KR102673848B1 - floating solar power generating system - Google Patents

Abstract

The present invention relates to a water-based solar power generation system, wherein the water-based solar power generation system includes a solar power generation module, a frame unit supporting the solar power generation module, and a floating body for floating the frame unit on the water. The frame unit consists of a base frame that connects a plurality of frames in a grid shape, a connection frame on one side connected to the base frame and the other side connected to a longitudinal support installed on the back of the solar power module, and the connection frame is a body that is open on one side in the longitudinal direction and forms three sides; a first connection part that extends from one side in the longitudinal direction of the body and forms a receiving space to receive the base frame inside; It is characterized in that a second connection part is formed to form a receiving space to accommodate the longitudinal support inside.
Accordingly, not only can the assembly man-hours of producing separate fastening brackets and assembling them be omitted, but the convenience of construction work as well as durability can be further improved.

Description

Floating solar power generating system}

The present invention relates to a floating solar power generation system, and more specifically, to a floating solar power generation system that can significantly increase the convenience of construction and durability by improving the configuration and structure of the support frame that supports the solar power generation module at an angle at a predetermined angle. It is about photovoltaic power generation system.

In general, solar power generation is a power generation method that converts sunlight into electric power using solar cells, and solar cells made of semiconductor materials receive sunlight to generate electricity.

This type of solar power generation consists of a module made of solar cells that generate electricity by the photoelectric effect when sunlight is incident, a storage battery, and a power conversion device.

Solar power generation structured in this way has the advantage of being easy to install and operate and can be installed quickly compared to other power generation methods. However, since the power generation amount is proportional to the installation area, securing a site for installation and operation is necessary to secure the desired power generation amount. Although it is inevitable, it is not easy to secure a site that meets the location conditions.

In order to avoid this situation, it has become possible to secure a certain amount of land by using the walls of buildings, roofs, and small bare land, but this also involves difficulties in installing solar power generation structures and designing for them. This is causing an increase in the cost of power generation, and there is an increase in maintenance difficulties due to the proliferation of small-scale power generation facilities.

To solve this problem, plans are being sought to install and operate solar power generation devices on water such as the sea, lakes, reservoirs, etc., and only a portion of water is used as a fish farm or leisure space, so it has a huge area compared to land land. It is expected that the site will be able to be secured as an operating space for solar power generation facilities.

This floating solar power generation system consists of a solar power generation module, a frame unit supporting the solar power generation module, and a floating body that floats the frame unit on the water surface.

The frame unit largely consists of a base frame that connects a plurality of frames in a grid shape, and a connection frame that is installed on top of the base frame and supports the solar power generation module at an angle.

In addition, separate fastening brackets are connected to one end and the other end in the longitudinal direction of the connection frame, so that the solar power generation module and the base frame are respectively fastened to each other.

In this way, the connection frame according to the prior art must be provided with a separate fastening bracket for fixing the solar power module and the base frame, so two components for construction work are separately produced in a separate process and then these Since the parts had to be assembled through a bolt assembly process, the assembly time for the product increased, which led to problems in terms of assembling, cost, and productivity.

In addition, as described above, the fastening structure of the connecting frame and fastening bracket using bolts requires constant maintenance and observation because the fastening force at the joint weakens over time due to external factors such as vibration, which has a negative impact on the reliability of the product. There was a problem.

1 Prior literature: Korean Patent Publication No. 2160784 (2020.09.22) 2 Prior literature: Korea Patent Publication No. 2019-0123389 (2019.11.01)

The present invention was conceived to solve the problems of the prior art described above. The purpose of the present invention is to improve the configuration and structure of the support frame that tilts and supports the solar power generation module at a predetermined angle, thereby increasing the convenience of construction and durability. The goal is to provide a floating solar power generation system that can be increased.

In order to achieve the above-described object, the water-based solar power generation system according to the present invention includes a solar power generation module (10), a frame unit (20) supporting the solar power generation module, and a unit for floating the frame unit on the water. In the floating solar power generation system provided with a fluid 30, the frame unit 20 includes a base frame 21 that connects a plurality of frames in a grid shape, one side is connected to the base frame, and the other side is connected to the solar power generation system. It consists of a connection frame (22c) connected to a longitudinal support (22b) installed on the back of the power generation module, and the connection frame (22c) connects the longitudinal support (22b) and the base frame 21, and is connected to the mold. Through the press operation, the body 220, the first and second connection parts 221 and 222, and the bending reinforcement part 223 are bent and manufactured as an integrated structure, and one side is opened in the longitudinal direction and the connection plate 220a is formed. and a body 220 formed of three sides by two side plates 220b bent from both sides of the connection plate, and a receiving space extending from one side of the body in the longitudinal direction to receive the base frame 21 inside. A first connecting portion 221 forming a portion 221a, and a second connecting portion 222 extending from the other side of the body and forming a receiving space 222a to receive the longitudinal support 22b inside. However, a protruding reinforcing rib 224 extending in the longitudinal direction is formed on the side plate 220b of the connecting frame 22c, and the side plate 220b of the body 220 is provided with ribs facing each other on the open longitudinal edge. Bending reinforcement portions 223 each bent toward the side plates are formed, and the first and second connecting portions 221 and 222 are formed by two side plates 220b extending in the longitudinal direction from the end of the connecting plate 220a. It is characterized in that screw fastening holes (221b, 222b) are formed for connecting the base frame 21 and the longitudinal support (22b).

