KR20200086403A - Post for sunlight power - Google Patents

Abstract

The present invention provides a post for a solar power generation module which does not require a fixing flange and a concrete anchor, and can be easily installed by driving. The post for a solar power generation module is made of a corrosion-resistant band steel material, is bent in a ㄷ shape, and has outward wings integrally formed at open ends of both sides extending out from a base unit at the same length to increase a ground friction force.

Description

Post for solar power module {POST FOR SUNLIGHT POWER}

The present invention relates to a type-type support for supporting a module when installing a power generation module for a photovoltaic generator on a field.

In order to install the photovoltaic power generation module for photovoltaic generators in the mountainous areas, it is necessary to set up a pillar supporting the photovoltaic power generation module at a certain height above the ground.

Ordinary photovoltaic module props are round tubes as disclosed in published patent publication No. 10-2010-0023934, or the bottom of each control post disclosed in registered patent No. 10-0734563 and registered utility model No. 20-0426018 It has a structure where a flange is attached to the flange, and the flange is placed on a concrete anchor and fastened with a bolt-nut.

The concrete anchor is installed on the ground or buried to maintain the standing state of the prop.

The disadvantages are that the installation cost of the concrete anchor is high, and the installation cost is high, such as setting the installation interval of the concrete anchor and selecting the ground.

Patent Publication No. 10-2010-0023934 Registered Patent No. 10-0734563 Utility Model Registration No. 20-0426018

It is an object of the present invention to provide a support for a photovoltaic module that does not require a flange for fixing a prop or an anchor made of concrete and can be installed simply by driving.

The above-mentioned subject is a corrosion-resistant striated steel sheet, which is shaped like a desing, and has an outward wing formed integrally on the open end of the side extending from one end to the other in both directions of the base part to increase the ground frictional force while being typed to the ground and then swinging back and forth. It can be achieved as a prop for solar power module with high stability.

A fastening hole for a module frame to be fixed by fastening a module frame to be mounted with a bolt-nut is drilled at the upper end of the support, and supported by a support at a site close to the ground from an area exposed to the ground when it is typed on the ground. It is possible to pre-puncture the fastener for the rainboard to fasten the lower end of the rainboard on both sides around the point where it becomes.

Since the strut according to the present invention has no flange at the bottom, it can be simply erected by simply using a dedicated driving equipment on the ground that has no hard rock in the ground.

It is very easy to install a pillar for photovoltaic modules on the road, and by attaching a flange and excluding a concrete anchor, it is possible to reduce the initial facility cost of the photovoltaic generator.

1 is a perspective view of a prop for a solar power module according to the present invention
Figure 2 is an exemplary view of the case where the photovoltaic module is installed on a pillar installed by hitting the road
Figure 3 is a cross-sectional view of the struts by depth of the part typed on the ground

1 is a perspective view of a photovoltaic power generation module prop according to the present invention, and FIG. 2 is an exemplary view when a prop is installed on a road surface with a type of post and a photovoltaic module is installed on the top. Figure 3 illustrates a cross-section of the strut is a part of the ground type is modified by depth.

In FIG. 1, the prop 1 for a photovoltaic module proposed in the present invention is designed to deform a steel plate with a thickness of, for example, about 4 mm, sufficient to have a strength that does not bend even with a driving force when typed. The outward wings 3 and 3 are bent in a batch at the open ends of both sides 2 and 2. Specifically, the side portions 2 and 2 extending in the same length in one direction on both sides of the base portion 4 of the disassembled pillar 1 are integrated, and the side portions 2 and 2 are larger than the width of the base portion 4. It is formed long. These side parts (2, 2) do not deform, such as bending in the surface direction even when friction with the ground when typed by exerting sufficient durability against the surface direction of the base part (4), and increase the frictional force with the ground surface. It improves the stability afterwards. The side portions (2, 2) are close to a right angle or a right angle with respect to the base portion, and the wings (3, 3) are bent at a right angle or right angle from the open end of each side portion (2, 2) to the outside to increase the strength of each bent portion. Increase and increase resistance to deformation.

When the module frame on which the photovoltaic module is mounted is fastened with bolts-nuts on both side parts (2, 2) of the support (1), the fastening hole (5) for installing the module frame to be fixed is drilled, and when it is typed on the ground On the side (2,2) close to the ground in the part exposed to the ground, the fastening hole for the rainboard for fastening the lower end of the rainboard to which the upper end is connected with a predetermined distance on both sides around the point where the module frame is connected to the prop (6) can be pre-drilled during the prop manufacturing process. Here, if the base portion 4 is formed wider than the side portions 2 and 2, the base portion 4 may not be able to overcome the resistance of the ground during the type process, and the side portions 2 and 2 wide open outwards. During the type process, a wide gap is formed between the soils entering between the side parts 2 and 2, so that the type state may become loose. To prevent this, the base portion 4 needs to be formed with a width smaller than the side portions 2 and 2.

As shown in FIG. 2, the prop (1) is placed vertically on the ground where the power generation module for the photovoltaic generator is to be installed and is driven. The part that hits the ground is such that the lower part of the fastening hole 4 is properly exposed to the ground so that it does not interfere with the fastening of the lower end. The power generation module frame 7 is installed on the upper end of the prop 1, and the power generation module 8 is mounted on the power generation module frame 7 to complete the solar power generator. Figure 3 illustrates the shape change according to the depth of the strut portion typed on the ground. Due to the influence of the force (arrow) acting as the amount of soil (9) interposed between both sides (12, 12) increases on the resistance of the ground gradually increasing from the lower end as the depth increases while the support (1) is typed in the ground The sides 12 and 12 are opened.

That is, as the portion embedded in the ground goes from the upper portion (a) to the lower portion (b), the wider the side portions 12 and 12 are. Compared to the case where the gap is not inflated and embedded in the ground, the frictional force in the ground is much greater. Here, both wings (13, 13) stabilize the support (1) by increasing the resistance to fluctuations in the ground acting toward the open ends of the bar (3) and the sides (2, 2), stabilizing the support (1), and the sides (2, 2) The friction of the main surface by is also added. So, once it is typed, even if you try to pull the post (1) upwards, it will not be pulled away without borrowing the power of a machine such as a drawer. The power generation module for solar power generators compared to the conventional one, which was installed by attaching a flange to the bottom of the prop and placing it on a concrete anchor and fastening it with a bolt-nut, or by installing the bottom of the prop into a concrete anchor and installing the anchor in the ground. By simply striking the supporting prop, it is possible to install it firmly on the road, and the structure is very monotonous, which reduces the cost of the prop and the installation of the prop is very easy, so that the prop in the design can be installed in a short time. In addition, if the flange is attached to the bottom of the prop, it is built on the concrete anchor and fastened with bolt-nut, or the bottom of the prop is embedded in the concrete anchor and the anchor is buried in the ground. Although uneasy, the pillar for the photovoltaic module of the present invention is safe because it is not conducted even if the ground surface soil is lost due to rain because it is deeply embedded in the ground.

1: prop
2,2: side
3.3: wings
4: Bat
7: Module frame
8: Power module

Claims (2)

A pillar for a solar power module, characterized in that the side portions extending in the same length in one direction on one side of the base portion of the disassembled pillar are integrated, and the outward wings are integrally formed at the open ends of both sides.

The post of claim 1, wherein the side portion is longer than the width of the base portion.

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