CN220673679U - Photovoltaic support and photovoltaic equipment - Google Patents

Abstract

The utility model relates to the technical field of photovoltaic equipment, and discloses a photovoltaic bracket and photovoltaic equipment. The photovoltaic support is suitable for supporting photovoltaic module, includes: a main frame on which an edge portion is provided; the mounting frame is rotationally connected with the edge part and is suitable for mounting the photovoltaic module; one end of the pull rope is connected with one side, far away from the edge, of the mounting frame, the other end of the pull rope bypasses the edge, extends downwards along the main frame and is suitable for being connected with the main frame, and the pull rope is suitable for being driven by external force to drive the mounting frame to rotate so as to adjust the mounting angle of the photovoltaic module. According to the utility model, the rotatable mounting frame is arranged on the main frame to mount the photovoltaic module, and the mounting angle of the photovoltaic module is adjusted by matching the pull rope with the dead weight of the photovoltaic module or the mounting frame, so that the photovoltaic module can be retracted at the side part of the main frame when crops are ripe and harvested, the occupied space of the photovoltaic bracket and the photovoltaic module is reduced, and the modern equipment such as a harvester can conveniently run in the field, and the harvesting efficiency of the crops is improved.

Description

Photovoltaic support and photovoltaic equipment

Technical Field

The utility model relates to the technical field of photovoltaic equipment, in particular to a photovoltaic bracket and photovoltaic equipment.

Background

The agricultural and photo-complementary power generation project, namely a scheme for arranging photovoltaic power generation equipment in a cultivated farmland, can utilize the low-yield farmland to increase the power yield on one hand, and on the other hand, the establishment of power facilities is beneficial to the agriculture to be carried out in an electrified environment, so that the modern agriculture, high-efficiency agriculture and even systems such as cultivation are developed.

The photovoltaic part of the agricultural and photovoltaic complementary photovoltaic system is usually arranged as a fixed photovoltaic device, the fixed photovoltaic device comprises a supporting upright post and a prestressed steel cable, the prestressed steel cable is arranged on the supporting upright post, the photovoltaic module is fixed on the prestressed steel cable through a connecting piece, and the supporting upright post and the prestressed steel cable are connected to generate a supporting effect on the photovoltaic module, so that a mounting bracket of the photovoltaic module is formed. The fixed photovoltaic device is arranged in the cultivated farmland to form an agricultural light complementary photovoltaic system.

The existing agricultural light complementary photovoltaic system adopts fixed photovoltaic equipment which occupies a large space, and when crops are ripe and harvested, the fixed photovoltaic equipment easily affects the operation of modern equipment such as a harvester and the like, and the harvesting efficiency of the crops is reduced.

Disclosure of Invention

In view of the above, the utility model provides a photovoltaic bracket to solve the problems that the fixed photovoltaic equipment adopted by the existing agricultural and photovoltaic complementary photovoltaic system occupies a large space and is easy to influence the operation of modern equipment such as a harvester.

Meanwhile, the utility model provides photovoltaic equipment to solve the problems that the fixed photovoltaic equipment adopted by the existing agricultural and optical complementary photovoltaic system occupies a large space and is easy to influence the operation of modern equipment such as a harvester and the like.

In a first aspect, the present utility model provides a photovoltaic bracket adapted to support a photovoltaic module, the photovoltaic bracket comprising: a main frame on which an edge portion is provided; the mounting frame is rotationally connected with the edge part and is suitable for mounting a photovoltaic module; and one end of the pull rope is connected with one side, far away from the edge part, of the mounting frame, the other end of the pull rope bypasses the edge part and extends downwards along the main frame and is suitable for being connected with the main frame, and the pull rope is suitable for being driven by external force to drive the mounting frame to rotate so as to adjust the mounting angle of the photovoltaic module.

The beneficial effects are that: according to the photovoltaic support, the rotatable mounting frame is arranged on the main frame to mount the photovoltaic assembly, and the mounting angle of the photovoltaic assembly is adjusted by the aid of the dead weight of the pull rope matched with the photovoltaic assembly or the mounting frame, so that the photovoltaic assembly can be retracted at the side part of the main frame when crops are ripe and harvested, the occupied space of the photovoltaic support and the photovoltaic assembly is reduced, modern equipment such as a harvester can conveniently run in fields, the harvesting efficiency of the crops is improved, and the problem that the occupied area of fixed photovoltaic equipment adopted by an existing agricultural and photovoltaic complementary photovoltaic system is large, and the operation of the modern equipment such as the harvester is easy to influence is solved.

