KR200453317Y1 - Solar power plant with rainwater fall prevention - Google Patents

Abstract

The present invention relates to a solar power plant having a rainwater fall prevention measures, and the rainwater falling through the solar cell is induced by the rainwater fallwater fall prevention measures to prevent polluting the bottom of the solar power plant with rainwater, therefore, It aims to install and use various convenience facilities (bench, station, etc.) in the free space under the solar power generation facility.
Photovoltaic power generation facilities having a rainwater fall prevention measures according to the present invention, a plurality of photovoltaic cells (11) is made of a combination of the photovoltaic battery module 10 is installed to be inclined toward one side installed through the support It is installed on the bottom and includes rainwater fall prevention measures for inducing drainage of rainwater falling from the solar cell module, the rainwater fall prevention measures are installed in the bottom of the photovoltaic module 10 in a multi-stage step-shaped step A plurality of drain plates 20 for inducing drainage of rainwater falling from the optical battery module; A water collecting container 50 installed at the bottom of the drain plate disposed at the bottom of the plurality of drain plates to collect rainwater guided through the drain plate, wherein the drain plate is flat and has a pair of Rainwater falling from the photovoltaic module by being installed in a stepped manner consisting of a water collecting portion 21 is interposed between the holder 30 and fixed to the holder, the induction drainage portion 22 is formed to be inclined downward from the end of the collecting portion. Induced drainage to the sump.

Description

SUNLIGHT POWER GENERATION FACILITIES HAVING SOLUTION FOR PREVENTING RAINDROPS

The present invention relates to a photovoltaic power plant having rainwater fall prevention measures, and more specifically, to the rainwater falling down to the bottom of the photovoltaic power plant rainwater falling through the solar cell is drained to the drainage system The present invention relates to a photovoltaic power plant having a preventive measure.

Recently, the development and dissemination of alternative energy due to the reduction of electricity use due to high oil prices and environmental pollution is increasing. In particular, the supply of renewable energy is increasing because the government provides some support.

In general, a solar cell module includes a solar cell module that is widely used. The solar cell module is fixed and installed by using a separate holder to obtain a proper level of power generation capacity.

In the conventional photovoltaic power generation facility, a plurality of photovoltaic cells are installed in the longitudinal direction, and since rain is generated between the photovoltaic cells, rainwater has to fall to the ground through the photovoltaic cells. . Therefore, since the lower part of the photovoltaic power generation facility is polluted by rainwater, there is a problem in that the free space under the photovoltaic power generation facility cannot be used efficiently.

In addition, the photovoltaic power generation facility is installed to be spaced apart from the ground at a certain height, and the bottom of the photovoltaic power generation facility is visible when viewed from the ground. There is also.

The present invention is to solve the problems as described above, the photovoltaic power generation having a rainwater fall prevention measures so that rainwater falling between the solar cells do not fall to the ground of the solar power plant without draining through the drainage system The purpose is to provide facilities.

And, another object of the present invention is to decorate the bottom of the photovoltaic power plant visually aesthetic.

Photovoltaic power generation facilities having rainwater fall prevention measures according to the present invention for achieving the object as described above, a plurality of photovoltaic cells are made of a combination of solar cells are installed to be inclined toward one side through a cradle A plurality of drain plates installed at the bottom of the battery module in a multi-step manner in a step shape to induce drainage of rain water falling from the solar cell module;

A water collecting tank installed at the bottom of the drain plate disposed at the bottom of the plurality of drain plates to collect rainwater guided through the drain plate;

The drain plate is a flat plate-like interposed between the pair of fixing rods are fixed to the fixing unit, the inlet drainage portion is formed in a stepped manner formed inclined downward from the end of the collecting portion to fall from the solar cell module Characterized in that the rain water to the induction drainage to the sump.

The present invention is characterized in that the decorative decorative plate is installed on the bottom of the solar power installation.

According to the solar power plant having a rainwater fall prevention measures according to the present invention, the rainwater falling through the solar cell is induced and drained through the rainwater fallwater prevention measures so that the solar power plant is not polluted with rainwater. Since various convenience facilities (benches, stations, etc.) can be used in the free space under the solar power generation facilities, the utility of the solar power generation facilities can be increased.

In addition, the bottom of the photovoltaic facility is not exposed by the decorative plate, and the pattern of the decorative plate is visible when viewed from the ground, thereby producing a visual aesthetic effect, such as increasing the value of the photovoltaic facility.

