CN220673683U - Photovoltaic support and photovoltaic system - Google Patents

Abstract

The application relates to the field of photovoltaic technology, provides a photovoltaic support and photovoltaic system, include: a main beam; the purlines are arranged on the main beam at intervals along the length direction of the main beam and are suitable for installing the photovoltaic panel; the connecting rod assembly is arranged below the purlines and fixedly connected with the purlines, and the purlines are connected into a whole through the connecting rod assembly. According to the photovoltaic power station, each photovoltaic panel is connected into a whole through the connecting rod assembly, the integrity of the photovoltaic panels is improved, the force transmission path between the photovoltaic panels is increased, the stress of each photovoltaic panel is more uniform, the risk of damage to the photovoltaic panels is reduced, the maintenance cost of the photovoltaic power station is reduced, and the income of the photovoltaic power station is increased.

Description

Photovoltaic support and photovoltaic system

Technical Field

The application relates to the technical field of photovoltaics, and further relates to a photovoltaic support and a photovoltaic system.

Background

At present, a photovoltaic panel mounting mode is widely used in the market, namely, purlines are perpendicular to a main beam, the middle part of each purline is connected with the main beam, and the photovoltaic panel is mounted on two adjacent purlines. Under this kind of mounting means, photovoltaic panel's wholeness is relatively poor, can not form unified atress system, when meetting adverse weather conditions, for example heavy rain, strong wind, when snowy, photovoltaic panel is easily lifted, has increased photovoltaic power plant's cost of maintenance, influences photovoltaic power plant's production income.

Disclosure of Invention

This application is in order to solve above-mentioned problem, provide a photovoltaic support and photovoltaic system, design benefit, simple structure, connect each photovoltaic panel as a whole through linking the tie rod, the overall stability of photovoltaic panel has been promoted, the power transmission route between the photovoltaic panel has been increased, make the atress of each photovoltaic panel more even, purlin destruction and the risk that photovoltaic panel was lifted and turn over, the risk of photovoltaic support destruction has been reduced, the maintenance cost of photovoltaic power plant has been reduced, the income of photovoltaic power plant has been increased, the technical scheme who adopts of this application is as follows:

a photovoltaic bracket for supporting a photovoltaic panel, comprising:

the main beam and the upright post are arranged at the top end of the upright post;

the purlines are arranged on the main beam at intervals along the length direction of the main beam and are suitable for installing the photovoltaic panel;

the connecting rod assembly is arranged below the purlines and fixedly connected with the purlines, and the purlines are connected into a whole through the connecting rod assembly.

Each purline is connected into a whole through the connecting rod assembly, and then each photovoltaic panel is connected into a whole, so that the overall stability of the photovoltaic panels is improved, the force transmission path between the photovoltaic panels is increased, the stress of each photovoltaic panel is more uniform, the risk that the photovoltaic panels are turned over is reduced, the risk of damage to the photovoltaic support is reduced, the maintenance cost of the photovoltaic power station is reduced, and the income of the photovoltaic power station is increased.

In some embodiments, the tie bar assembly is bolted to the purlins.

Through bolted connection, can avoid the open flame that the installation scene appears through welded fastening's mode, the installation and the dismantlement of connecting rod subassembly and purlin of also being convenient for simultaneously.

In some embodiments, the number of tie bar assemblies is 2, and 2 of the tie bar assemblies are symmetrically disposed with respect to the main beam.

Through all setting up the tie rod subassembly in the girder both sides, consolidate the photovoltaic panel of girder both sides simultaneously, can promote the holistic stability of photovoltaic panel, reduce the risk that photovoltaic panel was lifted by strong wind and fly.

In some embodiments, the connecting rod assembly is provided with a plurality of first waist-shaped holes along the length direction of the connecting rod assembly, the purline is provided with a plurality of first through holes matched with the first waist-shaped holes, and the connecting rod assembly and the purline are suitable for being connected through bolts penetrating through the first waist-shaped holes and the first through holes.

Through setting up first waist type hole, can reduce in order to make purlin and tie rod subassembly bolted connection and the trompil precision requirement of trompil on purlin and tie rod subassembly, reduce the installation precision requirement for the tie rod subassembly can be for the purlin of corresponding position along girder length direction displacement in certain limit, also can reduce simultaneously because of the risk that the girder that the ambient temperature changes arouses warp inconsistent with the tie rod subassembly.

