TWI665863B - Method for construction of integrated solar cylindrical generators - Google Patents

Abstract

The invention relates to a method for forming an integrated solar stent power generation column. A plurality of vertically extending solar stent power generation columns are arranged through a space type. A solar panel installation area is provided on the outer peripheral side of the solar stent power generation column. Through the connection of several horizontal connectors to form an integrated monolithic structure; by this, through a simple and clever formation method, a monolithically connected solar bracket power generation column group is obtained for solar power generation, which has good overall structural stability and wind resistance. It has stronger capacity and durability, can be extended flexibly in height, saves land area occupied by power generation, and is suitable for popularization and application.

Description

Forming method of integrated solar support power generation column

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

At present, there are two main types of solar power generation applications. One is that a solar power generation device, such as a street lamp, is provided for electrical equipment or devices. Generally, it can only be applied to a small power supply; the other is Centralized solar power is used as a power supply station and other applications. It is suitable for large power supply. In the existing technology, a large number of large solar panels are arranged in a centralized site, which has a large overall space and is relatively stressed. Heavy, plate-shaped power generation devices occupy a large area of land, causing waste of land resources.

Therefore, a new technical solution is urgently needed to solve the above problems.

In view of this, the present invention addresses the shortcomings of the prior art. The main purpose of the present invention is to provide a method for forming a monolithic solar stent power generating column. Through a simple and clever method, an integrated solar stent power generating column group is obtained for solar power generation. Its overall structural stability, wind resistance and durability are good, and it also saves land area occupied by power generation.

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

A method for forming an integrated solar support power generation column, in which a plurality of vertically extending solar support power generation columns are arranged in a spaced manner, and solar panels are installed on the outer peripheral side of the solar support power generation columns. Area, the solar power generation pillars are connected through a plurality of transverse connecting members to form an integrated whole structure.

A horizontal connection is formed between the solar power generation columns at different heights along the vertical direction.

The method comprises the following steps: firstly connecting a plurality of solar stent power generating columns to form an integrated overall structure by using transverse connectors, and then vertically mounting a plurality of annular solar panel supports on the outer peripheral side of the solar staking power generating columns; The outer peripheral side is surrounded by a flexible solar panel.

It includes the following steps:

(1) The first group of solar stent power generation columns are arranged at a distance, and the bottom end of each first solar stent power generation column in the first group of solar stent power generation columns is fixed.

(2) Install a second group of solar stent power generation columns on top of the first group of solar stent power generation columns. Each second solar stent power generation column in the second group of solar stent power generation columns is correspondingly installed in the first group of solar stent power generation columns. The top of the first solar power generating column.

Wherein, the horizontal connecting member is installed at the lower section of the second solar support power generating column; or the horizontal connecting member is installed at the upper section of the first solar support power generating column; or the horizontal connecting member is installed at the turn On the connecting piece, the adapter is connected between the top end of the first solar power generating post and the bottom end of the second solar power generating post.

(3) At the top of the second group of solar stent power generation columns, more than one second group of solar stent power generation columns continue to be installed upwards, and the connection position of the corresponding second solar stent power generation column of the adjacent second group of solar stent power generation columns passes horizontal The connecting members form a horizontal connection, and a horizontal connection is formed between the top ends of each of the second solar support power generating columns of the second group of solar support power generating columns by a horizontal connecting member.

Each solar stent power generating post is formed by sequentially splicing a corresponding first solar stent power generating post and two or more first solar stent power generating posts in a vertical direction.

The first solar stent power generation column is formed by vertically splicing two or more first solar stent power generation columns; the second solar stent power generation column is vertically formed by two or more second solar stent power generation columns. From stitching.

The adapter has a top locking portion, a bottom locking portion, and two or more first lateral locking portions, and the lateral connecting members are connected to corresponding two first lateral locking portions of two adjacent adapters. between.

The transverse connection piece is set 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 part of the corresponding first solar bracket power generating column or the second solar bracket. At the lower portion of the electric column, the transverse connecting member is connected between the corresponding two second lateral locking portions on the adjacent second solar bracket power generating column.

The transverse connecting member is welded and fixed to the upper part of the corresponding first solar support power generating column or the lower part of the second solar support power generating column.

The bottom end of each solar power generation pole is fixed to the ground.