1 is a side view of the installation state of the solar power plant having a rainwater fall prevention measures according to the present invention.
Figure 2 is an exploded perspective view of the main portion of the solar power plant having a rainwater fall prevention measures according to the present invention.
Figure 3 is another exemplary view of the drain plate applied to the solar power plant having a rainwater fall prevention measures according to the present invention.
Figure 4 is a bottom perspective view of the installation state of the solar power plant having a rainwater fall prevention measures according to the present invention.
Figure 5 is a bottom perspective view of the decorative plate applied to the solar power plant having a rainwater fall prevention measures according to the present invention.

As shown in FIG. 1, in the solar power generation facility having a rainwater fall prevention measure according to the present invention, a rainwater fall prevention measure is installed at the bottom of the solar cell module 10 in which a plurality of solar cell cells 11 are combined. By collecting the rainwater falling through the solar cell cells 11 to induce drainage to provide a convenience facility and the like at the bottom of the solar power plant as a roof, the rainwater fall prevention measures a plurality of drain plate (20) ) And the sump container 50, the following components will be described in detail.

The plurality of drain plates 20 are installed in a stepped multi-step form to allow rain water to flow down into the stepped form.

Although it is possible to induce drainage of rainwater even with a single duct, a plurality of drain plates 20 are used to dissipate heat generated in a solar power plant. In other words, the drain plates 20 are provided at intervals to allow air to flow while inducing rainwater to the bottom.

The drain plate 20 is composed of a flat plate-shaped water collecting portion 21 and an induction drain portion 22 formed to be inclined downward at the end of the water collecting portion 21.

The drain plate 20 is interposed between the pair of holders 30 and is installed by fixing both left and right sides to the holder 30.

That is, the structure and the installation state of the plurality of drain plates 20 are lowered through the induction drain 22 without rain falling to the ground through the rear of the catch 21 to fall into the catch 21. It is to flow down through the drain plate 20 of the.

The holder 30 may be used in any structure in which the drain plate 20 may be fixed, and fixed to the holder 30 through at least one fastener, that is, first and second fasteners 31 and 32. do.

To this end, the drain plate 20 and the fixing stand 30 are provided with fastening holes to which the first and second fasteners 31 and 32 are fastened, respectively.

The fastening hole may have a circular shape such that the drain plate 20 is fixed.

On the other hand, the inclination of the photovoltaic module 10 may vary according to the installation area, etc., the drain plate 20 is installed so that the angle can be adjusted in an optimal state in accordance with the inclination of the photovoltaic module 10 Can be. For example, when the fastening hole for fastening the first fastener 31 to the fixing table 30 is formed as the angle adjusting hole 33, the drain plate 30 is second fastened within the trajectory of the angle adjusting hole 33. The angle is adjusted while rotating relative to the sphere 32. Although the angle adjusting hole 33 is shown in the form of a long hole in the figure, it may be formed of a plurality of holes are formed in a circular shape arranged at regular intervals along the curved track.

The left and right widths of the drain plate 20 may correspond to the left and right widths of the solar cell module 10, and only one may be used along the left and right transverse directions, and a plurality of the drain plates 20 may be arranged in a row along the transverse direction.

In addition, the plurality of drain plates 20 and the pair of fixing bars 30 constitute rainwater fall prevention measures as an assembly, and a plurality of rainwater fall prevention measures may be installed in the longitudinal direction.

The drain plate 20 and the fixing stand 30 may be installed through the fixing beam 40.

The fixed beam 40 can be fixed in any way by fixing the fixing stand 30, for example, the mounting portion 41 of the groove shape on one side or more so that it can be installed by fitting without using a separate fastening means ) May be provided. That is, the mounting portion 41 is a structure that can be inserted and slid the holder 30.

In addition, a bolt or the like may be used so that the holder 30 may be firmly fixed to the fixed beam 40. The bolt may be used with or without the mounting portion 41.

FIG. 4 illustrates an example in which three fixed beams 40 are used for the solar cell module 10, and rainwater, which is an assembly of the drain plate 20 and the fixed base 30, is provided between the fixed beams 40. Fall prevention measures are arranged in the longitudinal direction.

The sump container 50 collects and drains rainwater that is guided and drained by the drain plates 20, and has a tubular structure capable of temporarily collecting rainwater, but not shown in a drainage duct (for example, the fixed beam 40). The drainage duct is installed on the support 60 for fixing the solar cell module 10 to the air spaced a certain distance from the ground, and the sump 50 is disposed to be inclined downward to the drainage duct side for smooth drainage. And the rainwater collected in conjunction with the bottom of the drain plate 20, that is, the solar cell module 10, disposed at the bottom of the plurality of drain plates 20.

The sump container 50 also functions as a finishing frame for supporting the fixed base 30 so as not to fall downward with guided drainage of rainwater.

