed to the roof elements. At the same time, the heads of the fixing bolts are placed in the lower mounting channel (10). When tightening the nuts on these bolts, the heads of these bolts abut against the sides (5) of the channel (10) and press the profile to the attachment point.

Then, solar panels are applied to the profile and bolted to the profile. At the same time, nuts are inserted into the area under the nut (6) of the upper mounting channel and the mentioned bolts are screwed into them. The nuts abut against the sides (5) of the upper mounting channel (4) and press the fasteners of the solar panels to the profile. The ends of the bolts when they are screwed into the nuts are placed in the area under the bolt (7).

Industrial applicability.

The claimed technical solution is implemented using industrially produced materials, can be manufactured at any industrial enterprise and will be widely used in construction when installing solar panels on the roof.

Claims (4)

1. A profile for mounting photovoltaic modules, comprising two side, upper and lower walls, the upper mounting channel is made with stop flanges in the upper wall, and the lower mounting channel is made with stop flanges in the lower wall, characterized in that the bottom of the upper mounting channel is inside the profile connected by a partition to the bottom of the lower mounting channel. 2. The profile according to claim 1, characterized in that the walls are made smooth on the outside. 3. The profile according to claim 1, characterized in that the side walls and the partition are parallel to each other and perpendicular to the upper and lower walls. 4. The profile according to claim 1, characterized in that the upper mounting channel is provided with a section for a nut adjacent to its stop flanges and a section for a bolt adjacent to a section for a nut, while the width of the upper mounting channel in the section of the stop flanges is less than the width of the section under the nut, the width of the section under the bolt is less than the width of the section under the nut.

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