RU170174U1 - Table support for installing solar modules - Google Patents

Abstract

The utility model relates to the field of solar engineering and can be used to fix and adjust the position of tables for placing solar modules in power plant units that convert the radiation energy of the sun into other types of energy. The table support for installing solar modules contains a vertical rack 1, the lower part of which is recessed in the land. A transverse beam 2 is fixed in the upper part of the vertical post 1. The abovementioned structural elements are fastened by means of a step mount 3, which enables the angle of inclination of the transverse beam 2 and its vertical movement relative to the vertical post 1. In the middle of the vertical post 1 and the lower part of the transverse the beams 2 by means of a bolted connection, the mowing is installed 4. The length of the mowing 4 is regulated by means of an adjustable bolted connection 12. The design is stepwise of the mounting 3 is a bolt 5 with a washer 6, on which there are parallel protrusions 7. On the vertical rack 1 there is a longitudinal groove 8, on both sides of which there are parallel cavities 9, applied with a given step, designed to align with the protrusions 7. A similar step the fastener 3 provides the connection of the upper part of the mowing 4 with the transverse beam 2. The mowing 4 consists of two U-shaped profiles 10 and 11, the shelves of which are turned in different directions. The adjustable bolt connection 12 is a longitudinal groove 13 made on one U-shaped profile, in which a bolt 14 with a washer is installed, located in the hole of the second U-shaped profile. The technical result is an increase in the operational reliability of the structure while reducing installation time and reducing material consumption .1 n and 2 C.p. f-ls, 5 ill.

Description

The utility model relates to the field of solar engineering and can be used to fix and adjust the position of tables for placing solar modules in power plant units that convert the radiation energy of the sun into other types of energy.

Known stand for solar power modules, comprising at least two horizontal load-bearing parts, at least two supporting parts, each of which is made outgoing from the horizontal load-bearing part and movably connected to it, and a part that provides the ability to hold solar power modules, under at an angle to each horizontal supporting part and with simultaneous connection with each supporting part, an inclined part is fixed, to each of which at least m are attached across and with the possibility of moving along its length Here, two profiles, providing the possibility of holding solar energy modules using clamping elements, made with the possibility of adjusting their height and moving along the length of the profile (patent for utility model RU No. 154047).

Other technical solutions in the same field of technology are also known, 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 selected by the applicant as a prototype is a support for photovoltaic modules, containing a vertical rack, which is buried in the subgrade. In the upper part of the vertical rack mounted adjusting support, made with the possibility of rotation relative to the rack. A transverse beam with the possibility of height adjustment is fixed to the adjusting support by means of a special fastening. In the lower part of the beam and the lower part of the vertical rack there are mounts for installing the mowing, and the mowing in the area of attachment to the beam is made with the possibility of adjustment along the length (EP 2724089 (A2) 2014-04-90).

A disadvantage of the known structures is the long installation time of the structures, the increased cost of materials to ensure the rigidity of the structures required in various operating conditions of the tables for the placement of solar modules.

A technical problem is the narrow range of supports for installing solar modules, which have high operational reliability and reduced installation time.

The technical result is an increase in the operational reliability of the structure while reducing installation time and reducing material consumption.

The technical problem is achieved by the fact that the table support for installing solar modules contains a vertical rack, made with the possibility of deepening its lower part into the subgrade, a transverse beam is fixed in the upper part of the vertical rack, there are fastenings in the middle of the vertical rack and the lower part of the beam, with the help of which a mowing is installed, made with the possibility of adjustment along the length, and the vertical stand is made of a rectangular open profile, the shelves of which are bent inside it with The cross-section, the transverse beam and the mowing are mounted to the vertical strut by means of the step-by-step mounting, which provides the possibility of adjusting the tilt angle and the vertical movement of the transverse beam, while the mowing is made of two U-shaped profiles connected to each other, the shelves of which are turned in opposite directions.

The connection of the U-shaped mowing profiles is preferably carried out by means of a bolted connection, for example, a longitudinal groove is made on one U-shaped profile, in which a bolt is installed, which is located in the hole of the second U-shaped profile. This provides an adjustable connection of the U-shaped profiles with each other, i.e. the ability to control the mowing length. The ability to adjust the angle of inclination of the transverse beam is provided by step mounting to the mowing and vertical strut.