In an optional embodiment, the mounting frame is provided with a plurality of mounting frames along the circumferential direction of the main frame, and any one of the mounting frames is correspondingly provided with the photovoltaic module.

The beneficial effects are that: and the edge part of the circumferential edge of the main frame is rotationally connected with a plurality of mounting frames, so that a plurality of photovoltaic modules are mounted for photovoltaic power generation, and the photovoltaic power generation efficiency is improved.

In an alternative embodiment, the photovoltaic bracket further comprises a connecting cylinder arranged inside the main frame, and the plurality of pull ropes are respectively penetrated in the connecting cylinder and are suitable for being connected with the connecting cylinder.

The beneficial effects are that: the connecting cylinder is located the inside intermediate position of body frame, and many stay ropes of control mounting bracket and photovoltaic module angle modulation are concentrated to be worn to establish in the connecting cylinder to the lug connection carries out fixed in position in the connecting cylinder, so that carry out concentrated regulation control to a plurality of photovoltaic modules, improve the convenience to a plurality of photovoltaic module angle modulation.

In an alternative embodiment, the connecting cylinder is provided with a plurality of fixing parts distributed at different height positions, and the pull rope is suitable for being connected with any fixing part.

The beneficial effects are that: the fixed part is provided with a plurality of and distributes in different height, and when the stay cord links to each other with arbitrary fixed part, mounting bracket and photovoltaic module just can adjust and be fixed to a certain angular position to realize photovoltaic module's multi-angle regulation.

In an alternative embodiment, the fixing portion is provided as a through hole, and the pull cord is adapted to pass through the through hole and be wound around the circumferential side of the connection cylinder.

In an alternative embodiment, the photovoltaic bracket further comprises a limiting seat arranged on the main frame, wherein the limiting seat is arranged corresponding to the mounting frame and is suitable for being propped against the mounting frame so that the mounting frame is arranged at intervals with the main frame.

The beneficial effects are that: the limiting seat is arranged on the side part of the main frame and corresponds to the position of the mounting frame and the position of the photovoltaic module, and is suitable for propping against the photovoltaic module when the photovoltaic module is retracted to the side part of the main frame, so that the mounting frame, the photovoltaic module and the main frame are arranged at intervals to form a certain angle, and the mounting frame is conveniently pulled by the pull rope, and the mounting frame and the photovoltaic module are driven by enough upward component force to perform angle adjustment.

In an alternative embodiment, the photovoltaic bracket further comprises a steering pin disposed between the mounting frame and the edge portion, the first connecting portion of the steering pin is connected to the mounting frame, and the second connecting portion of the steering pin is connected to the edge portion.

The beneficial effects are that: through setting up steering pin in order that the rotation of mounting bracket and edge be connected, the connected mode of first connecting portion and mounting bracket is the welding, and the connected mode of second connecting portion and edge is the welding.

In an optional embodiment, the photovoltaic bracket further comprises a limiting part arranged at the edge part, the limiting part comprises a saddle connected with the edge part, and a limiting ring arranged on the saddle, the pull rope is arranged in the limiting ring in a penetrating mode, and the limiting part is arranged corresponding to the second connecting part.

The beneficial effects are that: the limiting piece limits the setting position of the pull rope, limits the movement range of the pull rope in the limiting ring, and avoids the pull rope from sliding at the edge part, so that the movement stability of the pull rope is improved, and the integral stability of angle adjustment of the photovoltaic module is improved.

In an alternative embodiment, the mounting frame is provided as a through pipe, one end of the pull rope is connected to the end of the through pipe, and the other end of the pull rope penetrates through the through pipe and bypasses the limiting ring to extend downwards along the main frame.

The beneficial effects are that: the installation rack is arranged as the through pipe, the through pipe is connected with the photovoltaic module, the through pipe is used as an installation piece to fix the position of the photovoltaic module, and the pull rope can be limited, so that the overall stability of angle adjustment of the photovoltaic module is improved.

In a second aspect, the present utility model further provides a photovoltaic device, including the photovoltaic support according to any one of the above embodiments, and a photovoltaic module disposed on the photovoltaic support.

Because the photovoltaic device includes the photovoltaic bracket, the same effect as the photovoltaic bracket is provided, and the description thereof will not be repeated.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a photovoltaic bracket and a photovoltaic device provided by the utility model;

fig. 2 is a schematic structural view of a steering pin provided by the present utility model;

fig. 3 is a schematic structural view of the pull rope provided by the utility model penetrating through the limiting part.

