KR200451849Y1 - Photovoltaic power generation equipment having sealing device - Google Patents

Abstract

This design, by installing a flexible sealing device in the gap formed between the light collecting plate modules, sealing gap sealing, preventing the washing water or the cooling water to escape while maintaining a gap for preventing expansion and mechanical deformation due to temperature changes. The present invention relates to a photovoltaic device having a device,

A support for providing a support force, a support steel which is horizontally installed by means of a coupling means to the support, a support plate fixed to the support steel, and a photovoltaic cell installed on the support plate. It includes a light collecting plate module for producing a, a flexible material sealing device provided in the gap between the light collecting plate module, and a watering nozzle provided on the upper portion of the light collecting plate module.

Support base, support fluorescent light, support plate, light collecting module, sealing device

Description

Photovoltaic power generation equipment having sealing device with sealing device for crevice sealing

This design relates to the field of photovoltaic power generation equipment, and more specifically, to install a flexible sealing device in the gap formed between the light collecting plate modules, while maintaining a gap for preventing expansion and mechanical deformation due to temperature change. The present invention relates to a photovoltaic power generation equipment having a sealing device for sealing a gap, which can prevent the leakage of the washing water or the cooling water to increase the cleaning or cooling efficiency.

As fossil fuels such as coal and oil are depleted, alternative power generation technologies using wind, tidal, geothermal and solar power are being studied.

Among the alternative power generation technologies described above, photovoltaic power generation can be installed on the roof of a building, and thus, it is relatively less constrained by the installation space than other alternative power generation technologies, and thus its spread is spread in general households.

The photovoltaic power generation equipment has a structure in which a plurality of light collecting plate modules each having photovoltaic cells are arranged horizontally to form a rectangular shape. The light collecting plate modules are prevented from stretching and mechanical deformation due to temperature change. In order to have a certain gap.

In addition, the light collecting plate module is reduced in the light collecting efficiency when the scale is accumulated due to dust and dust dust and dust in the air, and also the power generation efficiency is reduced even if the temperature of the light collecting plate module is too high, periodically using a sprinkler It must be cleaned and cooled.

For reference, install the light collecting plate so that it has an inclination of about 40 degrees, and install a watering device on the light collecting plate to spray the appropriate amount of water and detergent, and install the brush on the driving cart to automatically wash or move the cart up or down or left and right. Cooling technology has been disclosed in the "Structure of photovoltaic light collecting plate automatic cooling and cleaning device" of the Republic of Korea Utility Model Publication No. 20-2007-0000926 (published August 23, 2007).

However, the conventional photovoltaic power generation device including the publication No. 20-2007-0000926 is formed between the light collecting plate modules to prevent stretching and mechanical deformation due to temperature change during watering for washing or cooling. There is a problem in that leakage loss occurs because the washing water or the cooling water is discharged to the outside through the gap.

An object of the present invention is to solve such a conventional problem, by installing a flexible sealing device in the gap formed between the light collecting plate modules, while maintaining the gap for the expansion and prevention of mechanical deformation due to temperature changes wash water Another aspect of the present invention is to provide a photovoltaic power generation equipment having a sealing device for sealing a gap, which prevents cooling water from escaping.

As a means for achieving the above object, the constitution of the present invention is a support for providing a supporting force, a support steel which is horizontally installed by using a coupling means to the support, and fixed to the support steel. A light collecting plate module installed on the support plate, the support plate and generating electricity using photovoltaic cells, a flexible sealing device installed in a gap between the light collecting plate modules, and an upper portion of the light collecting plate module. It includes a watering nozzle that is.

The constitution of this invention is desirable if the sealing device is made of a rubber material.

The constitution of this invention is preferable if the sealing device is made of a silicon material.

According to the constitution of the present invention, the sealing device has an arc-shaped head portion, a lower end portion of which is formed with an inverted triangle body portion, and an elliptical hollow portion is formed in the center of the body portion. It is desirable to have a structure that is.

As discussed in the above embodiment, the present invention is provided with a flexible sealing device in the gap formed between the light collecting plate modules, so that the leakage of the washing water or the cooling water can be maintained while maintaining the gap for preventing elastic deformation and mechanical deformation due to temperature change. It has the effect of increasing the cleaning or cooling efficiency by preventing.

DETAILED DESCRIPTION Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention. . Other objects, features, and operational advantages, including the purpose, operation, and effect of this design, will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment from among the various possible examples to help those skilled in the art to understand, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment In addition, various changes, additions and changes are possible within the scope without departing from the technical spirit of the present invention, as well as other embodiments that are equally clear.

1 is a configuration diagram of a photovoltaic power generation equipment having a sealing device for sealing the gap according to an embodiment of the present invention, Figure 2 is a cross-sectional view taken along line AA of Figure 1, Figure 3 is an embodiment of this design Perspective configuration diagram of the sealing device of the photovoltaic power generation equipment with a sealing device for sealing according to the gap.