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

- the vertical stand is made of a rectangular open profile, the shelves of which are bent inside its section;

- the transverse beam is attached to the upper part of the vertical rack by means of step mounting;

- stepwise mounting of the transverse beam to the upper part of the vertical rack provides the ability to adjust the angle of inclination and vertical movement of the transverse beam;

- the mowing is made of two U-shaped profiles connected to each other with shelves facing in opposite directions;

- the mowing is connected to the transverse beam by means of step mounting.

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"

Fig. 1 shows a general view of the support; Fig. 2 shows a cross section of a vertical strut; FIG. 3 shows a cross section of a mowing; FIG. 4. a step mount is shown, in FIG. 5 shows the connection of U-shaped profiles by means of an adjustable bolt joint of the mowing.

The inventive table support contains a vertical rack 1, the lower part of which is buried in the ground. A transverse beam 2 is fixed in the upper part of the vertical post 1. The abovementioned structural elements are fastened by means of a step mount 3, which enables the angle of inclination of the transverse beam 2 and its vertical movement relative to the vertical post 1. In the middle of the vertical post 1 and the lower part of the transverse beam 2 by means of an adjustable bolt joint 12, the mowing 4 is installed. The length of the mowing 4 is adjusted by means of an adjustable bolt connection 12 (Phi .5). The design of the step mount 3 is a bolt 5 with a washer 6, on which there are parallel protrusions 7 (shown in Fig. 4). A vertical groove 1 is provided with a longitudinal groove 8, on both sides of which there are parallel cavities 9, applied with a given step, designed to align with the protrusions 7. A similar step mount 3 provides a connection of the upper part of the mowing 4 with the transverse beam 2. The mowing 4 consists of two U-shaped profiles 10 and 11, the shelves of which are facing in different directions.

The design feature of the claimed support is as follows. The vertical rack 1 is made of a rectangular open profile, the shelves of which are bent inside its section (Figure 2). When installing the support, the vertical stand is hammered into the ground using specialized pile-driving equipment. In order not to break the groove of the step mount, a special pad is used. Experimental data showed that this cross-section of the rack when driving it provides a tight grip of the cross-section by the soil of the subgrade and further spacing of the vertical rack 1 in the ground, which during operation provides the necessary rigidity.

Unlike the prototype, in the claimed solution, the transverse beam 2 is mounted directly on the vertical strut 1 without installing it on an intermediate adjusting element. This significantly increases the rigidity of the structure.

Also, experimental data show that with significant wind or heavy snow bending stresses occur in the middle part of the slope, which, with insufficient stiffness of the slope, reduces the operational reliability of the support as a whole, therefore, in the claimed solution, the slope is made of two U-shaped profiles 10 and 11, whose shelves are facing in different directions (Figure 3). This moment of inertia of the cross-section of the profile provides the necessary rigidity of the mowing 4, both with wind load and evenly distributed load. To prevent the articulated effect of the U-shaped profiles of the mowing 4 and to ensure their relative movement during adjustment, the length of the mowing 4 is regulated by means of an adjustable bolt connection 12. For this, a longitudinal groove 13 is made on one U-shaped profile, in which a bolt 14 with a washer placed in the hole of the second U-shaped profile (Figure 5).

Thus, the claimed utility model allows to provide the necessary operational reliability of the structure by increasing the rigidity of the table support, while simplifying the structure of the support and reducing the installation time of the table to accommodate solar modules.

Claims (3)

1. A table support for installing solar cell modules, comprising a vertical strut configured to deepen its lower part into the subgrade, a transverse beam is fixed at the top of the vertical strut, and there are fasteners in the middle of the vertical strut and the lower part of the girder mowing, made with the possibility of its adjustment along the length, characterized in that the vertical stand is made of a rectangular open profile, the shelves of which are bent inside its section, fastening e of the transverse beam and the mowing to the vertical strut is made by means of step mounting, providing the possibility of adjusting the angle of inclination and vertical movement of the transverse beam, while the mowing is made of two U-shaped profiles connected to each other, the shelves of which are turned in opposite directions. 2. Support according to claim 1, characterized in that the connection of the U-shaped mowing profiles is made by means of an adjustable bolted connection. 3. Support under item 2, characterized in that the adjustable bolt connection is made in the form of a longitudinal groove placed on one U-shaped profile of the mowing, in which a bolt with a washer is installed, located in the hole of the second U-shaped profile of the mowing.

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