In some embodiments, the connecting rod assembly comprises a plurality of connecting rods, and two adjacent connecting rods in the same connecting rod assembly are connected through a connecting piece.

The connecting rod assembly is formed by sequentially connecting a plurality of connecting rods, so that the length of a single connecting rod can be reduced, and the production, the processing, the transportation and the installation are convenient.

In some embodiments, the two ends of the connecting piece are respectively provided with a second through hole, the adjacent ends of the two adjacent connecting rods are respectively provided with a third through hole, and the connecting rods and the connecting piece are suitable for being connected through bolts penetrating through the second through holes and the third through holes.

The connecting piece and the connecting rod are connected through bolts, so that open fire caused by welding and fixing on the installation site can be avoided, and meanwhile, the connecting piece and the connecting rod are convenient to install and detach.

In some embodiments, the second and/or third through holes are kidney-shaped holes.

The second through hole and/or the third through hole adopt waist-shaped holes, so that the requirement on the punching precision of the connecting rod and the connecting piece can be reduced, the requirement on the mounting precision is reduced, and the temperature deformation of the connecting rod and the main girder is coordinated.

In some embodiments, the tie rod and the connector are both angle steel.

The connecting rod and the connecting piece are all made of angle steel, so that on one hand, holes are conveniently formed in the angle steel, and on the other hand, good bending resistance of the angle steel is utilized.

In some embodiments, the device further comprises a column and a drive assembly, wherein the drive assembly is mounted on the top end of the column, and the drive assembly is pivotally connected with the main beam to drive the main beam to rotate.

Through setting up drive assembly for the girder can rotate, with the inclination of changing photovoltaic panel, promotes photovoltaic power plant's generating efficiency, thereby improves the generated energy.

In another aspect, the present application also provides a photovoltaic system, including a photovoltaic support and a plurality of photovoltaic panels, the photovoltaic support includes:

a main beam;

the purlines are arranged on the main beam at intervals along the length direction of the main beam, and the photovoltaic panel is arranged on the purlines;

the connecting rod assembly is arranged below the photovoltaic panels and fixedly connected with a plurality of photovoltaic panels, and the photovoltaic panels are connected into a whole through the connecting rod assembly.

In some embodiments, the photovoltaic panels are arranged in rows along the length of the main beam, each row comprising 2 of the photovoltaic panels.

Each row of photovoltaic panels comprises 2 photovoltaic panels, and compared with 1 photovoltaic panel, the power generation area is greatly increased, so that the power generation capacity is improved.

The application provides a photovoltaic support and photovoltaic system has following beneficial effect at least:

1. according to the photovoltaic support and the photovoltaic system, the design is ingenious, the structure is simple, all the photovoltaic panels are connected into a whole through the connecting rod assembly, the overall stability of the photovoltaic panels is improved, the force transmission path between the photovoltaic panels is increased, the stress of all the photovoltaic panels is more uniform, the risks of purline damage and the photovoltaic panels being turned over are reduced, the risk of damage to the photovoltaic support is reduced, the maintenance cost of a photovoltaic power station is reduced, and the income of the photovoltaic power station is increased;

2. according to the photovoltaic bracket and the photovoltaic system, the purline or the photovoltaic panel is connected with the connecting rod assembly through the bolts, so that open fire on an installation site can be avoided, and meanwhile, the connecting rod assembly and the purline or the photovoltaic panel are convenient to install and detach;

3. according to the photovoltaic bracket and the photovoltaic system, the connecting rod assemblies are arranged on the two sides of the main beam, and meanwhile, the photovoltaic panels on the two sides of the main beam are reinforced, so that the stability of the two ends of the photovoltaic panels can be improved, and the risk that the photovoltaic panels are lifted off by strong wind is reduced;

4. according to the photovoltaic bracket and the photovoltaic system, the first waist-shaped hole is formed, so that the requirement on the hole forming precision of holes formed in the purline and the connecting rod assembly for enabling the purline to be connected with the connecting rod assembly through bolts can be reduced, the requirement on the installation precision is reduced, the connecting rod assembly can displace in a certain range along the length direction of the main beam relative to the purline at the corresponding position, and meanwhile the risk of inconsistent deformation of the main beam and the connecting rod assembly caused by environmental temperature change can be reduced;