Compared with the prior art, the present invention has obvious advantages and beneficial effects. Specifically, it can be known from the above technical features: that it mainly obtains an integrally connected solar bracket power generation column group for solar power generation through a simple and clever forming method, It has good overall structural stability, stronger wind resistance and durability, can be flexibly extended in height, saves 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. , Suitable for promotion and application.

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

(1) ‧‧‧Solar Mount Power Column

(2) ‧‧‧Horizontal connector

(3) ‧‧‧Circular solar panel bracket

(4) ‧‧‧ The first solar power column

(5) ‧‧‧Second Solar Power Column

(6) ‧‧‧Mounting frame

(7) ‧‧‧Mounting Department

(8) ‧‧‧Second lateral locking part

(9) ‧‧‧Locking plate

(10) ‧‧‧Adapter

(11) ‧‧‧Top lock

(12) ‧‧‧Bottom locking part

(13) ‧‧‧First lateral locking part

(14) ‧‧‧Horizontal connector

(15) ‧‧‧Upper horizontal plate

(16) ‧‧‧Lower horizontal plate

(17) ‧‧‧Middle vertical connection plate

(18) ‧‧‧Locking plate

[First image] is a simplified schematic diagram of an integrated solar support power generating column according to an embodiment of the present invention.

[Second figure] is a partial three-dimensional structure diagram of the integrated solar power generating column according to the embodiment of the present invention.

[Third figure] is a top view of an integrated solar power generating column according to an embodiment of the present invention.

[Fourth Figure] is a front view of an integrated solar power generating column according to an embodiment of the present invention.

[Fifth figure] It is a partial three-dimensional structural schematic diagram (1) of the integrated solar support power generating column according to the embodiment of the present invention.

[Sixth figure] is a partial three-dimensional structural schematic diagram (two) of the integrated solar support power generating column according to the embodiment of the present invention.

[Seventh Figure] It is a partial three-dimensional structural schematic diagram (three) of the integrated solar support power generating column according to the embodiment of the present invention.

[Eighth Figure] It is a partial three-dimensional structural schematic diagram (four) of the integrated solar support power generating column according to the embodiment of the present invention.

[The ninth figure] is a partial three-dimensional structure diagram (fifth) of the integrated solar support power generating column according to the embodiment of the present invention.

[Tenth figure] is a partial three-dimensional structural schematic diagram (six) of the integrated solar support power generating column according to the embodiment of the present invention.

Please refer to the first and third figures, which show specific structures of various embodiments of the present invention.

A method for forming a monolithic solar stent power generating column, a plurality of vertically extending solar stent power generating columns (1) are arranged through a space type, and a solar panel installation area is provided on the outer peripheral side of the solar stent power generating column (1). The electric pillars (1) are connected through a number of transverse connectors (2) to form an integrated monolithic structure, thereby obtaining a solar bracket power generation column group for solar power generation, which has good overall structural stability, wind resistance and durability. It is stronger and can be flexibly extended in height, which saves the land area occupied by power generation and is suitable for popularization and application.

The solar support power generating columns (1) can be formed with horizontal connections at different heights in the vertical direction, especially for the design of solar support power generating columns (1) with a high vertical overall height, which need to be separated at different heights. A horizontal connection is formed to strengthen the connection stability between the solar support power generating columns (1).

When forming the aforementioned integrated solar support power generation column, the following steps may be included: (1) first connecting a plurality of solar support power generation columns (1) using lateral connectors (2) to form an integrated overall structure; (2) then the solar support A plurality of ring-shaped solar panel brackets (3) are vertically mounted on the outer peripheral side of the power generating column (1); wherein, the flexible solar panels are surrounded on the outer peripheral side of each ring-shaped solar panel bracket (3); generally, the ring-shaped solar panel bracket (3) They are stacked one by one so as to cover the outer periphery of the solar power generating columns (1) in a vertical direction.

In the foregoing step (1), a plurality of solar stent power generating columns (1) are first connected by using transverse connectors (2) to form an integrated overall structure, which can be specifically divided into the following steps:

As shown in the second figure, the fourth figure, and the fifth figure, the solar stent power generating columns have a first group of solar stent power generating columns and a second group of solar stent power generating columns. The first solar support power generation columns (4) define a second group of solar support power generation columns including a plurality of second solar support power generation columns (5).

