CN107834953A - Method for forming integrated solar support power generation column - Google Patents

Abstract

The invention discloses a method for forming an integral solar support power generation column, wherein a plurality of vertically extending solar support power generation columns are arranged at intervals, a solar panel installation area is arranged on the outer peripheral side of each solar support power generation column, and the solar support power generation columns are connected through a plurality of transverse connecting pieces to form an integral structure; therefore, through a simple and ingenious forming method, the integrally connected solar support power generation column group is used for solar power generation, has good overall structure stability and stronger wind resistance and durability, can be flexibly extended in height, saves the land area occupied by power generation, and is suitable for popularization and application.

Description

Integral solar support power generation column forming method

technical field

The invention discloses a technology in the field of solar power generation, in particular to a method for forming an integral solar support power generation column.

Background technique

At present, there are mainly two types of applications for solar power generation. One is to install solar power generation devices for electrical equipment or devices, such as street lamps, which are generally only applicable to situations where the power supply is small; the other is Concentrated solar power generation is used as a power supply station and other applications. It is suitable for situations where the power supply is large. In the prior art, a number of large solar panels are arranged in a centralized location, which occupies a large space overall and is subject to stress. It is heavier, and the plate-shaped power generation device occupies more land area, resulting in a waste of land resources.

Therefore, be badly in need of a kind of new technical scheme to solve the above problems.

Contents of the invention

In view of this, the present invention aims at the deficiencies in the prior art, and its main purpose is to provide a method for forming an integral solar support power generation column, which obtains an integrated solar support power generation column group for use in a simple and ingenious formation method. Solar power generation has good overall structural stability, wind resistance and durability, and also saves the land area occupied by power generation.

To achieve the above object, the present invention adopts the following technical solutions:

A method for forming an integral solar support power generation column. A plurality of vertically extending solar support power generation columns are arranged at intervals, and the outer peripheral side of the solar support power generation column is a solar panel installation area, and several solar support power generation columns pass through The transverse connectors are joined to form a one-piece overall structure.

As a preferred solution, horizontal connections are formed between the solar support power generation columns at different heights along the vertical direction.

As a preferred solution, it includes the following steps: first connect several solar support power generation columns with horizontal connectors to form an integrated structure, and then vertically set several ring-shaped solar panel supports on the outer peripheral side of the solar support power generation column; wherein, each A flexible solar panel surrounds the outer peripheral side of each ring-shaped solar panel support.

As a kind of preferred scheme, comprise the steps:

(1) Arrange the spacing between the first group of solar support power generation columns, and the bottom end of each first solar support power generation column in the first group of solar support power generation columns is fixed;

(2) Install the second set of solar support power generation columns on the top of the first set of solar support power generation columns, and each second solar support power generation column in the second set of solar support power generation columns is installed correspondingly the top of the first solar support power generation column;

Wherein, the transverse connector is installed on the lower part of the second solar support power generation column; or, the transverse connector is installed on the upper part of the first solar support power generation column; or, the transverse connector is arranged on the rotary On the connector, the adapter is connected between the top of the first solar support power generation column and the bottom end of the second solar support power generation column;

(3) At the top of the second group of solar support power generation columns, more than one second group of solar support power generation columns is installed upwards, and the connecting parts of the corresponding second solar support power generation columns adjacent to the second group of solar support power generation columns pass through the horizontal The connectors form a horizontal connection, and the tops of the second solar support power generation columns of the uppermost second group of solar support power generation columns form a horizontal connection through the horizontal connectors;

Each solar support power generation column is formed by vertical splicing of a corresponding first solar support power generation column and more than two first solar support power generation columns in sequence.

As a preferred solution, the first solar support power generation column is vertically spliced by two or more first solar support power generation columns; the second solar support power generation column is generated by two or more second solar support Column segments are spliced vertically.

As a preferred solution, the adapter has a top locking portion, a bottom locking portion and more than two first lateral locking portions, and the transverse connecting piece is connected to the corresponding two second locking portions of two adjacent adapters. One side is between the locking parts.

As a preferred solution, the transverse connector is installed and positioned through a mounting frame, the mounting frame has a mounting portion and a second lateral locking portion, and the mounting portion is fixed to the upper section of the corresponding first solar support power generation column The position or the lower part of the second solar support power generation column, the transverse connecting piece is connected between the corresponding two second lateral locking parts on the adjacent second solar support power generation column.