5. according to the photovoltaic bracket and the photovoltaic system, the connecting rod assembly is formed by sequentially connecting a plurality of connecting rods, so that the length of a single connecting rod can be reduced, and the production, the processing, the transportation and the installation are convenient;

6. according to the photovoltaic bracket and the photovoltaic system, the connecting piece is connected with the connecting rod through the bolts, so that open fire can be prevented from occurring on the installation site through welding and fixing, and meanwhile, the connecting piece and the connecting rod are convenient to install and detach;

7. according to the photovoltaic bracket and the photovoltaic system, the waist-shaped holes are adopted for the second through holes and/or the third through holes, so that the requirement on the accuracy of holes on the connecting rod and the connecting piece can be reduced, the requirement on the mounting accuracy is reduced, and the temperature deformation of the connecting rod and the temperature deformation of the main beam are coordinated;

8. according to the photovoltaic bracket and the photovoltaic system, the angle steel is adopted as the connecting rod and the connecting piece, so that on one hand, holes are conveniently formed in the angle steel, and on the other hand, good bending resistance of the angle steel is utilized;

9. according to the photovoltaic bracket and the photovoltaic system, 2 photovoltaic panels are arranged in each row of photovoltaic panels, compared with 1 photovoltaic panel, the area of the utility model is greatly increased, and therefore the generated energy is improved;

10. the utility model provides a pair of photovoltaic support and photovoltaic system through setting up drive assembly for the girder can rotate, with the inclination that changes photovoltaic panel, promotes photovoltaic power plant's generating efficiency, thereby increases the generated energy.

Drawings

The above features, technical features, advantages and implementation manners of a photovoltaic support and a photovoltaic system will be further described in a clear and understandable manner by describing preferred embodiments with reference to the accompanying drawings:

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is an enlarged schematic view of a portion A of FIG. 1;

fig. 3 is an exploded view of a portion of the subassembly of fig. 2.

Reference numerals illustrate:

purlin 1, tie rod 2, girder 3, first waist formula hole 4, first through-hole 5, connecting piece 6, second through-hole 7, third through-hole 8, stand 9, photovoltaic panel 10.

Detailed Description

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will explain specific embodiments of the present application with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the present application, and that other drawings and other embodiments may be obtained from these drawings by those skilled in the art without undue effort.

For simplicity of the drawing, only the parts relevant to the present application are schematically shown in each drawing, and they do not represent the actual structure thereof as a product. Additionally, in order to simplify the drawing for ease of understanding, components having the same structure or function in some of the drawings are shown schematically with only one of them, or only one of them is labeled. Herein, "a" means not only "only this one" but also "more than one" case.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

In this context, it should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, unless explicitly stated or limited otherwise; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

In addition, in the description of the present application, the terms "first," "second," and the like are used merely to distinguish between descriptions and are not to be construed as indicating or implying relative importance.

Example 1

In order to strengthen the connection between the photovoltaic panels, promote the overall stability of photovoltaic panels for each photovoltaic panel atress is even, strengthens photovoltaic panel's bearing capacity, reduces photovoltaic panel by the risk of turning over, and reference specification attached hereto figures 1 through 3, this application provides a photovoltaic support for support photovoltaic panel 10 includes:

the main beam 3 and the upright post 9, wherein the main beam 3 is arranged at the top end of the upright post 9;

the purlines 1, a plurality of purlines 1 are installed on the girder 3 at intervals along the length direction of the girder 3, the purlines 1 are perpendicular to the girder 3, and the purlines 1 are used for installing the photovoltaic panel 10;

the connecting rod assembly is arranged below the purlines 1 and fixedly connected with the purlines 1, and the purlines 1 are integrally connected through the connecting rod assembly.

In this embodiment, connect each purlin 1 as a whole through linking the tie rod subassembly, promoted the overall stability of photovoltaic panel 10, increased the power transmission route between photovoltaic panel 10 for the atress of each photovoltaic panel 10 is more even, has reduced the risk that photovoltaic panel 10 destroyed, has reduced the risk that the photovoltaic support destroyed, has reduced the maintenance cost of photovoltaic power plant, has increased the benefit of photovoltaic power plant.

In one embodiment, the tie bar assembly is fixedly connected to purlins 1 by fasteners.