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The connection frame 22c includes a front connection frame 22c' disposed in front of the longitudinal support 22b, and a rear connection frame 22c' disposed behind the longitudinal support with respect to the front connection frame and having a length longer than the front connection frame. It is characterized by being composed of a connection frame (22c'').

According to the present invention of the above-described configuration, a connection frame having a first connection part and a second connection part is manufactured through press work using a mold, thereby omitting the assembly man-hours of producing separate fastening brackets and assembling them together. Not only that, but it also has the effect of further improving the durability as well as the convenience of construction work.

In addition, since the body forms a space with one side open through press work, material consumption can be efficiently reduced, thereby increasing the cost reduction effect.

Additionally, by forming a bending reinforcement portion at the end of the side plate, it is possible to prevent the side plate from spreading outward.

In addition, by forming a protruding reinforcing rib in the longitudinal direction of the connection frame, the rigidity of the connection frame in the longitudinal direction can be greatly increased, thereby greatly improving durability against external shock.

Figure 1 is a perspective view showing the configuration of a floating solar power generation system according to an embodiment of the present invention.
Figure 2 is an enlarged perspective view showing the configuration of the support frame of Figure 1.
Figure 3 is a side view of Figure 1.
Figure 4 is a perspective view and a partially enlarged view showing the configuration of the connection frame of Figure 1.
FIG. 5 is a perspective view showing a configuration in which the connection frames of FIG. 1 have different lengths.

Hereinafter, a preferred embodiment of the floating solar power generation system according to the present invention will be described in detail based on the attached drawings.

For reference, the terms and words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor should appropriately use the concept of terms to explain his or her invention in the best way. It must be interpreted with meaning and concept consistent with the technical idea of the present invention based on the principle of definability.

In addition, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent the entire technical idea of the present invention, so they may be replaced at the time of filing this application or thereafter. It should be understood that there may be various equivalents and variations.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the attached FIGS. 1 to 5.

As shown, the water-based solar power generation system according to the present invention is largely comprised of a solar power generation module 10, a frame unit 20 supporting the solar power generation module 10, and the frame unit 20 on the surface of the water. It includes a floating body 30 that floats on.

First, the solar power generation module 10 produces power using solar energy and is composed of unit panels of a certain size.

This solar power generation module 10 further includes a storage battery and a power conversion device.

The frame unit 20 includes a base frame 21 in which horizontal frames 21a and vertical frames 21b extending to a certain length are intersected and connected in a grid shape, one side is connected to the base frame 21, and the other side is connected to the base frame 21. It consists of a support frame 22 connected to a longitudinal support 22b installed on the back of the solar power module 10.

Specifically, the support frame 22 includes a transverse support 22a installed laterally on the back of the solar power module, a longitudinal support 22a connected to the lateral support 22a and installed longitudinally at regular intervals. It consists of a directional support 22b and a connection frame 22c installed between the longitudinal support 22b and the base frame 21.

That is, the solar power generation module 10 can be installed inclined at a predetermined angle by the connection frame 22c.

The frame unit 20 is manufactured as a unit of various sizes corresponding to the size, shape, number, installation angle, etc. of the solar power module 10.

Hereinafter, the connection frame 22c, which is a characteristic component of the present invention, will be described in detail.

The connection frame 22c according to the present invention includes a body 220 formed with three sides bent through a press operation of a mold, extends from one side in the longitudinal direction of the body 220, and extends from the base frame 21 to the inside. A first connection portion 221 forming a receiving space 221a to accommodate the first connection portion 221, extending from the other side of the body 220 and forming a receiving space 222a to receive the longitudinal support 22b inside. This configuration forms the second connection portion 222.

In other words, the connection frame 22c consists of two components as the fastening structure (bracket) for fixing the solar power module 10 and the base frame 21 is manufactured as an integrated structure through a mold press operation. The assembly process of assembling bolts can be omitted, which has the effect of further improving durability as well as convenience in construction work.