As a preferred solution, the transverse connecting member is welded and fixed to the upper part of the corresponding first solar support power generation column or the lower part of the second solar support power generation column.

As a preferred solution, the bottom end of each solar support power generation column is fixed on the ground.

Compared with the prior art, the present invention has obvious advantages and beneficial effects. Specifically, it can be seen from the above-mentioned technical solution that: it mainly obtains an integrally connected solar bracket power generation column group for solar power generation through a simple and ingenious forming method , which has good overall structural stability, stronger wind resistance and durability, and can be flexibly extended in height, saving the land area occupied by power generation, and effectively solving the waste of resources caused by traditional power generation devices occupying more land area problem, suitable for popularization and application.

In order to more clearly illustrate the structural features, technical means and the specific objectives and functions achieved by the present invention, the present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

Description of drawings

Fig. 1 is a simple schematic diagram of an integral solar support power generation column in Embodiment 1;

Fig. 2 is the partial three-dimensional structure schematic diagram of the monolithic solar support power generation column in the second embodiment;

Fig. 3 is the top view of the integrated solar support power generating column in the third embodiment;

Fig. 4 is the front view of the integrated solar support power generation column in embodiment three;

Fig. 5 is a schematic diagram of a partial three-dimensional structure of an integral solar support power generation column in Embodiment 4;

Fig. 6 is a schematic diagram of a partial three-dimensional structure of an integral solar support power generation column in Embodiment 5;

7 is a schematic diagram of a partial three-dimensional structure of an integral solar support power generation column in Embodiment 6;

Fig. 8 is a schematic diagram of a partial three-dimensional structure of an integral solar support power generation column in Embodiment 7;

Fig. 9 is a schematic diagram of a partial three-dimensional structure of an integral solar support power generation column in Embodiment 8;

Fig. 10 is a schematic diagram of a partial three-dimensional structure of the integrated solar support power generation column in the ninth embodiment.

Explanation of the accompanying drawings:

1. Solar bracket power generation column 2. Horizontal connector

3. Ring-shaped solar panel support 4. The first solar support power generation column

5. The second solar support power generation column 6. Mounting frame

7. Installation part 8. Second lateral locking part

9. Locking plate 10. Adapter

11. Top locking part 12. Bottom locking part

13. First lateral locking part 14. Transverse connector

15. Upper horizontal board 16. Lower horizontal board

17. The middle vertical connecting plate. 18. The locking plate.

Detailed ways

Please refer to FIG. 1-FIG. 10 , which show specific structures of various embodiments of the present invention.

A method for forming an integral solar support power generation column. A plurality of vertically extending solar support power generation columns 1 are arranged in a spaced manner. The outer peripheral side of the solar support power generation column 1 is a solar panel installation area. They are connected by a number of transverse connectors 2 to form an integrated overall structure, thereby obtaining a group of solar support power generation columns for solar power generation, which has good overall structural stability, stronger wind resistance and durability, and can be used in height Flexible extension saves the land area occupied by power generation and is suitable for popularization and application.

Between the solar support power generation columns 1, horizontal connections can be formed at different heights in the vertical direction, especially for the design of solar support power generation columns with a higher vertical overall height, it is necessary to form horizontal connections at different heights, so as to The stability of the connection between the solar support power generation columns 1 is strengthened.

When forming the aforementioned integrated solar support power generation column, the following steps may be included: (1) first connect several solar support power generation columns 1 with transverse connectors 2 to form an integrated overall structure; A plurality of annular solar panel supports 3 are vertically set on the outer peripheral side; wherein, the outer peripheral side of each annular solar panel support 3 is surrounded by a flexible solar panel; usually, the annular solar panel supports 3 are stacked one by one to cover the solar support vertically The periphery of the generating column.

In the aforementioned step (1), several solar support power generation columns 1 are first connected by horizontal connectors 2 to form an integrated overall structure, which can be refined to include the following steps:

The solar support power generation column has a first group of solar support power generation columns and a second group of solar support power generation columns; defining the first group of solar support power generation columns includes several first solar support power generation columns 4, defining the second group of solar support power generation columns The power generation column includes several second solar support power generation columns 5 .

