CN221995361U - Mounting bracket for photovoltaic power generation plate and photovoltaic power generation device - Google Patents

Abstract

The utility model provides a mounting bracket for a photovoltaic power generation plate and a photovoltaic power generation device, and relates to the technical field of photovoltaic power generation, comprising a plurality of bracket units and a plurality of concrete beams, wherein the bracket units are arranged at intervals along a first direction, and each bracket unit comprises a concrete pile and a concrete bracket; the concrete pile is in an upright state, and the lower end of the concrete pile is driven into the ground; the concrete support is arranged at the upper end position of the concrete pile. The concrete beam is arranged above the concrete supports, extends along the first direction, is used for connecting the plurality of concrete supports, and is used for bearing and installing the photovoltaic power generation plate. The concrete support and the concrete beam are reinforced concrete structures with steel bars arranged inside. The photovoltaic power generation plate provided by the utility model adopts a pile structure, is fixed by means of concrete piles, can be arranged in various surface environments, has low cost, can be constructed and manufactured on site, does not need to be produced by factories, and has good corrosion resistance.

Description

Mounting bracket for photovoltaic power generation plate and photovoltaic power generation device

Technical Field

The application relates to the technical field of photovoltaic power generation, in particular to a mounting bracket for a photovoltaic power generation plate and a photovoltaic power generation device.

Background

Photovoltaic power generation is a technology that uses the photovoltaic effect of a semiconductor interface to directly convert light energy into electrical energy. In existing photovoltaic power plants, the photovoltaic power panels are secured with mounting brackets that allow the panels to be held at an angle to receive illumination. In some cases, the mounting brackets are difficult to arrange directly on the ground and require insertion into the ground for fixation.

At present, to the installing support of current photovoltaic power generation board, on the one hand, the installing support manufacturing cost of photovoltaic power generation board is higher, and on the other hand, photovoltaic power generation station is arranged outdoor in general, need bear outdoor various bad weather, therefore, is used for arranging the installing support of photovoltaic power generation board and receives the corruption easily, and the life-span is shorter, and the maintenance cost is high.

Disclosure of utility model

The application aims to solve the technical problems of the prior art and provides a mounting bracket for a photovoltaic power generation plate and a photovoltaic power generation device.

A mounting bracket for a photovoltaic power generation panel, comprising:

A plurality of bracket units are arranged at intervals along a first direction, and each bracket unit comprises a concrete pile and a concrete bracket; the concrete pile is in an upright state, and the lower end of the concrete pile is driven into the ground; the concrete support is arranged at the upper end position of the concrete pile;

A plurality of concrete beams arranged above the concrete supports in an extending manner along a first direction to connect the concrete supports and used for bearing and installing the photovoltaic power generation plate;

The concrete support and the concrete beam are reinforced concrete structures with steel bars arranged inside.

Optionally, the concrete supports are arranged along a second direction, and the concrete supports are composed of a first concrete support and a second concrete support; the first concrete support is positioned on a first side of the concrete pile, and the second concrete support is positioned on a second side of the concrete pile; the first concrete support and the second concrete support are of an integral concrete structure.

Optionally, the first concrete support and the second concrete support are connected to the concrete pile through a clamp structure;

the clamp structure comprises a first clamp piece and a second clamp piece, and the first clamp piece and the second clamp piece are of semicircular structures so as to jointly encircle the concrete pile;

A first bolt connection is arranged between the first clamping hoop piece and the second clamping hoop piece at the first side position of the concrete pile; the first concrete support being constrained to the first bolting;

A second bolt connection is arranged between the first clamping hoop piece and the second clamping hoop piece at the second side position of the concrete pile; the second concrete support is constrained to the second bolting.

Optionally, a connecting piece is further connected between the first concrete support and the second concrete support, and the connecting piece is respectively connected with the first concrete support and the second concrete support; the coupling is supported by the concrete pile with the coupling abutting downward on top of the concrete pile.

Optionally, the first concrete bracket and the second concrete bracket are also directly connected together through fastening components.

Optionally, any concrete beam is used to connect adjacent concrete supports.

Optionally, the top of the concrete bracket is provided with longitudinal beams obliquely arranged according to a set angle;

The longitudinal beams of the concrete support and the corresponding concrete cross beams are connected together through fastening connection structures;

The fastening connection structure comprises a first connecting rib and a first connecting plate; the first connecting ribs are wound on the longitudinal beams of the concrete support and the corresponding concrete cross beams, and nuts are arranged after the two ends of the first connecting ribs penetrate through the first connecting plates so as to realize fastening connection of the longitudinal beams of the concrete support and the corresponding concrete cross beams.