Reference numerals illustrate:

100. a photovoltaic module; 1. a main frame; 101. an edge portion; 2. a mounting frame; 201. a through pipe; 3. a pull rope; 4. a connecting cylinder; 5. a fixing part; 6. a limit seat; 7. a steering pin; 701. a first connection portion; 702. a second connecting portion; 8. a limiting piece; 801. a saddle; 802. and a limiting ring.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiments of the present utility model are described below in conjunction with fig. 1-3.

According to an embodiment of the present utility model, in one aspect, there is provided a photovoltaic bracket, as shown in fig. 1, including: a main frame 1, an edge part 101, a mounting frame 2, a pull rope 3, and the like.

The main frame 1 is provided with an edge part 101; the mounting frame 2 is rotatably connected to the edge portion 101, and the mounting frame 2 is adapted to mount the photovoltaic module 100.

Specifically, as shown in fig. 1, the bottom of the main frame 1 is suitable for being installed on a foundation surface, namely, a proper position of a farmland, the top of the main frame 1 is provided with an edge part 101, the edge part 101 is rotationally connected with a mounting frame 2 so as to be convenient for installing a photovoltaic module 100, the photovoltaic module 100 is utilized for photovoltaic power generation, the main frame 1 is utilized for setting the photovoltaic module 100 at a certain height position so as to be convenient for forming a higher clearance below the photovoltaic module 100, and modern equipment such as a harvester and the like can conveniently operate.

Further, the specific structural form of the mounting frame 2 is not limited in this embodiment, and a stable mounting and matching relationship with the photovoltaic module may be formed.

One end of the pull rope 3 is connected with one side, far away from the edge part 101, of the mounting frame 2, the other end of the pull rope bypasses the edge part 101, extends downwards along the main frame 1 and is suitable for being connected with the main frame 1, and the pull rope 3 is suitable for being driven by external force to drive the mounting frame 2 to rotate so as to adjust the mounting angle of the photovoltaic module 100.

Specifically, as shown in fig. 1, by pulling the pull rope 3, the installation frame 2 connected with the pull rope 3 is driven to rotate, and the installation frame 2 drives the photovoltaic module 100 to synchronously rotate, so as to adjust the installation angle of the photovoltaic module 100, and meanwhile, the pull rope 3 extends downwards to set one end and is suitable for being connected with the main frame 1, so that the position of the photovoltaic module 100 after the angle adjustment is fixed. When photovoltaic power generation is required, the installation angle of the photovoltaic module 100 is adjusted to be sunward and convenient for lighting by pulling the pull rope 3, so that the photovoltaic power generation with the maximum efficiency is performed; when crops are ripe to be collected, through releasing the dead weight of stay cord 3 cooperation photovoltaic module 100 or mounting bracket 2, adjust the installation angle of photovoltaic module 100 to the position that the whole of photovoltaic module 100 is close to body frame 1 for photovoltaic module 100 withdraws the lateral part at body frame 1, reduces the space that photovoltaic support and photovoltaic module 100 occupy.

Further, in this embodiment, the connection form between the pull rope 3 and the main frame 1 is not limited, and the pull rope 3 can be stretched and fixed. As an embodiment, a binding post is arranged at a proper position of the main frame 1, and after the angle of the photovoltaic module 100 is adjusted by using the pull rope, the pull rope 3 is wound on the binding post so as to fix the pull rope 3; as another embodiment, a small winch is provided at the end of the rope 3, and the rope 3 is automatically tensioned and fixed by the mechanical drive of the winch.

Further, the pulling rope 3 is provided as a wire rope so as to have high strength, high structural safety reserve, and strong wind resistance.

According to the photovoltaic support, the rotatable mounting frame 2 is arranged on the main frame 1 to mount the photovoltaic module 100, the mounting angle of the photovoltaic module 100 is adjusted through the dead weight of the pull rope 3 matched with the photovoltaic module 100 or the mounting frame 2, so that the photovoltaic module 100 can be retracted at the side part of the main frame 1 when crops are ripe to be harvested, the occupied space of the photovoltaic support and the photovoltaic module 100 is reduced, modern equipment such as a harvester can conveniently operate in the field, the harvesting efficiency of the crops is improved, and the problem that the occupied area of fixed photovoltaic equipment adopted by the existing agricultural and photovoltaic complementary photovoltaic system is large, and the operation of the modern equipment such as the harvester is easy to influence is solved.

In one embodiment, as shown in fig. 1, a plurality of mounting frames 2 are provided along the circumferential direction of the main frame 1, and a photovoltaic module 100 is correspondingly mounted on any one of the mounting frames 2.

Specifically, the plurality of mounting frames 2 are rotatably connected to the edge portion 101 of the circumferential edge of the main frame 1, so that the plurality of photovoltaic modules 100 are mounted to perform photovoltaic power generation, and the photovoltaic power generation efficiency is improved.

