CN218912022U - Photovoltaic module installing support - Google Patents

Abstract

The utility model relates to the field of mounting brackets, in particular to a photovoltaic module mounting bracket, which aims at solving the problem that the existing photovoltaic module cannot be overturned on a V-shaped bracket. For this purpose, this application provides a photovoltaic module installing support, through setting up the installing support to the V style of calligraphy structure that uses with the roof cooperation, the installing support includes first support and the second support of articulated each other, links to each other through cavity structure's first axle sleeve and second axle sleeve are articulated between the two, and the inside rotation of first axle sleeve and second axle sleeve is provided with the axle core, and the axle core can rotate photovoltaic module between first support and second support. When the mounting bracket is actually used, the position of the photovoltaic module relative to the first bracket and the second bracket can be adjusted according to the position of the sun in the whole day, so that the use efficiency of the photovoltaic module is improved.

Description

Photovoltaic module installing support

Technical Field

The utility model relates to the field of mounting brackets, in particular to a photovoltaic module mounting bracket.

Background

Solar photovoltaic power generation is a green energy source, solar light is used for supplying clean energy to human beings, and a photovoltaic module is supported by a photovoltaic module mounting bracket, so that the surface of the photovoltaic module faces the sun, power generation is performed, and the photovoltaic module is usually mounted on a roof.

The conventional photovoltaic module bracket can be mounted on a V-shaped roof, and the photovoltaic module can only be fixed on one side of the bracket along with the change of the sun azimuth in the time of day, so that the use efficiency of the photovoltaic module is seriously reduced.

Accordingly, there is a need in the art for a new solution to the above-mentioned problems.

Disclosure of Invention

In order to solve the problem that current photovoltaic module can not overturn on V type support, this application provides a photovoltaic module installing support, and this installing support includes:

the first bracket and the second bracket are suitable for assembling the photovoltaic assembly;

the first shaft sleeve and the second shaft sleeve are internally provided with cavities, the first shaft sleeve and the second shaft sleeve are respectively arranged on the first bracket and the second bracket, the first bracket and the second bracket are hinged with the second shaft sleeve through the first shaft sleeve, and the outer walls of the first shaft sleeve and the second shaft sleeve are provided with gaps;

the axle core rotates and sets up inside the cavity, the axle core is used for with photovoltaic module assembly to first support with on the second support, when the axle core rotates, photovoltaic module can be in first support with move between the second support.

In the above preferred technical solution of the photovoltaic module mounting bracket, the first bracket and the second bracket are provided with mounting holes.

In the preferred technical scheme of the photovoltaic module mounting bracket, the inner wall of the mounting hole is provided with a flange for clamping and mounting the photovoltaic module.

In the above preferred technical solution of the photovoltaic module mounting bracket, the axial lengths of the first shaft sleeve and the second shaft sleeve are half of the lengths of the side edges of the first bracket and the second bracket.

In the above preferred technical solution of the photovoltaic module mounting bracket, the first shaft sleeve and the second shaft sleeve are both designed in a continuous structure.

In the above preferred technical solution of the photovoltaic module mounting bracket, the first shaft sleeve is disposed at a position on one side of a center line of the first bracket, the second shaft sleeve is disposed at a position on one side of a center line of the second bracket, and the first shaft sleeve and the second shaft sleeve are disposed opposite to each other.

In the preferred technical scheme of the photovoltaic module mounting bracket, the fillet angle of the cross section of the notch is larger than or equal to the rotating angle of the shaft core between the first bracket and the second bracket.

In the preferred technical scheme of the photovoltaic module mounting bracket, a mounting position matched with the photovoltaic module is formed on the outer wall of the shaft core, the mounting position protrudes outwards through the notch, and the shaft core clamps the photovoltaic module through the mounting position.

In the above preferred technical solution of the photovoltaic module mounting bracket, the diameter of the shaft core is smaller than the diameters of the first shaft sleeve and the second shaft sleeve.

It should be noted that, in the preferred technical scheme of this application, through designing the installing support to the V style of calligraphy structure that uses with the roof cooperation, the installing support includes first support and the second support of articulated each other, links to each other through cavity structure's first axle sleeve and second axle sleeve hinge between the two, and the inside rotation of first axle sleeve and second axle sleeve is provided with the axle core, and the axle core can rotate photovoltaic module between first support and second support. When the mounting bracket is actually used, the position of the photovoltaic module relative to the first bracket and the second bracket can be adjusted according to the position of the sun in the whole day, so that the use efficiency of the photovoltaic module is improved.