(1) The first group of solar stent power generation columns are arranged at a distance, and the bottom end of each first solar stent power generation column (4) in the first group of solar stent power generation columns is fixed, for example: The bottom end is fixed to the ground; here, the lowest group of solar support power generation columns (4) is defined as the first group of solar support power generation columns, and at the same time, the first group of solar support power generation columns is defined to include a plurality of first solar support The arrangement of the power generating columns (4) and the first solar powered power generating columns (4) is not limited, and can be flexibly arranged according to the terrain and the actual conditions of the site, or it can be arranged evenly in the four directions of front, back, left and right.

(2) Install a second group of solar stent power generation columns on top of the first group of solar stent power generation columns. Each second solar stent power generation column (5) in the second group of solar stent power generation columns is correspondingly installed on The top end of the corresponding first solar stent power generation column (4) in the first group of solar stent power generation columns; wherein the transverse connection member (2) is installed at the lower part of the second solar stent power generation column (5); or The horizontal connecting member (2) is installed on the upper part of the first solar power generating column (4); or the horizontal connecting member (2) is provided on the adapter (10), and the adapter (10) ) Is connected between the top end of the first solar support power generation column (4) and the bottom end of the second solar support power generation column (5); in actual installation, three methods are listed here for illustration:

One is that, as shown in FIG. 6 and FIG. 8, the transverse connection member (14) is installed at the lower part of the second solar support power generation column (5), and the second solar support power generation column (5 ) After the bottom end, the lateral connecting member (14) is installed on the second solar support power generating column (5) and the splicing between the lateral connecting members (14) is completed. The top end of the first solar support power generation column (4) and the bottom end of the second solar support power generation column (5) are docked with each other and then locked by screws; here, the lateral connection member (14) is installed In the case of the lower part of the second solar support power generation column (5), a mounting structure of a lateral connector (14) at the lower part of the second solar power generation column (5) is provided, that is, the second solar power A mounting bracket (6) is mounted on the outer periphery of the lower section of the power generating column (5), and the mounting bracket (6) has a mounting portion (7) and a second lateral locking portion (8). 7) It is fixed to the lower part of the second solar support power generation column (5), and the lateral connection member (14) is connected to the corresponding two second lateral locking parts (8) on the adjacent second solar support power generation column (5). Between; the mounting portion (7) is an arc-shaped plate, and two ends of the arc-shaped plate are respectively bent to form a locking plate (9); ), And then tightened by the corresponding locking plate (9) by two screws to achieve the hoop of the mounting portion (7) on the second solar power generating post (5); The mounting bracket (6) listed in the figure, the mounting portion (7) of the mounting bracket (6) is provided with two second lateral locking portions (8) extending perpendicular to each other, and another one is not provided with a second lateral locking The mounting bracket (6) of the fixing portion (8) forms a docking enclosure with the mounting bracket (6). Of course, if the mounting bracket (6) needs to be provided with three second lateral locking portions (8), it usually consists of One mounting bracket (6) has two second lateral locking portions (8), and the other mounting bracket (6) has a second lateral locking portion (8); the mounting bracket (6) ), Its two mounting brackets (6) each have two second lateral locking portions (8) After the two mounting brackets (6) are oppositely enclosed and locked, the four second lateral locking portions (8) are arranged in a cross shape, and the adjacent two second lateral locking portions (8) The included angle is 90 degrees. And, here, it is best to install the lateral connector (14) at the lower part of the second solar support power generation column (5), and also consider the first solar support power generation column (4) and the second solar support power generation column ( 5) The split butt joint has a flanging for locking, which is helpful to prevent the mounting bracket (6) from falling downward; the mounting bracket (6) can also be installed on the upper part of the first solar power generating column (4).