When the tie bar assembly is fixed on the purline 1, the photovoltaic panels 10 are indirectly connected with each other into a whole by combining the fixing effect of the purline 1 on the photovoltaic panels 10.

In one embodiment, the tie bar assembly is bolted to purlins 1.

In this embodiment, through bolted connection, can avoid the installation scene to appear open flame because of welded fastening, also be convenient for the installation and the dismantlement of tie rod subassembly and purlin 1 simultaneously. In other embodiments, the connection may be performed by riveting, welding, or clamping.

In one embodiment, the number of tie rod assemblies is 2, and 2 tie rod assemblies are symmetrically disposed with respect to the main beam 3.

Through all setting up the tie rod subassembly in girder 3 both sides, consolidate the photovoltaic panel 10 of girder 3 both sides simultaneously, can promote the stability at photovoltaic panel 10 both ends, reduce the risk that photovoltaic panel 10 was lifted by the strong wind and fly.

Referring to fig. 3 of the drawings, in one embodiment, the tie rod assembly is provided with a plurality of first waist-shaped holes 4 along the length direction thereof, the purline 1 is provided with a plurality of first through holes 5 matched with the first waist-shaped holes 4, and the tie rod assembly and the purline 1 are suitable for being connected through bolts by bolt assemblies penetrating through the first waist-shaped holes 4 and the first through holes 5.

In this embodiment, by setting the first waist-shaped hole 4, the requirement on the accuracy of the holes on the purline 1 and the tie rod assembly for bolting the purline 1 and the tie rod assembly can be reduced, the requirement on the installation accuracy is reduced, the tie rod assembly can be displaced in a certain range along the length direction of the main beam 3 relative to the purline 1 at the corresponding position, and meanwhile, the risk of inconsistent deformation of the main beam 3 and the tie rod assembly caused by the change of the environmental temperature can be reduced. The first through hole 5 may be a round hole, a square hole, or another hole such as a waist hole.

Referring to fig. 2 and 3 of the drawings, in one embodiment, the tie rod assembly comprises a plurality of tie rods 2, and two adjacent tie rods 2 in the same tie rod assembly are connected by a connecting piece 6.

In this embodiment, the tie rod assembly is formed by sequentially connecting a plurality of tie rods 2, so that the length of a single tie rod 2 can be reduced, and the production, the processing, the transportation and the installation are facilitated.

Referring to fig. 2 and 3 of the drawings, in one embodiment, two ends of the connecting piece 6 are respectively provided with a second through hole 7, and adjacent ends of the two connecting rods 2 are respectively provided with a third through hole 8, and the connecting rod 2 and the connecting piece 6 are suitable for being connected by bolts through bolt assemblies penetrating through the second through holes 7 and the third through holes 8.

In this embodiment, the connecting piece 6 is connected with the connecting rod 2 by bolts, so that open fire caused by welding and fixing on the installation site can be avoided, and meanwhile, the connecting piece 6 and the connecting rod 2 are convenient to install and detach.

In this embodiment, the second through hole 7 may be a waist-shaped hole, and the third through hole 8 may be a common round hole, or the second through hole 7 may be a common round hole, and the third through hole 8 may be a waist-shaped hole, or the second through hole 7 and the third through hole 8 may be waist-shaped holes. When one of the second through hole 7 and the third through hole 8 is a waist-shaped hole or is a waist-shaped hole, the requirement on the precision of the holes on the connecting rod 2 and the connecting piece 6 can be reduced, the requirement on the installation precision is reduced, and the temperature deformation of the connecting rod 2 and the main beam 3 is coordinated.

Referring to figures 2 and 3 of the drawings, in one embodiment, the tie bars 2 and the connectors 6 are angle steel. The connecting rod 2 and the connecting piece 6 are made of angle steel, so that holes are formed in the angle steel conveniently, and the angle steel is good in bending resistance. In other embodiments, the tie bars 2 and the connectors 6 may also be channel steel, or the tie bars 2 may be round tubes, while the connectors 6 may be outer or inner sleeves. In one embodiment, the photovoltaic bracket further comprises a column 9 and a driving assembly mounted on the top end of the column 9, the driving assembly being pivotally connected to the main beam 3 to drive the main beam 3 to rotate.