Drawings

The photovoltaic module mounting bracket of the present application is described below with reference to the accompanying drawings. In the accompanying drawings:

FIG. 1 is a block diagram of the overall assembly of a photovoltaic module mounting bracket of the present application;

FIG. 2 is a schematic view of an exploded construction of the photovoltaic module mounting bracket of the present application;

fig. 3 is a schematic view of a first bracket structure of the photovoltaic module mounting bracket of the present application;

fig. 4 is a schematic axial core structure of the photovoltaic module mounting bracket of the present application.

In the figure:

1. a first bracket; 11. a first sleeve;

2. a second bracket; 21. a second sleeve;

3. a cavity; 4. a notch; 5. a shaft core; 51. a mounting position; 6. a mounting hole; 61. and a flange.

Detailed Description

The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the utility model. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present utility model.

Based on the technical problem who proposes among the background art, this application provides a photovoltaic module installing support, through the V style of calligraphy structure that sets up the installing support to use with the roof cooperation, the installing support is including first support and the second support of articulated each other, links to each other through cavity structure's first axle sleeve and second axle sleeve are articulated between the two, and the inside rotation of first axle sleeve and second axle sleeve is provided with the axle core, and the axle core can rotate photovoltaic module between first support and second support. When the mounting bracket is actually used, the position of the photovoltaic module relative to the first bracket and the second bracket can be adjusted according to the position of the sun in the whole day, so that the use efficiency of the photovoltaic module is improved.

Referring first to fig. 1 to 4, an overall assembly structure of the photovoltaic module mounting bracket of the present application will be described. Wherein fig. 1 is a whole assembly structure diagram of the photovoltaic module mounting bracket of the present application; FIG. 2 is a schematic view of an exploded construction of the photovoltaic module mounting bracket of the present application; fig. 3 is a schematic view of a first bracket structure of the photovoltaic module mounting bracket of the present application; fig. 4 is a schematic axial core structure of the photovoltaic module mounting bracket of the present application.

The utility model provides a photovoltaic module installing support, includes articulated first support 1 and second support 2 each other, sets up first axle sleeve 11 and the second axle sleeve 21 that have the cavity 3 structure on both respectively, and first support 1 and second support 2 link to each other through first axle sleeve 11 and second axle sleeve 21 are articulated, and first support 1 and second support 2 are put on V style of calligraphy roof, through the articulated function of first axle sleeve 11 and second axle sleeve 21, and photovoltaic module installing support can be put on the V style of calligraphy roof of different angles. The outer walls of the first shaft sleeve 11 and the second shaft sleeve 21 are provided with notches 4.

The cavity 3 of the first shaft sleeve 11 and the second shaft sleeve 21 is internally provided with the shaft core 5, the shaft core 5 can rotate in the two shaft sleeves, the shaft core 5 can respectively install the photovoltaic module on the first bracket 1 or the second bracket 2, and the photovoltaic module can rotate between the two brackets.

On the basis of the above embodiment, the first bracket 1 and the second bracket 2 are respectively provided with a mounting hole 6, the photovoltaic module can be clamped and mounted in the mounting holes 6, and the mounting positions 51 are arranged on the outer wall of the shaft core 5. When in actual use, one end of the photovoltaic module can be inserted into the mounting position 51 to rotate along with the shaft core 5 in the first shaft sleeve 11 and the second shaft sleeve 12, and when the photovoltaic module rotates to the positions of the first bracket 1 and the second bracket 2, the photovoltaic module can be connected with the corresponding mounting bracket through the mounting hole 6, so that the function of mounting the photovoltaic module on the bracket along with the sun position can be realized.

Further, the inner wall of the mounting hole 6 is distributed with a plurality of flanges 61, the flanges 61 can clamp the photovoltaic module on the first bracket 1 and the second bracket 2, and grooves with the shapes matched with the flanges 61 are correspondingly formed on the outer wall of the frame of the photovoltaic module for convenient disassembly and reassembling, so that the function of convenient disassembly and assembly is realized.

In a preferred embodiment, the first sleeve 11 and the second sleeve 12 are disposed opposite to each other, that is, the first sleeve 11 is disposed on the left side or the right side of the first bracket 1, the second sleeve 21 is disposed on the right side or the left side of the second bracket 1, and the lengths of the first sleeve 11 and the second sleeve 21 in the axial direction are half of the lengths of the sides of the first bracket 1 and the second bracket 2, and the first sleeves are of continuous structural design.

