CN221103220U - Automatic installation and positioning structure of steel frame component for solar power station - Google Patents

Abstract

The utility model discloses an automatic mounting and positioning structure of a steel frame component for a solar power station, which is used for the matching connection of the steel frame component and purlines, wherein an elastic pressing block is arranged between the steel frame component and the purlines; the steel frame component is provided with a first mounting hole and a limiting groove; the purline is provided with a second mounting hole and a second tongue piece; the elastic pressing block is provided with a square nut; one side of the square nut is provided with a tongue piece I. The tongue piece of the elastic pressing block in the photovoltaic steel frame component is attached to the purline, and longitudinal positioning can be achieved. The bending surface of the light Fu Gang frame component is attached to the tongue piece of the purline, so that transverse positioning can be realized. The alignment of the holes on the photovoltaic module with the holes on the purlines can be achieved by the longitudinal and transverse positioning. The mounting accuracy is greatly improved; the device has longitudinal and transverse positioning functions, so that the photovoltaic module can be placed at the corresponding position of the purline by using a robot, and the installation efficiency can be further improved by using a manual mode for locking the bolts.

Description

Automatic installation and positioning structure of steel frame component for solar power station

Technical Field

The utility model relates to an automatic installation and positioning structure of a steel frame component for a solar power station, and belongs to the technical field of solar power stations.

Background

At present, two modes of installation of a solar power station bracket and a photovoltaic module are respectively briquetting installation and bolt back locking. In the assembly installation process, the photovoltaic assembly is lifted to the purline, and is locked by bolts after aligning to the installation position. Because the photovoltaic module is heavier, the installation process needs several constructors to construct together, and the installation position is very accurate without a method, so that the installation is difficult and the efficiency is low. Therefore, a positioning structure capable of accurately positioning the relative position of the photovoltaic module and the purline and preventing the photovoltaic module from sliding down needs to be developed.

Disclosure of utility model

Aiming at the problems in the prior art, the utility model provides an automatic installation and positioning structure for a steel frame component for a solar power station, so as to solve the technical problems.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the automatic mounting and positioning structure for the steel frame component of the solar power station is used for being connected with purlines in a matched mode, and an elastic pressing block is arranged between the steel frame component and the purlines; the steel frame component is provided with a first mounting hole and a limiting groove; the purline is provided with a second mounting hole and a second tongue piece; the elastic pressing block is provided with a square nut; one side of the square nut is provided with a tongue piece I.

Furthermore, the steel frame component is of a C-shaped structure, and a first mounting hole and a limiting groove are formed in the bottom surface of the C-shaped structure; the limiting groove is used for clamping in the first tongue piece on the elastic pressing block; the first tongue piece passes through the limit groove and is tightly attached to the vertical side edge of the purline so as to realize the positioning of the photovoltaic module in the long-side direction.

Further, the second mounting hole and the second tongue piece arranged on the purline are positioned on the C-shaped surface of the C-shaped structure, and the positions of the holes are correspondingly arranged with the first mounting hole of the steel frame component and the nut hole of the elastic pressing block.

Further, the elastic pressing block is of a C-shaped structure, the elastic pressing block is integrally arranged in the steel frame assembly, a vertical bending surface is arranged on one side of the C-shaped bottom surface of the elastic pressing block, and the vertical bending surface is fixedly attached to the bending surface of the steel frame assembly.

Further, a claw is arranged on the vertical bending surface and is clamped on one side of the square nut.

Further, the second tongue piece on the purline is parallel to and in abutting connection with the bending surface of the steel frame component, and is used for positioning the steel frame component on the direction of the short side on the purline.

The beneficial effects of the utility model are as follows: the tongue piece of the elastic pressing block in the photovoltaic steel frame component is attached to the purline, and longitudinal positioning can be achieved. The bending surface of the light Fu Gang frame component is attached to the tongue piece of the purline, so that transverse positioning can be realized. The alignment of the holes on the photovoltaic module with the holes on the purlines can be achieved by the longitudinal and transverse positioning. The mounting accuracy is greatly improved; the device has longitudinal and transverse positioning functions, so that the photovoltaic module can be placed at the corresponding position of the purline by using a robot, and the installation efficiency can be further improved by using a manual mode for locking the bolts.

Drawings

FIG. 1 is a schematic view of the overall mounting structure of the present utility model;

FIG. 2 is a schematic enlarged view of the connection position structure of the present utility model;

FIG. 3 is a schematic view of a steel frame assembly according to the present utility model;

FIG. 4 is a schematic view of the structure of the elastic pressing block of the present utility model;

Fig. 5 is a schematic view of a purlin structure of the utility model.

In the figure: 1. the steel frame assembly comprises a steel frame assembly body 11, a first mounting hole 12, a limiting groove 13, a bending surface 2, purlines 21, a second mounting hole 22, a second tongue piece 23, a vertical side edge 3, an elastic pressing block 31, a square nut 32, a first tongue piece 33, a vertical bending surface 331 and a clamping jaw.

Detailed Description

The present utility model will be further described in detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the detailed description and specific examples, while indicating the utility model, are intended for purposes of illustration only and are not intended to limit the scope of the utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs, and the terms used herein in this description of the utility model are for the purpose of describing particular embodiments only and are not intended to be limiting of the utility model.