In this embodiment, by setting the driving assembly, the main beam 3 may rotate to change the inclination angle of the photovoltaic panel 10, so as to improve the power generation efficiency of the photovoltaic power station. The drive assembly may be an automatic drive assembly or a manual drive assembly.

Referring to fig. 1 of the drawings, in one embodiment, the photovoltaic panels 10 are arranged in rows along the length of the main beam 3, each row of photovoltaic panels 10 comprising 2 photovoltaic panels 10.

In the present embodiment, each row of the photovoltaic panels 10 includes 2 photovoltaic panels 10, and the power generation area is greatly increased compared to 1 photovoltaic panel 10, thereby improving the power generation amount.

Example two

The embodiment discloses photovoltaic system, including photovoltaic support and a plurality of photovoltaic panel, the photovoltaic support includes girder, purlin and tie rod subassembly, and the below of photovoltaic panel is located to the tie rod subassembly to with a plurality of photovoltaic panel fixed connection, a plurality of photovoltaic panels pass through the tie rod subassembly to be connected as whole, and specifically, photovoltaic panel includes the frame, and the bolt fixed connection is passed through with photovoltaic panel's frame to the tie rod subassembly.

As in the first embodiment, the photovoltaic panels are arranged in rows along the length direction of the main beam, and each row of photovoltaic panels includes 2 photovoltaic panels. Compared with 1 photovoltaic panel, the power generation area is greatly increased, and the power generation capacity is improved.

The difference between the first embodiment and the second embodiment lies in that the connecting rod assembly is not fixed with the purline, but directly fixed with the photovoltaic panels through bolts, so that the plurality of photovoltaic panels are connected into a whole, the overall stability of the photovoltaic panels is improved, and other structures are the same as those of the first embodiment and are not described herein.

It should be noted that the above embodiments can be freely combined as needed. The foregoing is merely a preferred embodiment of the present application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present application and are intended to be comprehended within the scope of the present application.

Claims (10)

1. A photovoltaic bracket for supporting a photovoltaic panel, comprising:

the main beam and the upright post are arranged at the top end of the upright post;

the purlines are arranged on the main beam at intervals along the length direction of the main beam and are suitable for installing the photovoltaic panel;

the connecting rod assembly is arranged below the purlines and fixedly connected with the purlines, and the purlines are connected into a whole through the connecting rod assembly.

2. The photovoltaic bracket of claim 1, wherein the tie bar assembly is bolted to the purlines.

3. The photovoltaic module of claim 1, wherein the number of tie bar assemblies is 2, and 2 tie bar assemblies are symmetrically disposed with respect to the main beam.

4. The photovoltaic bracket according to claim 2, wherein the tie rod assembly is provided with a plurality of first waist-shaped holes along the length direction thereof, the purline is provided with a plurality of first through holes matched with the first waist-shaped holes, and the tie rod assembly and the purline are suitable for being connected through bolts by the bolt assemblies penetrating through the first waist-shaped holes and the first through holes.

5. A photovoltaic bracket according to claim 1, wherein the tie bar assembly comprises a plurality of tie bars, and two adjacent tie bars in the same tie bar assembly are connected by a connecting piece.

6. The photovoltaic bracket of claim 5, wherein two ends of the connecting piece are respectively provided with a second through hole, and two adjacent ends of the connecting rod are respectively provided with a third through hole, and the connecting rod and the connecting piece are suitable for being connected through bolts penetrating through the second through holes and the third through holes.

7. The photovoltaic bracket of claim 5, wherein the tie rod and the connector are angle steel.

8. The photovoltaic bracket of claim 7, further comprising a drive assembly mounted to the top end of the upright, the drive assembly pivotally coupled to the main beam to drive rotation of the main beam.

9. A photovoltaic system comprising a photovoltaic support and a plurality of photovoltaic panels, the photovoltaic support comprising:

a main beam;

the purlines are arranged on the main beam at intervals along the length direction of the main beam, and the photovoltaic panel is arranged on the purlines;

the connecting rod assembly is arranged below the photovoltaic panels and fixedly connected with a plurality of photovoltaic panels, and the photovoltaic panels are connected into a whole through the connecting rod assembly.

10. The photovoltaic system of claim 9, wherein the photovoltaic panels are arranged in rows along the length of the main beam, each row comprising 2 of the photovoltaic panels.