Optionally, a plurality of holes and grooves are arranged on the concrete beam at intervals.

On the other hand, the application also provides a photovoltaic power generation device which comprises a photovoltaic power generation plate and the mounting bracket for the photovoltaic power generation plate.

Optionally, the photovoltaic power generation panel is arranged on the concrete beam by means of a mounting member;

The mounting component comprises a limiting piece, a second connecting rib and a second connecting plate; the limiting piece is arranged at the edge of the photovoltaic power generation plate to limit the photovoltaic power generation plate; the second connecting ribs are wound on the limiting parts and the corresponding concrete beams, and nuts are arranged after the two ends of the second connecting ribs penetrate through the second connecting plates so as to realize fastening connection of the limiting parts and the corresponding concrete beams.

In the present application, the mounting bracket for a photovoltaic power generation panel includes a bracket unit and a concrete beam, and a reinforced concrete structure in which reinforcing steel bars are disposed may be employed. The photovoltaic power generation plate provided by the application adopts a pile structure, is fixed by means of concrete piles, can be arranged in various surface environments, has low cost, can be constructed and manufactured on site, does not need to use factories for production, has good corrosion resistance, is easy to maintain, has long service life, and can be suitable for various outdoor climate types.

Drawings

Fig. 1 is a schematic structural view of a mounting bracket for a photovoltaic power generation panel and a photovoltaic power generation panel in an embodiment of the present application.

Fig. 2 is another schematic structural view of a mounting bracket for a photovoltaic power generation panel and a photovoltaic power generation panel in an embodiment of the present application.

Fig. 3 is a schematic structural view of a stand unit in an embodiment of the present application.

Fig. 4 is another schematic structural view of a mounting bracket for a photovoltaic power generation panel and a photovoltaic power generation panel in the embodiment of the present application.

Fig. 5 is another structural schematic diagram of the stand unit in the embodiment of the present application.

Fig. 6 is a schematic structural view of a concrete beam in an embodiment of the application.

Reference numerals: the photovoltaic power generation panel mounting bracket 100, the photovoltaic power generation panel 200, the bracket unit 10, the concrete pile 11, the concrete bracket 12, the first concrete bracket 121, the second concrete bracket 122, the longitudinal beam 123, the concrete cross beam 20, the hole groove 21, the clip structure 30, the first clip member 31, the second clip member 32, the coupling member 40, the fastening connection structure 50, the first connection rib 51, the first connection plate 52, the mounting member 60, the stopper 61, the second connection rib 62, and the second connection plate 63.

Detailed Description

The following are specific embodiments of the present application and the technical solutions of the present application will be further described with reference to the accompanying drawings, but the present application is not limited to these embodiments. In the following description, specific details such as specific configurations and components are provided merely to facilitate a thorough understanding of embodiments of the application. It will therefore be apparent to those skilled in the art that various changes and modifications can be made to the embodiments described herein without departing from the scope and spirit of the application. In addition, descriptions of well-known functions and constructions are omitted for clarity and conciseness.

In addition, the embodiments of the present application and the features of the embodiments may be combined with each other without collision.

The application provides a mounting bracket for a photovoltaic power generation plate, which adopts a pile structure, is fixed by means of concrete piles, and can be arranged in various earth surface environments. The mounting bracket may be used to mount a photovoltaic panel to maintain the photovoltaic panel at an angle to receive illumination.

Fig. 1 and 2 show a structure of a mounting bracket 100 for a photovoltaic power generation panel, in which a plurality of bracket units 10 are arranged at intervals along a first direction, the bracket units 10 including concrete piles 11 and concrete brackets 12, the concrete piles 11 being in an erected state, and the lower ends thereof being driven below the ground surface. The concrete support 12 is disposed at an upper end position of the concrete pile 11. A plurality of concrete beams 20 are disposed above the concrete supports 12, extending in a first direction to connect the plurality of concrete supports 12 and for carrying and mounting the photovoltaic power panels 200. The concrete support 12 and the concrete beam 20 are each a reinforced concrete structure with reinforcing steel bars disposed therein.