Further, the present embodiment is not limited in terms of the arrangement form of the plurality of mounting frames 2 and the photovoltaic module 100. As an embodiment, as shown in fig. 1, four groups of mounting frames 2 and photovoltaic modules 100 are distributed in a rectangular shape on the circumferential edge of a square main frame 1; as another embodiment, the main frame 1 is cylindrical, and multiple groups of mounting frames 2 and photovoltaic modules 100 are circularly distributed on the circumferential edge of the main frame, so that the photovoltaic modules 100 are closely distributed in the circumferential direction, and the photovoltaic power generation efficiency is further improved.

In one embodiment, as shown in fig. 1, the photovoltaic bracket further comprises a connecting tube 4 disposed inside the main frame 1, and a plurality of pull ropes 3 are respectively penetrated in the connecting tube 4 and are suitable for being connected with the connecting tube 4.

Specifically, as shown in fig. 1, the connecting tube 4 is located at an intermediate position inside the main frame 1, and the plurality of pull ropes 3 for controlling the angle adjustment of the mounting frame 2 and the photovoltaic modules 100 are intensively arranged in the connecting tube 4 in a penetrating manner and are directly connected in the connecting tube 4 for position fixing, so that the plurality of photovoltaic modules 100 are intensively adjusted and controlled, and the convenience of angle adjustment of the plurality of photovoltaic modules 100 is improved.

In one embodiment, as shown in fig. 1, the connecting cylinder 4 is provided with a plurality of fixing portions 5 distributed at different height positions, and the pulling rope 3 is adapted to be connected to any one of the fixing portions 5.

Specifically, as shown in fig. 1, the fixing portions 5 are provided with a plurality of fixing portions and distributed at different heights, and when the pull cord 3 is connected with any fixing portion 5, the mounting frame 2 and the photovoltaic module 100 are adjusted and fixed at a certain angle, so as to realize multi-angle adjustment of the photovoltaic module 100.

Further, in this embodiment, the installation form of the fixing portion 5 on the connection tube 4 is not limited, and the pull cord 3 may be stably fixed. As one embodiment, the fixing part 5 is provided as a binding column, and after the pull rope 3 passes out from the bottom of the connecting cylinder 4, the pull rope 3 is wound on the binding column so as to fix the pull rope 3; as another embodiment, the fixing portion 5 is provided as a through hole, and the pull cord 3 is directly wound around the circumferential position of the binding post to be fixed after the through hole is penetrated out at a certain position of the connecting tube 4.

In one example, as shown in fig. 1, as a preferred embodiment, the fixing portion 5 is provided as a through hole, and the pulling cord 3 is adapted to pass through the through hole and be wound around the circumferential side of the connection cylinder 4.

In one embodiment, as shown in fig. 1, the photovoltaic bracket further includes a limiting seat 6 disposed on the main frame 1, where the limiting seat 6 is disposed corresponding to the mounting frame 2 and is adapted to abut against the mounting frame 2 so that the mounting frame 2 is disposed at a distance from the main frame 1.

Specifically, as shown in fig. 1, the limiting seat 6 is disposed at a side portion of the main frame 1 and corresponds to the position of the mounting frame 2 and the position of the photovoltaic module 100, and is suitable for propping against the photovoltaic module 100 when the photovoltaic module 100 is retracted to the side portion of the main frame 1, so that a certain angle is formed between the mounting frame 2 and the photovoltaic module 100 and the main frame 1 at intervals, and a sufficient upward component force is conveniently used for driving the mounting frame 2 and the photovoltaic module 100 when the pull rope 3 pulls the mounting frame 2.

Further, the limiting seat 6 can be connected with each corresponding foot seat of the main frame 1 by adopting a connecting rod when being arranged on the main frame 1 so as to perform position installation and fixation.

In one embodiment, as shown in fig. 1 and 2, the photovoltaic bracket further includes a steering pin 7 disposed between the mounting frame 2 and the edge portion 101, a first connection portion 701 of the steering pin 7 is connected to the mounting frame 2, and a second connection portion 702 of the steering pin 7 is connected to the edge portion 101.

Specifically, as shown in fig. 1 and 2, the steering pin 7 is provided to facilitate the rotational connection between the mounting frame 2 and the edge portion 101, the first connection portion 701 is welded to the mounting frame 2, and the second connection portion 702 is welded to the edge portion 101.

In one embodiment, as shown in fig. 1 and 3, the photovoltaic bracket further includes a limiting member 8 disposed on the edge portion 101, the limiting member 8 includes a saddle 801 connected to the edge portion 101, and a limiting ring 802 disposed on the saddle 801, and the pull cord 3 is threaded through the limiting ring 802, where the limiting member 8 is disposed corresponding to the second connecting portion 702.