As shown in Figures 1 to 3, the configuration of the photovoltaic power generation equipment having a sealing device for sealing the gap according to an embodiment of the present invention, is fixed to the concrete floor (1) to provide a supporting force Support (2), support steel (4) horizontally installed on the support (2) using the bolt nut (3), and support plate (5) fixed to the support steel (4) And a light collecting plate module 6 installed on the support plate 5 to generate electricity using photovoltaic cells, and a flexible sealing device 7 provided in a gap between the light collecting plate module 6. ), And the watering nozzle 8 provided on the light collecting plate module 6.

The support 2 may be installed on the roof, and the light collecting plate module 6 has a structure having an inclination angle with respect to the ground so as to receive sunlight well.

The sealing device 7 is made of rubber or silicone material. In addition, the sealing device 7 is formed with an arc-shaped head portion 71, a lower portion of the body portion 72 is formed with an inverted triangle is formed below the head portion 71, In the center of one body portion 72 is made of a structure in which an elliptical hollow portion 73 is formed.

The sprinkling nozzle 8 has a structure in which a storage tank (not shown), a pump (not shown), a valve (not shown), etc. for supplying washing water or cooling water are installed.

According to the above configuration, the operation of the photovoltaic power generation equipment having a sealing device for sealing the gap according to an embodiment of the present invention is as follows.

In order to form a photovoltaic power generation device, a plurality of light collecting plate modules 6 are arranged horizontally so as to form a rectangular shape, and at this time, a sealing device 7 is formed in a gap formed between the light collecting plate modules 6. Will install The sealing device 7 has an arc-shaped head portion 71 is formed to act as a sealing to prevent the wash water or cooling water from seeping through the light collecting plate module 6, and also of the head portion 71 A lower portion of the body portion 72 is formed of an inverted triangle is formed so that the operator can easily install the sealing device 7 in the gap between the light collecting plate module (6). In addition, the sealing device 7 is made of an elastic material such as rubber or silicon to cope with the stretching action of the light collecting plate module 6 according to the temperature change to prevent mechanical deformation of the light collecting plate module 6, In addition, an elliptic hollow portion 73 is formed in the center of the body portion 72 of the sealing device 7 to further increase the effect of stretching.

In this case, after the sealing device 7 is inserted between the light collecting plate modules 6 to form a photovoltaic device, the scales are accumulated on the light collecting plate module 6 due to yellow dust and scattering dust and dirt in the air. To clean it, or to cool it when the temperature of the light collecting module 6 rises due to too intense sunlight, a manager or operator can open a valve (not shown) and operate a pump (not shown). Washing or cooling water stored in a storage tank (not shown) is sprayed onto the light collecting plate module 6 through the watering nozzle 8.

As such, when the wash water or the coolant is sprinkled on the light collecting plate module 6, the water collecting plate module 6 is washed while the washing water or the cooling water flows down on the light collecting plate module 6 installed at an inclination angle with respect to the ground. Or cooled. In this case, the sealing device 7 installed in the gap formed between the light collecting plate modules 6 prevents the washing water or cooling water from seeping into the light collecting plate modules 6 so that the washing water or the cooling water leaks and is not lost. To increase the cleaning or cooling efficiency.

1 is a block diagram of a photovoltaic power generation equipment having a sealing device for sealing the gap according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a perspective configuration diagram of a sealing device of a photovoltaic device having a sealing device for sealing a gap according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: concrete floor 2: support

3: bolt nut 4: support steel

5: support plate 6: light collecting module

7: sealing device 8: spray nozzle

Claims (6)

Support for providing support, Supported steel that is horizontally installed by using a coupling means to the above support, A support plate fixed to the support steel described above, A light collecting plate module installed on the support plate and generating electricity using photovoltaic cells; An elastic material sealing device installed in the gap between the light collecting plate modules; Photovoltaic power generation equipment having a sealing device for a gap sealing, characterized in that it comprises a spraying nozzle provided on the upper portion of the light collecting plate module. The method of claim 1, Said sealing device is a photovoltaic power generation equipment having a sealing device for sealing the gap, characterized in that made of a rubber material. The method of claim 1, Said sealing device is a photovoltaic power generation equipment having a sealing device for sealing the gap, characterized in that made of a silicon material. The method of claim 1, Said sealing device is a photovoltaic power generation equipment having a sealing device for gap sealing, characterized in that the arc-shaped head portion is formed. The method of claim 4, wherein Said sealing device is a solar power generation equipment having a sealing device for gap sealing, characterized in that the lower portion is formed under the head portion of the body consisting of an inverted triangle. The method of claim 5, Solar power generation equipment with a sealing device for sealing the gap, characterized in that the hollow portion is formed in the center of the body portion.

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