(1) Arrange the spacing between the first group of solar support power generation columns, and the bottom end of each first solar support power generation column 4 in the first group of solar support power generation columns is fixed, for example: the bottom end of each solar support power generation column can be fixed Fix the foundation; here, define the lowermost group of solar support power generation columns as the first group of solar support power generation columns, and at the same time, define the first group of solar support power generation columns to include several first solar support power generation columns 4, the first The arrangement of a solar support power generation column 4 is not limited, it can be flexibly arranged according to the terrain and the actual situation of the site, and it can also be arranged uniformly along the four directions of front, back, left and right;

(2) Install the second set of solar support power generation columns on the top of the first set of solar support power generation columns, and each second solar support power generation column 5 in the second set of solar support power generation columns is installed in the first group of solar support power generation columns correspondingly Corresponding to the top of the first solar support power generation column 4; wherein, the transverse connector is installed on the lower part of the second solar support power generation column; or, the transverse connector is installed on the upper part of the first solar support power generation column Or, the transverse connector is arranged on the adapter, and the adapter is connected between the top of the first solar support power generation column and the bottom end of the second solar support power generation column;

In actual installation, three methods are listed here for illustration:

One is, as shown in Fig. 6 and Fig. 8, described transverse connector 14 is installed in the lower part of the second solar support power generation column 55, after the bottom end of the second solar support power generation column 55 is installed, the The transverse connecting piece 14 is installed on the second solar support power generation column 5 and completes the splicing between the transverse connecting pieces 14 . The top of the first solar support power generation column 4 and the bottom end of the second solar support power generation column 5 are butt jointed and then locked by screws; In the case of the lower part of the column 5, an installation structure for the transverse connector 14 at the lower part of the second solar support power generation column 5 is provided, that is, it is installed on the outer periphery of the lower part of the second solar support power generation column 5. There is a mounting frame 6, the mounting frame 6 has a mounting portion 7 and a second lateral locking portion 8, the mounting portion 7 is fixed to the lower part of the second solar support power generation column 5, and the transverse connector 14 is connected to the adjacent Between the corresponding two second lateral locking parts 8 on the second solar support power generation column 5; The part 7 is docked around the outer circumference of the second solar support power generation column 5, and then locked by two pairs of screws through the corresponding locking plate 9, so that the installation part 7 is hooped on the second solar support power generation column 5; wherein, FIG. 6 For the mounting frame 6 listed, the mounting portion 7 of the mounting frame 6 is provided with two second lateral locking portions 8 extending perpendicularly to each other, and another mounting frame 6 without the second lateral locking portion 8 is required for installation. The frame 6 forms a docking enclosure. Of course, if three second lateral locking portions 8 need to be provided on the mounting frame 6, usually one mounting frame 6 is provided with two second lateral locking portions 8, and the other The mounting frame 6 has a second lateral locking portion 8; the mounting frame 6 listed in FIG. After locking, the four second lateral locking portions 8 are arranged in a cross shape, and the angle between two adjacent second lateral locking portions 8 is 90 degrees. And, it is preferable to install the cross connector 14 at the lower part of the second solar support power generation column 5 here, and it is also considered that there is a lock at the spliced butt joint of the first solar support power generation column 4 and the second solar support power generation column 5. The solid flanging is beneficial to prevent the mounting frame 6 from slipping downwards;