Specifically, the notch 4 provided on the first shaft sleeve 11 and the second shaft sleeve 21 can help the shaft core 5 rotate on the first shaft sleeve 11 and the second shaft sleeve 21, and the rotation range of the shaft core 5 at least needs to meet the range from the first bracket 1 to the second bracket 2, so that the fillet angle of the cross section of the notch 4 is greater than or equal to the included angle formed between the first bracket 1 and the second bracket 2.

Specifically, the diameter of the shaft core 5 is smaller than the diameters of the first and second bushings 11 and 21, and the problem of rubbing the wall or the like cannot occur when the shaft core 5 rotates inside the first and second bushings 11 and 12, so the size of the shaft core 5 is designed to be smaller than the diameter of the inner wall of the bushing.

The following describes a method for using the photovoltaic module mounting bracket in the present application.

Firstly, the first bracket 1 and the second bracket 2 are placed above a V-shaped roof, one end of the photovoltaic module is inserted into the mounting position 51 of the shaft core 5, and then the photovoltaic module is buckled into the mounting hole 6 of the first bracket 1 or the second bracket 2. In the buckling process, a groove is formed in the frame outside the photovoltaic module in advance, the shape of the groove is matched with the flange 61 on the inner wall of the mounting hole 6, and therefore the flange 61 can clamp the photovoltaic module in the mounting hole 6, and the mounting process is completed.

When the sun changes position along with the time, the photovoltaic module is turned over to the bracket at the other side. In the overturning process, the photovoltaic module is pulled out outwards, the groove of the frame of the photovoltaic module can slide out from the flange 61 in the mounting hole 6, then the photovoltaic module is rotated, the photovoltaic module can rotate between the first shaft sleeve 11 and the second shaft sleeve 21 under the action of the shaft core 5, and the shaft core 5 can smoothly rotate to the opposite-side support under the structural design of the notch 4, so that the use efficiency of the photovoltaic module can be improved.

It is to be understood that the above-described embodiments of the present utility model are merely illustrative of or explanation of the principles of the present utility model and are in no way limiting of the utility model. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present utility model should be included in the scope of the present utility model. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (9)

1. A photovoltaic module mounting bracket, the mounting bracket comprising:

the first bracket and the second bracket are suitable for assembling the photovoltaic assembly;

the first shaft sleeve and the second shaft sleeve are internally provided with cavities, the first shaft sleeve and the second shaft sleeve are respectively arranged on the first bracket and the second bracket, the first bracket and the second bracket are hinged with the second shaft sleeve through the first shaft sleeve, and the outer walls of the first shaft sleeve and the second shaft sleeve are provided with gaps;

the axle core rotates and sets up inside the cavity, the axle core is used for with photovoltaic module assembly to first support with on the second support, when the axle core rotates, photovoltaic module can be in first support with move between the second support.

2. The photovoltaic module mounting bracket of claim 1, wherein the first bracket and the second bracket each have a mounting hole thereon.

3. The photovoltaic module mounting bracket of claim 2, wherein the mounting hole has a flange on an inner wall thereof that engages and mounts a photovoltaic module.

4. The photovoltaic module mounting bracket of claim 1, wherein the axial length of the first and second bushings is half the length of the side edges of the first and second brackets.

5. The photovoltaic module mounting bracket of claim 4, wherein the first sleeve and the second sleeve are each of a continuous structural design.

6. The photovoltaic module mounting bracket of claim 1, wherein the first sleeve is disposed on a side of the first bracket centerline, the second sleeve is disposed on a side of the second bracket centerline, and the first sleeve is disposed opposite the second sleeve.

7. The photovoltaic module mounting bracket of claim 1, wherein the fillet angle of the notch cross section is greater than or equal to the angle at which the axle center rotates between the first bracket and the second bracket.

8. The photovoltaic module mounting bracket of claim 1, wherein a mounting position adapted to the photovoltaic module is formed on the outer wall of the shaft core, the mounting position protrudes outwards through the notch, and the shaft core clamps the photovoltaic module through the mounting position.

9. The photovoltaic module mounting bracket of claim 1, wherein the mandrel diameter is smaller than the diameters of the first and second bushings.

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