The drain plate 20 and the sump 50 may be made of any material that is not corroded by rainwater and is not deformed by heat, and is manufactured by various methods such as extrusion.

Since the installation structure of the solar cell module 10 is the same as the conventional one, a detailed description thereof will be omitted.

The operation of the solar power plant having a rainwater fall prevention measures according to the present invention is as follows.

The drain plate 20 is provided such that the collecting portion 21 is inclined downward toward the collecting container 50. This is because rain water that has fallen to the water collecting part 21 flows down toward the induction drainage part 22. If the angle adjustment hole 33 is applied to adjust the angle of the drain plate 20 is installed.

Rainwater introduced between the photovoltaic cells 11 falls on the collecting portion 21 of the drain plate 20, and the rainwater is inclined by the collecting portion 21 via the induction drainage portion 22. It falls to the drain board 20 of a lower side.

In this way, the rainwater falls stepwise through the drain plate 20, and the rainwater finally falling on the drain plate 20 disposed at the bottom is collected in the sump 50 and drained.

On the other hand, the air around the solar cell module 10 flows through the space between the drain plates 20, and since the air circulates as described above, even if high temperature heat is generated at the bottom of the solar cell module 10, Dispersion transfer can prevent thermal deformation.

On the other hand, the present invention may be applied to the decorative plate 70 for the decorative effect of the photovoltaic power generation facilities in addition to the fall prevention by rainwater fall prevention measures.

The decorative plate 70 is a plate having a pattern and is porous for circulation of air. The decorative plate 70 may be disposed at the bottom of the rainwater fall prevention barrier, for example, and may be fixed by bolting, so that the pattern of the decorative plate 70 is visible when viewed from the ground.

On the other hand, the decorative plate 70 is one plate may be installed in a photovoltaic power generation facility, otherwise a plurality may be used, when a plurality of decorative plates 70 are used by one of a combination of a plurality of decorative plates 70 Expressing a decorative pattern or each decorative plate 70 may represent a variety of decorative patterns. For example, the four decorative plates 70 can be produced by combining the same pattern to produce one decorative pattern (such as the sun).

10: solar cell module, 11: solar cell
20: drain plate, 21: water collecting part
22: induction drainage part, 30: fixed base
31,32: 1st, 2nd fastener, 33: angle adjustment hole
40: fixed beam, 50: sump
60: support, 70: decorative plate

Claims (6)

A plurality of photovoltaic cells 11 are formed in combination and disposed at an inclination toward one side to be installed at the bottom of the photovoltaic module 10 installed through a support to induce rainwater falling from the photovoltaic module. Includes rainwater drainage to drain,
The rainwater fall prevention measures include: a plurality of drain plates 20 installed at the bottom of the photovoltaic module 10 in a multi-step form in order to induce drainage of rainwater falling from the photovoltaic module; A water collecting tank 50 installed at the bottom of the drain plate disposed at the bottom of the plurality of drain plates to collect rainwater guided through the drain plate;
The drain plate has a flat plate shape and is interposed between a pair of holders (30) interposed between a catchment part 21 fixed to the holder, and an induction drainage part 22 formed to be inclined downward from the end of the catch part in a stepwise manner. The solar power plant having a rainwater fall prevention measures, characterized in that the rainwater falling from the solar cell module is installed to guide the drain to the sump. The method of claim 1, wherein the drain plate is formed with two fastening holes at regular intervals, the fixing rod is provided with a fastening hole in communication with the fastening hole, the first and second fastening holes in the fastening holes of the drain plate and the fastening, respectively (31, 32) is a solar power plant having a rainwater fall prevention measures, characterized in that the structure is fixed to the drain plate. 3. The drain plate of claim 2, wherein the fastening hole disposed at a rear side of the fastening hole of the stator is formed as a curved angle adjusting hole 33, and the first fastener is disposed along the trajectory of the angle adjusting hole. Solar power plant having a rainwater fall prevention measures, characterized in that the structure of the angle can be adjusted. The method according to any one of claims 1 to 3, comprising a fixed beam 40 which is arranged along the longitudinal direction of the solar cell module and spaced apart at regular intervals along the width direction of each other, the rainwater fall prevention measures The solar power plant having a rainwater fall prevention measures, characterized in that the plurality is a structure arranged in the longitudinal and horizontal direction between the fixed beam. The solar power plant of claim 4, wherein the fixed beam is provided with a recess 41 in the form of a groove so that the anchor is inserted into the recess. The photovoltaic power generation facility with rainwater fall prevention measures according to claim 4, wherein the decorative decorative plate 70 having a pattern is installed at one or more bottoms of the rainwater fall prevention measures to decorate the bottom of the solar power generation facility. .

Images