As shown in fig. 1-5, an automatic installation and positioning structure of a steel frame component for a solar power station is used for matching and connecting the steel frame component 1 with a purline 2, and an elastic pressing block 3 is arranged between the steel frame component 1 and the purline 2; the steel frame assembly 1 is provided with a first mounting hole 11 and a limiting groove 12; the purline 2 is provided with a second mounting hole 21 and a second tongue piece 22; the elastic pressing block 3 is provided with a square nut 31; a tongue piece 32 is provided on one side of the square nut 31.

In the preferred embodiment, the steel frame component 1 is of a C-shaped structure, and the C-shaped bottom surface of the steel frame component is provided with a first mounting hole 11 and a limiting groove 12; the limiting groove 12 is used for clamping in a first tongue piece 32 on the elastic pressing block 3; the first tongue piece 32 passes through the limit groove 12 and is tightly attached to the vertical side edge 23 of the purline 2 so as to realize the positioning of the photovoltaic module in the long-side direction.

In this embodiment, preferably, the second mounting hole 21 and the second tongue piece 22 formed on the purline 2 are located on the C-shaped surface of the upper C-shaped structure, and the positions of the holes are arranged corresponding to the first mounting hole 11 of the steel frame component 1 and the nut hole of the elastic pressing block 3.

In this embodiment, preferably, the elastic pressing block 3 has a C-shaped structure, and is integrally disposed in the steel frame assembly 1, and a vertical bending surface 33 is disposed on one side of the C-shaped bottom surface, and the vertical bending surface 33 is adhered and fixed to the bending surface 13 of the steel frame assembly 1.

In this embodiment, the vertical bending surface 33 is preferably provided with a claw 331, and the claw 331 is clamped on one side of the square nut 31.

In this embodiment, the second tongue 22 on the purline 2 is preferably parallel to and abutting against the bending surface 13 of the steel frame assembly 1, and is used for positioning the steel frame assembly 1 in the direction of the short side of the purline 2.

The specific installation steps are as follows: firstly, the 4 elastic pressing blocks 3 are respectively clamped into the cavity of the steel frame component 1: the tongue piece I32 of the elastic pressing block 3 stretches into the limit groove 12 of the steel frame component 1, and the threaded hole of the elastic pressing block 3 is aligned with the oblong hole (the mounting hole I11) of the steel frame component 1; then placing the steel frame assembly 1 on the purline 2, and sliding down to the tongue piece one 32 of the elastic pressing block 3 along the long side of the steel frame assembly 1 under the action of gravity of the steel frame assembly 1 and attaching with the web plate of the purline 2; then the steel frame component 1 is moved to the second tongue piece 22 position of the purline 2 towards the short side direction; and (3) repeating the steps to place all the steel frame assemblies 1 at corresponding positions, and finally locking the steel frame assemblies 1 and the purlines 2 by bolts, so that the installation is completed.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, or alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. The automatic installation and positioning structure for the steel frame component for the solar power station is used for matching and connecting the steel frame component (1) with the purline (2), and is characterized in that an elastic pressing block (3) is installed between the steel frame component (1) and the purline (2); the steel frame assembly (1) is provided with a first mounting hole (11) and a limiting groove (12); the purline (2) is provided with a second mounting hole (21) and a second tongue piece (22); a square nut (31) is arranged on the elastic pressing block (3); a tongue piece I (32) is arranged on one side of the square nut (31).

2. The automatic installation and positioning structure of the steel frame component for the solar power station according to claim 1, wherein the steel frame component (1) is of a C-shaped structure, and a first installation hole (11) and a limiting groove (12) are formed in the bottom surface of the C-shaped structure; the limiting groove (12) is used for clamping in a first tongue piece (32) on the elastic pressing block (3); the first tongue piece (32) passes through the limit groove (12) and is tightly attached to the vertical side edge (23) of the purline (2) so as to realize the positioning of the photovoltaic module in the long side direction.

3. The automatic installation and positioning structure for the steel frame component for the solar power station according to claim 1, wherein a second installation hole (21) and a second tongue piece (22) arranged on the purline (2) are positioned on a C-shaped surface with an upper C-shaped structure, and the positions of the holes are arranged corresponding to the first installation hole (11) of the steel frame component (1) and the nut holes of the elastic pressing block (3).

4. The automatic installation and positioning structure of the steel frame assembly for the solar power station according to claim 1, wherein the elastic pressing block (3) is of a C-shaped structure, the elastic pressing block is integrally arranged in the steel frame assembly (1), one side of the C-shaped bottom surface of the elastic pressing block is provided with a vertical bending surface (33), and the vertical bending surface (33) is fixedly attached to the bending surface (13) of the steel frame assembly (1).

5. The automatic installation and positioning structure for the steel frame assembly for the solar power station according to claim 4, wherein a claw (331) is arranged on the vertical bending surface (33), and the claw (331) is clamped on one side of the square nut (31).

6. The automatic installation and positioning structure of the steel frame assembly for the solar power station according to claim 1, wherein the tongue piece II (22) on the purline (2) is parallel to and in abutting connection with the bending surface (13) of the steel frame assembly (1) and is used for positioning the steel frame assembly (1) in the direction of the short side on the purline (2).