Of course, in the actual design and manufacture, it is not limited to this structural design and installation method, there can be many other different structural designs and installation methods, for example: as shown in Figure 9 and Figure 10, it can be understood that the aforementioned mounting frame 6 A change design has been carried out, that is, the above-mentioned installation part 7 is changed into a welding part, and the welding part is directly welded on the upper part of the first solar support power generation column 4 or the lower part of the second solar support power generation column 5, while the aforementioned second side The locking part 8 changes the locking direction. The locking direction of the aforementioned second lateral locking part 8 is in the same direction as the axial direction. In Fig. 9 and Fig. 10, the locking direction is changed through the I-shaped design. It is perpendicular to the extension direction of the horizontal connector; the I-shaped design structure includes an upper horizontal plate 15, a lower horizontal plate 16 and a middle vertical connecting plate 17, and the middle vertical connecting plate 17 is connected to the upper horizontal plate 15. Between the lower horizontal plates 16, one end of the upper horizontal plate 15 and one end of the lower horizontal plate 16 corresponds to the location of the aforementioned welding part, forming a joint that matches the corresponding first solar support power generation column or the second solar support power generation column. surface, here, the first solar support power generation column and the second solar support power generation column are designed to be cylindrical, therefore, the bonding surface is designed as a concave arc surface, and when welding, usually the upper horizontal plate 15 and the lower horizontal plate 16 And the middle vertical connecting plate 17 will be welded and fixed with the corresponding first solar support power generation column or the second solar support power generation column. And, the other end of the I-shaped design structure is connected with a locking plate 18 at the end of the vertical connecting plate 17 in the middle, and one end of the locking plate 18 is fixed on the end of the vertical connecting plate 17 in the middle, and the locking plate 18 The other end is fixed to the transverse connector, which can be fixed by setting a locking hole on the locking plate 18, and then connected and fixed by screws; Figures 9 and 10 show that there are two locking plates 18 designed, and two locking plates 18 The plates 18 are respectively located on both sides of the middle vertical connecting plate 17, so that the transverse connecting piece is also clamped and locked between the two locking plates; It can also be designed as a matching I-shaped design structure or a plate-shaped structure or a T-shaped structure, etc., mainly because the transverse connector has a part for connecting with the locking plate.

The second is that, as shown in Figures 5 and 7, the transverse connector 14 is arranged on the adapter 10, and the adapter 10 is first installed on the top of the first solar support power generation column 4 and the connection between the transverse connector 14 is completed. The splicing between them, and then install the second solar support power generation column 5 on the top of the corresponding adapter 10; the adapter 10 listed here has a top locking part 11, a bottom locking part 12 and more than two The first lateral locking portion 13, the transverse connecting piece 14 is connected between the corresponding two first lateral locking portions 13 of two adjacent adapters 10; FIG. 6 shows a top locking portion 11, a bottom locking fixed part 12 and two first lateral locking parts 13 of the adapter 10, Figure 8 shows a top locking part 11, a bottom locking part 12 and four first lateral locking parts 13. Connector 10.

The third is to weld and fix the transverse connector to the upper part of the corresponding first solar support power generation column or the lower part of the second solar support power generation column; the transverse connector can be directly welded and fixed at both ends, or, similar to Figure 9 and The situation shown in Figure 10 is equivalent to designing the transverse connector to be formed by splicing and assembling more than two connecting parts. The lower part of the bracket power generation column.

(3) A horizontal connection is formed between the tops of the second solar support power generation columns 5 of the aforementioned second group of solar support power generation columns through a transverse connector 14; or, on the top of the second group of solar support power generation columns, a More than one second group of solar support power generation columns, the connecting parts of the corresponding second solar support power generation columns 5 adjacent to the second group of solar support power generation columns form a horizontal connection through a transverse connector 14, and the second group of solar support at the top The tops of the second solar support power generation columns 5 of the power generation columns form a horizontal connection through a transverse connector 14; An integral solar support power generation column composed of two sets of solar support power generation columns; usually, each solar support power generation column is spliced vertically by a corresponding first solar support power generation column 4 and more than one first solar support power generation column 4 in sequence to make.

The first solar support power generation column 4 is vertically spliced by two or more first solar support power generation columns 4 segments; as shown in Figure 2, it roughly shows that the first solar support power generation column 4 includes two The design of the first solar support power generation column 4 segments; similarly, the second solar support power generation column 5 can also be spliced vertically by two or more second solar support power generation columns 5 segments. There are no restrictions on the vertical height of the solar support power generation columns, the number and arrangement spacing of the solar support power generation columns, and the setting height of the horizontal connector 14. In actual production and installation, it can be determined according to the actual situation. Depends; Here, a kind of preferred size design is provided, for example: the length of the first solar support power generation column 4 segments, the second solar support power generation column 5 segments is 5 meters, like this, two vertical splicing forms 10 meters, 20 meters, 25 meters, 30 meters, etc., make a horizontal connection every 10 meters, 20 meters, 30 meters, etc., and the distance between adjacent solar support power generation columns can be 2 meters.

