RU171925U1 - Table support element for installing solar modules - Google Patents

Abstract

The utility model relates to the field of solar engineering, in particular to the designs of tables for placing solar modules, and can be used in power plants that convert the radiation energy of the sun into other types of energy. The table support element for installing solar modules 12 contains a transverse beam 1 made of profile. Along the length of the transverse beam 1 with the help of clamps 2, an extreme lower run 3, an extreme upper run 4 and a middle run 5, which are also profiled and have mounting and supporting parts, are installed. The bearing parts are made in the form of grooves 6 and 7 formed respectively by the shelves 8, 9 and 10, 11. A design feature is also that the shelves of the grooves facing each other, for example 6 and 7, have different lengths. To fix the solar module in the grooves, removable gaskets 13 and 14 can be placed, which, when installed, select the corresponding gaps. The solar modules 12 are fixed on the sides of the table by clamping strips 15. Since the table is located at an angle to the horizontal, the lowermost run 3 is made with a curved wall 16, which makes it possible to withstand the increased load of run 3. The technical task of the claimed utility model is to expand the arsenal of effective means fasteners that provide reduced labor for installing solar panels on a table. 2 s.p. crystals, 3 pic.

Description

The utility model relates to the field of solar engineering, in particular to the design of tables for placing solar modules, and can be used in power plants that convert the energy of solar radiation into other types of energy.

There are various designs of tables for placing solar modules, for example, patents of the Russian Federation No. 128781, 2164722, 2551349, etc.

A device for fastening a photovoltaic module is known, including two first linear perforated profiles with a C-shaped cross section, arranged in parallel and spaced from each other, on which four second linear perforated profiles spaced apart from each other are detachably secured with fasteners in the transverse direction with C- cross-section, two of which are installed at the ends of the first molded perforated profiles, on the upper shelves of the second molded perforated profiles the holders at the ends of the holders of the photovoltaic module are detachably secured with fasteners in the form of segments of an I-beam, while the C-shaped inner surfaces of the holders facing each other are covered with an elastic sealant, and holes for passing the fasteners are made on the outer sections of the holder shelves (patent for Utility Model of the Russian Federation No. 135183, publ. 11/27/2013).

Also known are technical solutions in this technical field, for example, US 20161909769 (2016-06-30), JP 2016176254 (2016-10-06). CN 205566176 (2016-08-07). WO 2016/156382 A1.

The closest technical solution chosen by the applicant as a prototype is the table support element described in EP2724089 (A2) - 2014-04-30. The table support element consists of a transverse beam with mounts for installing solar modules.

The well-known element of the table support provides high mounting efficiency. However, the disadvantages of the known design should include a large complexity in the installation of modules.

The technical task of the claimed utility model is to expand the arsenal of effective means of fastening elements, providing reduced laboriousness for mounting solar panels on a table.

The technical problem is achieved by the fact that the inventive table support element for installing solar modules consists of a transverse beam with fasteners, and the fasteners are made in the form of a middle, extreme upper and extreme lower runs spaced along the length of the transverse beam, each of the runs has mounting and bearing parts moreover, the mounting parts of the girders are made with the possibility of their installation using clamps, the bearing parts of the mounts are made in the form of grooves formed by the upper and lower shelves, and the grooves facing d To each other, they have different lengths of shelves, and the lowermost run is made with a curved wall.

Comparison of the claimed utility model with the prototype shows that it differs in the following features:

- fasteners are made in the form of a middle, extreme upper and extreme lower runs;

- runs spaced along the length of the transverse beam;

- each of the runs has a mounting and supporting part;

- the mounting parts of the runs are made with the possibility of their installation using clamps;

- the bearing parts of the fasteners are made in the form of grooves formed by the upper and lower shelves;

- grooves facing each other have different lengths of shelves;

- the lowermost run is made with a curved wall.

Therefore, we can assume that the claimed utility model meets the criterion of "novelty."

The utility model can be manufactured on standard equipment, so it meets the criterion of "industrial applicability".

Figure 1 shows the inventive device assembly, Figure 2 shows the inventive device with installed solar modules (side view), Fig. Figure 3 shows the mounting of solar modules to the crossbeam.

The inventive device comprises a transverse beam 1 made of a profile. Along the length of the transverse beam 1 with the help of clamps 2, an extreme lower run 3, an extreme upper run 4 and a middle run 5, which are also profiled and have mounting and supporting parts, are installed. The bearing parts are made in the form of grooves 6 and 7, formed respectively by the shelves 8, 9 and 10, 11. A design feature is also that the shelves of the grooves facing each other, for example 6 and 7, have different lengths.

When assembling the table, the solar modules 12 are installed in the grooves 6 and 7 so that first the end of the module is inserted into the groove 7, which has a large shelf length, and then brought into the groove 6, which has a shorter shelf length. To fix the solar module in the grooves, removable gaskets 13 and 14 can be placed, which, when installed, select the corresponding gaps. Gaskets 13 and 14 are mainly made of plastic. On the sides of the table, the solar modules 12 are fixed with clamping strips 15 (Fig. 3). Since the table is located at an angle to the horizon, the lowermost run 3 is made with a curved wall 16, which makes it possible to withstand the increased load run 3.

Thus, the claimed utility model allows you to expand the range of effective means of fasteners, reduce the complexity of installing solar modules on the table.

Claims (3)

1. The element of the table support for installing solar modules, consisting of a transverse beam with fasteners, characterized in that the fasteners are made in the form of a middle, extreme upper and extreme lower runs spaced along the length of the transverse beam, each of the runs has a mounting and load-bearing parts, the mounting parts of the girders are made with the possibility of their installation using clamps, the bearing parts of the mounts are made in the form of grooves formed by the upper and lower shelves, and the grooves facing each other have different lengths of shelves, and Raina lower run configured curved wall. 2. Table support element for installing solar modules according to claim 1, characterized in that gaskets are placed in the grooves. 3. The element of the table support for installing solar modules according to claim 1, characterized in that the solar modules from the ends of the table are fixed with clamping bars.

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