The body 220 is a channel-shaped structure consisting of a connection plate 220a and two side plates 220b bent from the connection plate 220a to face each other.

In addition, since the body 220 forms a space 2211 with one side open through a press operation, material consumption can be efficiently reduced, thereby increasing the cost reduction effect.

In addition, bending reinforcement portions 223 each bent toward the opposing side plates 220b are formed on the open longitudinal edges of the side plates 220b forming the space 2211 of the body 220.

The bending reinforcement portion 223 provides the effect of preventing deformation of the connection frame 22c from spreading outward while the connection frame 22c is coupled to the longitudinal support 22b and the base frame 21.

In other words, it serves to increase durability to prevent deformation of the side plate 220b of the body 220a.

In addition, the first connection part 221 and the second connection part 222 have screw fastening holes 221b and 222b to which screw fastening means (not shown) for connecting the base frame 21 and the longitudinal support 22b are coupled. ) is formed.

The screw fastening means is preferably composed of bolts and nuts, but is not necessarily limited to this and can be replaced with various fastening configurations that can maintain stable binding.

Additionally, a protruding reinforcing rib 224 extending in the longitudinal direction is formed on the side plate 220b of the connecting frame 22c.

That is, the rigidity in the longitudinal direction of the connection frame 22c can be greatly increased by the protruding reinforcing rib 224, and thus durability against external shock can be further improved.

As shown in FIGS. 4 and 5, the connection frame 22c includes a front connection frame 22c' disposed in front of the longitudinal support 22b, and a vertical connection frame 22c' with respect to the front connection frame 22c'. It is disposed at the rear of the support 22b and consists of a rear connection frame 22c'' that is longer than the front connection frame 22c'.

That is, by installing the solar power generation module 10 at a certain height and spaced apart from the base frame 21 using the front connection frame 22c' and the rear connection frame 22c'', it is prevented from rocking by waves. Not only can it prevent seawater from contacting the solar power module 10 as much as possible, but it also provides convenience for maintenance work.

Meanwhile, the floating body 30 is installed at the lower part of the base frame 21 of the frame unit 20, and serves to float the solar power generation module 10 and the frame unit 20 together on the water surface. do.

Since the floating body 30 is the same or similar to known technologies widely used in the art, its detailed configuration and operation description will be omitted.

The embodiments of the present invention are merely illustrative, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible within the scope of the following claims.

10... Solar power generation module
20... frame unit
21... Base frame
22...Support frame
22c... connection frame
22c'... front connection frame
22c''... rear connection frame
220... body
221... first connection
222...second connection
223... Bending reinforcement part
224... Protruding reinforcing rib

Claims (5)

In a floating solar power generation system comprising a solar power generation module (10), a frame unit (20) supporting the solar power generation module, and a floating body (30) that floats the frame unit on the water,
The frame unit 20 includes a base frame 21 that connects a plurality of frames in a grid shape, one side of which is connected to the base frame, and the other side of which is connected to a longitudinal support 22b installed on the back of the solar power module. It consists of a connection frame 22c,
The connecting frame 22c connects the longitudinal support 22b and the base frame 21, and connects the body 220, the first and second connecting portions 221 and 222, and the bending reinforcement portion through a press operation of the mold. (223) is made by bending and manufacturing in an integrated configuration,
A body 220 that is open on one side in the longitudinal direction and is made up of a connection plate 220a and two side plates 220b bent from both sides of the connection plate to form three sides, extending from one side of the body in the longitudinal direction. A first connection portion 221 forming a receiving space 221a to receive the base frame 21 inside, a receiving space 222a extending from the other side of the body and receiving the longitudinal support 22b inside. ) is formed, and a protruding reinforcing rib 224 extending in the longitudinal direction is formed on the side plate 220b of the connecting frame 22c,
On the side plate 220b of the body 220, bending reinforcing portions 223 are formed on the open longitudinal edges, each of which is bent toward the opposing side plates,
The first and second connecting portions 221 and 222 are composed of two side plates 220b extending in the longitudinal direction from the end of the connecting plate 220a, and the base frame 21 and the longitudinal support 22b. A floating solar power generation system, characterized in that screw fastening holes (221b, 222b) are formed for connection to.
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The connection frame 22c includes a front connection frame 22c' disposed in front of the longitudinal support 22b, and a rear connection frame 22c' disposed behind the longitudinal support with respect to the front connection frame and having a length longer than the front connection frame. A floating solar power generation system characterized by consisting of a connection frame (22c'').

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