As shown in fig. 2, a plurality of the rack units 10 are arranged in a first direction x, and the concrete racks 12 are arranged in a second direction y. Specifically, the first direction x is a transverse direction, the second direction y is a longitudinal direction, and the first direction x and the second direction y form a certain angle with each other, and can be in a vertical relationship or a non-vertical relationship.

Specifically, a plurality of the bracket units 10 are arranged at intervals in the lateral direction of the mounting bracket, and a plurality of the concrete beams 20 are provided between the adjacent bracket units 10. The concrete beam 20 connects the plurality of bracket units 10 together so that the plurality of bracket units 10 are combined together to form a unitary structure. The number of the rack units 10 is N, N being an integer, for example, 2, 3, 4, … …. Between any adjacent two mounting brackets 100, there may be disposed M concrete beams 20, M being an integer, for example, 2, 3, 4, … …. As shown in fig. 1 and 2 in particular, the mounting bracket 100 includes 5 bracket units 10 arranged at intervals, and 4 concrete beams 20 are provided between each adjacent mounting bracket 100.

In addition, it should be appreciated that the concrete support 12 and the concrete beam 20 are each a reinforced concrete structure having reinforcing bars disposed therein, which is effective in enhancing structural strength. The concrete support 12 and the concrete beam 20 can be manufactured on site, do not need to be produced by factories, have good corrosion resistance, are easy to maintain, have long service life, and can be more suitable for various outdoor climate types. Furthermore, other types of material structures may be disposed on portions of the concrete support 12 and the concrete beam 20, in addition to the main body structure. In some embodiments, the concrete support 12 and the concrete beam 20 are made of high performance concrete, such as Ultra High Performance Concrete (UHPC) materials.

With further reference to fig. 1 and 2, a concrete beam 20 is disposed above the concrete support 12. In one embodiment, any one concrete beam 20 is used to connect adjacent concrete supports 12, with a plurality of concrete beams 20 disposed between adjacent concrete supports 12. The concrete beam 20 has a long strip structure, and a plurality of holes 21 are arranged at intervals along the length direction of the concrete beam, so that the weight of the concrete beam 20 can be reduced, the load born by the lower bracket unit 10 can be reduced, and the material cost can be saved. Fig. 6 exemplarily shows a concrete girder 20, on which a plurality of hole grooves 21 are arranged, and the hole grooves 21 have a rounded rectangular shape.

As shown in fig. 3, the top of the concrete support 12 has stringers 123 arranged obliquely at a set angle, and it should be understood that the angle between the stringers 123 and the horizontal plane may be set according to actual needs. The stringers 123 of the concrete rack 12 are connected to the corresponding concrete beams 20 by means of the fastening connection 50. Specifically, the fastening connection structure 50 includes a first connection rib 51 and a first connection plate 52, the first connection rib 51 is wound around the longitudinal beam 123 of the concrete support 12 and the corresponding concrete cross beam 20, and nuts are installed after both ends of the first connection rib 51 pass through the first connection plate 52 to achieve fastening connection of the longitudinal beam 123 of the concrete support 12 and the corresponding concrete cross beam 20. Specifically, the first connecting ribs 51 and the first connecting plates 52 together hold and lock the longitudinal beams 123 of the concrete support 12 and the concrete cross beams 20 together, and similar to a clamp connection structure, the first connecting ribs 51 are steel bars and are wound on the longitudinal beams 123 of the concrete support 12 and the corresponding concrete cross beams 20, and two ends of the first connecting ribs pass through the first connecting plates 52 and are locked through nuts, so that the longitudinal beams 123 and the concrete cross beams 20 are locked to form a stable connection relationship. The use of the fastening connection structure 50 allows for easier assembly of the mounting bracket and allows for disassembly and easy adjustment during assembly. In the assembly, the number of the bracket units 10 may be arranged according to actual needs, and after the concrete piles 11 of the respective bracket units 10 are driven into the ground, the fastening connection structure 50 is installed to fasten the stringers 123 of the concrete bracket 12 with the corresponding concrete beams 20.

Further, the concrete beam 20 is located between the stringers 123 of the concrete support 12 and the photovoltaic panel 200, the concrete beam 20 is used to connect a plurality of concrete supports 12 together, and the concrete beam 20 is also used to support a plurality of cells of the photovoltaic panel 200 above as an intermediate structure. As shown in fig. 1 and 2, a plurality of individual units of the photovoltaic power generation panel 200 are independently arranged on the concrete beam 20.

The concrete support 12 may be formed as a unitary support or may be formed from a plurality of supports joined together. As shown in fig. 3 to 5, the concrete support 12 is formed by connecting left and right integral supports.