Of course, in the actual design and production, it is not limited to this structural design and installation method. There can be many other different structural design and installation methods. For example, as shown in the ninth and tenth figures, it can be understood as the aforementioned mounting frame. (6) A change design is performed, that is, the aforementioned mounting portion (7) is changed to a welding portion, and the welding portion is directly welded to the upper part of the first solar support power generating column (4) or the second solar support power generating column (5) Lower part, and the locking direction of the second lateral locking portion (8) is changed. The locking direction of the second lateral locking portion (8) is the same as the axial direction. In the ten figures, the I-shaped design is used to change the locking direction to the extending direction perpendicular to the transverse connector. The I-shaped design structure includes an upper horizontal plate (15), a lower horizontal plate (16), and a vertical connection in the middle. The connection plate (17) and the middle vertical connection connection plate (17) are connected between the upper horizontal plate (15), the lower horizontal plate (16), the upper horizontal plate (15), and the lower horizontal plate (16). One end corresponds to the position where the welding part is located, and a corresponding first solar support power generating post is formed. The bonding surface of the second solar support power generation column. Here, the first solar support power generation column and the second solar support power generation column are designed in a cylindrical shape. Therefore, the bonding surface is designed as a concave arc surface. When welding, the upper side is usually horizontal. The plate (15), the lower horizontal plate (16) and the middle vertical connection 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. On the other end of the I-shaped design structure, a locking plate (18) is connected to the end of the middle vertical connecting plate (17), and one end of the locking plate (18) is fixed to the middle vertical connecting plate (17). The other end of the locking plate (18) is fixed to the transverse connector. The locking plate (18) can be opened with locking holes, and then screwed and fixed; as shown in Figures 9 and 10 In order to design two locking plates (18), the two locking plates (18) are respectively located in the middle of the vertical connecting connecting plate (17). On both sides, in this way, the transverse connecting piece is also clamped and locked between the two locking plates. For the mounting frame of the I-shaped design structure, the transverse connecting piece can also be designed as a matching I-shaped design structure or plate. In the shape structure or the T-shaped structure, it is only necessary that the lateral connector has a portion for connecting with the locking plate.

The second is that, as shown in Figures 5 and 7, the lateral connecting member (14) is disposed on the adapter (10), and the adapter is first installed on the top of the first solar power generating column (4). (10) and complete the splicing between the lateral connectors (14), and then install the second solar support power column (5) on the top of the corresponding adapter (10); the adapter (10) listed here It has a top locking portion (11), a bottom locking portion (12), and two or more first lateral locking portions (13), and a transverse connection member (14) is connected to two adjacent adapter members (10). Between the corresponding two first lateral locking portions (13); the fifth figure shows a top locking portion (11), a bottom locking portion (12), and two first lateral locking portions (13) ) Adapter (10), the seventh figure shows an adapter (10) with a top locking portion (11), a bottom locking portion (12) and four first lateral locking portions (13) ).

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

(3) forming a horizontal connection between the top ends of the second solar support power generation columns (5) of the second group of solar support power generation columns by lateral connectors (14); or at the top of the second group of solar support power generation columns Continue to install more than one second group of solar stent power generation columns, and the corresponding second solar stent power generation columns (5) adjacent to the second group of solar stent power generation columns (5) are connected horizontally by lateral connectors (14), A horizontal connection is formed between the top ends of each of the second solar support power generation columns (5) of the second group of solar support power generation columns by a lateral connection member (14); as shown in the first and fourth figures, they generally show A monolithic solar stent power column composed of a first group of solar stent power generation columns and two second group of solar stent power generation columns; usually, each solar stent power generation column is composed of a corresponding A first solar support power generation column (4) and more than one first solar support power generation column (4) are sequentially spliced in a vertical direction.

The first solar support power generation column (4) is formed by vertically splicing two or more first solar support power generation columns (4) in sections; as shown in the second figure, it roughly shows the first solar support power generation column. (4) The design includes two sections of the first solar support power generation column (4); similarly, the second solar support power generation column (5) can also be divided into two or more second solar support power generation columns (5). The segments are spliced vertically. There are no restrictions on the vertical height of the solar support power generation columns, the number of solar support power generation columns arranged, the arrangement spacing, etc., as well as the installation height of the lateral connection members (14). There are no restrictions on the actual production and installation. Depending on the actual situation; here, a preferred size design is provided, for example: the length of the first solar bracket power generating column (4) section and the second solar bracket power generating column (5) section are 5 meters in length, so that two Vertical splicing forms 10 meters, 20 meters, 25 meters, 30 meters, etc., horizontal connection is made once every 10 meters, 20 meters, 30 meters and other places, and the distance between adjacent solar support power generating columns can be 2 meters.