Specifically, as shown in fig. 1 and 3, the limiting member 8 limits the setting position of the pull rope 3, limits the movement range of the pull rope 3 in the limiting ring 802, and prevents the pull rope 3 from sliding at the edge portion 101, so as to improve the movement stability of the pull rope 3, and further improve the overall stability of the angle adjustment of the photovoltaic module 100.

In one embodiment, as shown in fig. 1, the mounting frame 2 is provided as a through pipe 201, one end of the pull rope 3 is connected to the end of the through pipe 201, and the other end passes through the through pipe 201 and extends downward along the main frame 1 by bypassing the limit ring 802.

Specifically, as shown in fig. 1, the mounting frame 2 is set as a through pipe 201, the through pipe 201 is connected with the photovoltaic module 100, and the through pipe 201 is used as a mounting piece to fix the position of the photovoltaic module 100 and limit the pull rope 3, so that the overall stability of angle adjustment of the photovoltaic module 100 is improved.

Further, the outer wall of the through pipe 201 is welded and fixed to the photovoltaic module 100.

According to an embodiment of the present utility model, in another aspect, there is also provided a photovoltaic apparatus, as shown in fig. 1, including the photovoltaic bracket of any of the above embodiments, and a photovoltaic module 100 disposed on the photovoltaic bracket.

Because the photovoltaic device includes the photovoltaic bracket, the same effect as the photovoltaic bracket is provided, and the description thereof will not be repeated.

Although embodiments of the present utility model have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope of the utility model as defined by the appended claims.

Claims (10)

1. A photovoltaic support adapted to support a photovoltaic module (100), characterized in that it comprises:

a main frame (1) on which an edge portion (101) is provided;

a mounting frame (2) rotatably connected to the edge portion (101), the mounting frame (2) being adapted to mount a photovoltaic module (100);

stay cord (3), one end with mounting bracket (2) keep away from one side of edge (101) links to each other, and the other end is walked around edge (101) are followed body frame (1) downwardly extending sets up, and be suitable for with body frame (1) link to each other, stay cord (3) are suitable for by external force drive mounting bracket (2) rotation, in order to adjust the installation angle of photovoltaic module (100).

2. The photovoltaic bracket according to claim 1, wherein a plurality of mounting frames (2) are provided along the circumferential direction of the main frame (1), and the photovoltaic module (100) is correspondingly mounted on any one of the mounting frames (2).

3. The photovoltaic bracket according to claim 2, further comprising a connecting tube (4) arranged inside the main frame (1), wherein a plurality of pull ropes (3) are respectively penetrated in the connecting tube (4) and are suitable for being connected with the connecting tube (4).

4. A photovoltaic bracket according to claim 3, characterized in that the connecting cylinder (4) is provided with a plurality of fixing portions (5) distributed at different height positions, the pull cord (3) being adapted to be connected to any one of the fixing portions (5).

5. The photovoltaic bracket according to claim 4, characterized in that the fixing portion (5) is provided as a through hole through which the pulling rope (3) is adapted to pass and to be wound around the circumference of the connecting cylinder (4).

6. The photovoltaic bracket according to any of claims 1-5, further comprising a limit seat (6) provided on the main frame (1), the limit seat (6) being provided in correspondence of the mounting frame (2) and adapted to be offset against the mounting frame (2) so as to space the mounting frame (2) from the main frame (1).

7. The photovoltaic bracket according to any of claims 1-5, further comprising a steering pin (7) arranged between the mounting frame (2) and the edge portion (101), a first connection portion (701) of the steering pin (7) being connected to the mounting frame (2), a second connection portion (702) of the steering pin (7) being connected to the edge portion (101).

8. The photovoltaic bracket according to claim 7, further comprising a limiting member (8) disposed at the edge portion (101), wherein the limiting member (8) comprises a saddle (801) connected to the edge portion (101), and a limiting ring (802) disposed on the saddle (801), wherein the pull rope (3) is inserted into the limiting ring (802), and wherein the limiting member (8) is disposed corresponding to the second connecting portion (702).

9. The photovoltaic bracket according to claim 8, characterized in that the mounting frame (2) is provided as a through pipe (201), one end of the pull rope (3) is connected to the end of the through pipe (201), and the other end passes through the through pipe (201) and bypasses the limit ring (802) to extend downwards along the main frame (1).

10. A photovoltaic device characterized by comprising a photovoltaic support according to any one of claims 1 to 9, and a photovoltaic module (100) arranged on the photovoltaic support.