Referring specifically to fig. 3-5, in one embodiment of the present application, the concrete supports 12 are arranged in a second direction, and the concrete supports 12 are comprised of a first concrete support 121 and a second concrete support 122, the first concrete support 121 being located on a first side of the concrete pile 11, and the second concrete support 122 being located on a second side of the concrete pile 11. The first concrete support 121 and the second concrete support 122 are each a unitary concrete structure. The concrete support 12 is manufactured by separately manufacturing a first concrete support 121 and a second concrete support 122, and fixedly mounting the first concrete support 121 and the second concrete support 122 to form the concrete support 12. As shown in fig. 3-5, the stringers 123 of the concrete rack 12 comprise two parts, one part on the first concrete rack 121 and one part on the second concrete rack 122.

Further, the first concrete support 121 and the second concrete support 122 are connected to the concrete pile 11 by the clip structure 30. The clip structure 30 includes a first clip member 31 and a second clip member 32, both of which are semi-circular structures to collectively surround the concrete pile 11. At a first side position of the concrete pile 11, a first screw connection is provided between the first clip member 31 and the second clip member 32, the first concrete support 121 being limited to the first screw connection. At a second side position of the concrete pile 11, a second screw connection is provided between the first clip member 31 and the second clip member 32, the second concrete support 122 being limited to the second screw connection.

Specifically, the first and second collar members 31 and 32 hold the concrete pile 11 together, and bolt connections, respectively, are provided at both sides of the concrete pile 11. In a first side position of the concrete pile 11, the first concrete support 121 is limited to a first bolting, and in a second side position of the concrete pile 11, the second concrete support 122 is limited to a second bolting. In this way, the first and second clip members 31 and 32 connect the first and second concrete supports 121 and 122 on both sides to the concrete pile 11 together, so that the concrete pile 11, the first and second concrete supports 121 and 122 form a unitary structure.

Further, a coupling member 40 is further connected between the first concrete support 121 and the second concrete support 122, the coupling member 40 is connected with the first concrete support 121 and the second concrete support 122 respectively, and the coupling member 40 is abutted downwards on the top of the concrete pile 11 and supported by the concrete pile 11. The coupling 40 connects the first concrete support 121 and the second concrete support 122 on both sides, and the coupling 40 is positioned at the top of the concrete pile 11, and the coupling 40 is abutted downward on the top of the concrete pile 11, so that the structure is more stable. In one embodiment, the first concrete support 121 and the second concrete support 122 are also directly connected together by fastening members.

As shown in fig. 1, based on the above-mentioned mounting bracket 100 for a photovoltaic power generation panel, the embodiment of the application further provides a photovoltaic power generation device, which includes a photovoltaic power generation panel 200 and the above-mentioned mounting bracket 100 for a photovoltaic power generation panel. As shown in fig. 1 and 2, a plurality of individual units of the photovoltaic power generation panel 200 are independently disposed on the concrete beam 20 so that the photovoltaic power generation panel is maintained at an angle to receive illumination. The description of the photovoltaic panel mounting bracket 100 is described in detail in the previous section.

In one embodiment, the photovoltaic power generation panel is disposed on the concrete beam 20 by means of the mounting member 60. The mounting component 60 comprises a limiting piece 61, a second connecting rib 62 and a second connecting plate 63, wherein the limiting piece 61 is arranged at the edge of the photovoltaic power generation plate to limit the photovoltaic power generation plate, the second connecting rib 62 is wound on the limiting piece 61 and the corresponding concrete beam 20, and nuts are mounted at two ends of the second connecting rib 62 after penetrating through the second connecting plate 63 so as to realize fastening connection of the limiting piece 61 and the corresponding concrete beam 20.

A plurality of mounting members 60 are arranged around the photovoltaic power generation panel unit, and specifically, a stopper 61 is provided at the edge of the photovoltaic power generation panel to limit the photovoltaic power generation panel. Similar to the clip connection structure, the second connection ribs 62 are reinforcing bars wound around the limiting members 61 and the corresponding concrete beams 20, and both ends of the second connection ribs pass through the second connection plates 63 and then are locked by nuts, so that the limiting members 61 are fixed, and the edges of the photovoltaic power generation panel 200 are limited while the limiting members 61 are fixed.