In fact, the shape of the aforementioned first solar stent power generation column and the second solar stent power generation column is not limited to a cylindrical shape, and generally only needs to be designed as a structure that vertically extends as a whole; and the aforementioned transverse connecting members are not limited to circular ( Or round tube), I-shaped or H-shaped, etc.

In summary, the design focus of the present invention lies in that it is mainly obtained through a simple and clever forming method to obtain an integrated connected solar support power generation column group for solar power generation, which has good overall structural stability and wind resistance. It is more durable, can be flexibly extended in height, saves land area occupied by power generation, 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 promotion and application.

The above are only the preferred embodiments of the present invention, and do not limit the technical scope of the present invention. Therefore, any minor modifications, equivalent changes and modifications made to the above embodiments in accordance with the technical essence of the present invention are still It belongs to the scope of the technical solution of the present invention.

Claims (8)

A method for forming a monolithic solar stent power generating column includes: vertically setting a plurality of solar stent power generating columns which are vertically extended; a solar panel installation area is arranged on the outer peripheral side of the solar stent power generating column; The electric pillars are connected through a plurality of transverse connecting members to form an integrated monolithic structure, and the solar power generating posts are horizontally connected at different heights in the vertical direction. The method for forming a monolithic solar stent power generating column as described in item 1 of the scope of the patent application, which includes the following steps: first, a plurality of solar stent power generating columns are connected by a transverse connection to form an integrated monolithic structure; A plurality of ring-shaped solar panel brackets are set vertically along the side; wherein, a flexible solar panel is surrounded on the outer peripheral side of each ring-shaped solar panel bracket. The method for forming a monolithic solar stent power generating column as described in item 1 of the scope of the patent application, which includes the following steps: (1) arranging the pitch of the first group of solar stent power generating columns, each of the first group of solar stent power generating columns The bottom end of the first solar stent power generation column is fixed; (b) a second group of solar stent power generation columns is installed on the top of the first group of solar stent power generation columns, each second The solar support power generation column is correspondingly installed at the top of the first solar support power generation column in the first group of solar support power generation columns; wherein the lateral connection member is installed at a lower part of the second solar power generation column. Or, the lateral connecting member is installed at an upper part of the first solar power generating column; or the lateral connecting member is provided on an adapter, and the adapter is connected to the first solar energy. Between the top end of the power generating column of the support and the bottom end of the second solar power generating column; (c) between each second solar support of the second group of solar power generating columns A horizontal connection is formed between the top ends of the electric pillars through the transverse connecting members; or, one or more of the second group of solar powered poles for power generation of the second group of solar support are continuously installed upwardly on the top of the second group of solar power posts, adjacent to the A horizontal connection is formed at one connection part of the two sets of solar stent power generating columns corresponding to the second solar stent power generating column through the lateral connection member. A horizontal connection is formed between the top ends of the power generating columns through the horizontal connecting members; each solar power generating column is sequentially spliced by a corresponding one of the first solar power generating column and one or more of the first solar power generating column in sequence in the vertical direction. Made. According to the method for forming an integrated solar stent power generating column according to item 3 of the scope of the patent application, wherein the first solar stent power generating column is formed by vertically splicing two or more first solar stent power generating sections in sections; The second solar support power generation column is formed by vertically splicing two or more second solar support power generation columns in sections. According to the method for forming a monolithic solar stent power generating column according to item 3 of the scope of patent application, wherein the adapter has a top locking portion, a bottom locking portion, and two or more first lateral locking portions. , The lateral connecting members are connected between corresponding two first lateral locking portions of two adjacent adapter members. According to the method for forming a monolithic solar stent power generating column according to item 3 of the scope of the patent application, wherein the lateral connection member is installed in a setting position by a mounting frame, the mounting frame has a mounting portion and a second lateral locking portion. The mounting portion is fixed to an upper portion of the first solar support power generation column or a lower portion of the second solar support power generation column, and the lateral connection member is connected to an adjacent second solar support power generation column Between corresponding two of said second lateral locking portions. According to the method for forming a monolithic solar stent power generating column according to item 3 of the scope of the patent application, wherein the transverse connection member is welded and fixed to an upper portion of the first solar stent power generating column or the second solar stent power generating column. Lower section. According to the method for forming an integrated solar support power generating column according to item 1 of the scope of the patent application, the bottom end of each solar support power generating column is fixed to the foundation.