In fact, the shapes of the aforementioned first solar support power generation column and the second solar support power generation column are not limited to cylindrical shapes, and usually only need to be designed as a structure that extends vertically as a whole; and the aforementioned horizontal connectors are not limited to circular ( or round tube), I-shaped or H-shaped, etc.

To sum up, the key point of the design of the present invention is that it mainly uses a simple and ingenious formation method to obtain an integrally connected solar bracket power generation column group for solar power generation, which has good overall structural stability and wind resistance. It has stronger durability, can be flexibly extended in height, saves the land area occupied by power generation, and effectively solves the problem of waste of resources caused by traditional power generation devices occupying more land area, and the installation method provided by the present invention is easy to install and fix , suitable for popularization and application.

The above descriptions are only preferred embodiments of the present invention, and do not limit the technical scope of the present invention in any way, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present invention are still valid. It belongs to the scope of the technical solutions of the present invention.

Claims (9)

1. A method for forming an integral solar support power generation column, characterized in that: some vertically extending solar support power generation columns are set by a spacing formula, and the outer peripheral side of the solar support power generation column is a solar panel installation area, and the solar support The power generation columns are connected by several transverse connectors to form an integrated overall structure. 2 . The method for forming the integral solar support power generation column according to claim 1 , wherein horizontal connections are respectively formed at different heights between the solar support power generation columns. 3 . 3. According to claim 1, the method for forming the integrated solar support power generation column is characterized in that: comprising the following steps: firstly connecting several solar support power generation columns with horizontal connectors to form an integrated structure, and then connecting the solar support power generation columns A plurality of ring-shaped solar panel supports are set vertically on the outer peripheral side; wherein, the outer peripheral side of each annular solar panel support is surrounded by a flexible solar panel. 4. The method for forming the integrated solar support power generation column according to claim 1, characterized in that: comprising the steps of: (1) Arrange the spacing between the first group of solar support power generation columns, and the bottom end of each first solar support power generation column in the first group of solar support power generation columns is fixed; (2) Install the second set of solar support power generation columns on the top of the first set of solar support power generation columns, and each second solar support power generation column in the second set of solar support power generation columns is installed correspondingly the top of the first solar support power generation column; Wherein, the transverse connector is installed on the lower part of the second solar support power generation column; or, the transverse connector is installed on the upper part of the first solar support power generation column; or, the transverse connector is arranged on the rotary On the connector, the adapter is connected between the top of the first solar support power generation column and the bottom end of the second solar support power generation column; (3) A horizontal connection is formed between the tops of the second solar support power generation columns of the aforementioned second group of solar support power generation columns through horizontal connectors; or, more than one The second group of solar support power generation columns, the connecting parts of the corresponding second solar support power generation columns adjacent to the second group of solar support power generation columns form a horizontal connection through a transverse connector, and each of the top second group of solar support power generation columns The top ends of the second solar support power generation columns form a horizontal connection through a horizontal connector; Each solar support power generation column is vertically spliced sequentially by a corresponding first solar support power generation column and more than one first solar support power generation column. 5. The method for forming the integrated solar support power generation column according to claim 4, wherein: the first solar support power generation column is formed by vertically splicing two or more first solar support power generation columns; The second solar support power generation column is vertically spliced by two or more second solar support power generation columns. 6. The method for forming an integral solar support power generation column according to claim 4, wherein the adapter has a top locking portion, a bottom locking portion and more than two first lateral locking portions, The transverse connecting piece is connected between corresponding two first lateral locking portions of two adjacent transition pieces. 7. The method for forming the integrated solar support power generation column according to claim 4, wherein the transverse connector is installed and positioned by a mounting frame, and the mounting frame has a mounting portion and a second lateral locking portion, The installation part is fixed to the upper part of the corresponding first solar support power generation column or the lower part of the second solar support power generation column, and the transverse connector is connected to the corresponding two second lateral locking parts on the adjacent second solar support power generation column. between departments. 8 . The method for forming an integrated solar support power generation column according to claim 4 , wherein the transverse connector is welded and fixed to the upper part of the corresponding first solar support power generation column or the lower part of the second solar support power generation column. 9. The method for forming the integrated solar support power generation column according to claim 1, wherein the bottom end of each solar support power generation column is fixed with a foundation.