In the present application, the mounting bracket for a photovoltaic power generation panel includes a bracket unit and a concrete beam, and a reinforced concrete structure in which reinforcing steel bars are disposed may be employed. The photovoltaic power generation plate provided by the application adopts a pile structure, is fixed by means of concrete piles, can be arranged in various surface environments, has low cost, can be constructed and manufactured on site, does not need to use factories for production, has good corrosion resistance, is easy to maintain, has long service life, and can be suitable for various outdoor climate types.

In the foregoing embodiments of the present application, the descriptions of the embodiments are emphasized, and for a portion of this disclosure that is not described in detail in this embodiment, reference is made to the related descriptions of other embodiments.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise. It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the application. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the application or exceeding the scope of the application as defined in the accompanying claims.

Claims (10)

1. A mounting bracket for a photovoltaic power generation panel, comprising:

A plurality of bracket units are arranged at intervals along a first direction, and each bracket unit comprises a concrete pile and a concrete bracket; the concrete pile is in an upright state, and the lower end of the concrete pile is driven into the ground; the concrete support is arranged at the upper end position of the concrete pile;

A plurality of concrete beams arranged above the concrete supports in an extending manner along a first direction to connect the concrete supports and used for bearing and installing the photovoltaic power generation plate;

The concrete support and the concrete beam are reinforced concrete structures with steel bars arranged inside.

2. The mounting bracket for a photovoltaic power generation panel according to claim 1, wherein the concrete bracket is arranged in a second direction, and the concrete bracket is composed of a first concrete bracket and a second concrete bracket; the first concrete support is positioned on a first side of the concrete pile, and the second concrete support is positioned on a second side of the concrete pile; the first concrete support and the second concrete support are of an integral concrete structure.

3. The mounting bracket for a photovoltaic power generation panel according to claim 2, wherein the first concrete bracket and the second concrete bracket are connected to a concrete pile by a clip structure;

the clamp structure comprises a first clamp piece and a second clamp piece, and the first clamp piece and the second clamp piece are of semicircular structures so as to jointly encircle the concrete pile;

A first bolt connection is arranged between the first clamping hoop piece and the second clamping hoop piece at the first side position of the concrete pile; the first concrete support being constrained to the first bolting;

A second bolt connection is arranged between the first clamping hoop piece and the second clamping hoop piece at the second side position of the concrete pile; the second concrete support is constrained to the second bolting.

4. The mounting bracket for a photovoltaic power generation panel according to claim 3, wherein a coupling member is further connected between the first concrete bracket and the second concrete bracket, and the coupling member is connected with the first concrete bracket and the second concrete bracket, respectively; the coupling is supported by the concrete pile with the coupling abutting downward on top of the concrete pile.

5. A mounting bracket for a photovoltaic power generation panel according to claim 3, characterized in that the first concrete bracket and the second concrete bracket are also directly connected together by fastening means.

6. The mounting bracket for a photovoltaic power generation panel according to claim 1, wherein any one of the concrete beams is used to connect adjacent concrete brackets.

7. The mounting bracket for a photovoltaic power generation panel according to claim 1, wherein the top of the concrete bracket has stringers arranged obliquely at a set angle;

The longitudinal beams of the concrete support and the corresponding concrete cross beams are connected together through fastening connection structures;

The fastening connection structure comprises a first connecting rib and a first connecting plate; the first connecting ribs are wound on the longitudinal beams of the concrete support and the corresponding concrete cross beams, and nuts are arranged after the two ends of the first connecting ribs penetrate through the first connecting plates so as to realize fastening connection of the longitudinal beams of the concrete support and the corresponding concrete cross beams.

8. The mounting bracket for a photovoltaic power generation panel according to claim 1, wherein a plurality of hole grooves are arranged on the concrete beam at intervals.

9. A photovoltaic power generation apparatus comprising a photovoltaic power generation panel, and the mounting bracket for a photovoltaic power generation panel according to any one of claims 1 to 8.

10. The photovoltaic power generation apparatus of claim 9, wherein the photovoltaic power generation panel is arranged on a concrete beam by means of a mounting member;

The mounting component comprises a limiting piece, a second connecting rib and a second connecting plate; the limiting piece is arranged at the edge of the photovoltaic power generation plate to limit the photovoltaic power generation plate; the second connecting ribs are wound on the limiting parts and the corresponding concrete beams, and nuts are arranged after the two ends of the second connecting ribs penetrate through the second connecting plates so as to realize fastening connection of the limiting parts and the corresponding concrete beams.