KR101493720B1 - Float type hydraulic power generator - Google Patents

Abstract

The present invention relates to a floating solar power generation device for cooling a surface of a solar cell module by introducing cooling water from a base to improve the power generation efficiency by cooling the solar cell module, A plurality of solar cell structures fixedly mounted on the floating table and provided with solar cell modules each of which receives sunlight to produce electric energy, a temperature detection unit for detecting a surface temperature of the solar cell module, An injection nozzle unit disposed at least one between the battery structures for spraying the cooling water introduced from the base of the floating table to the solar cell module, a cooling water supply unit for supplying the cooling water of the deep well to the injection nozzle unit, Unit, receives the temperature information detected by the unit, A first blocking unit installed at a predetermined depth along the periphery of the floating table to block the inflow of floating matter; and a second blocking unit disposed at a position deeper than the first blocking unit at the center of the back surface of the floating table And a second shielding unit installed at the first shielding unit and blocking the suspended matter.

Description

[0001] FLOAT TYPE HYDRAULIC POWER GENERATOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a solar power generation apparatus, and more particularly, to a floating solar power generation apparatus for improving module cleaning and cooling efficiency.

Generally, power generation methods include hydroelectric power generation using hydroelectric power, thermal power generation using chemical energy of fossil fuel, and nuclear power generation using nuclear power.

These estuary methods require large scale power generation facilities and enormous amount of energy sources to operate these power generation facilities, and there are restrictions on installation sites.

Especially, in the case of hydroelectric power generation, since a lake or a reservoir in which a large amount of water is stored is required, it is only applicable to a very limited place, and thus there is a great restriction on the installation site. However, the hydropower generation device provides an advantage of being able to obtain a stable and semi-permanent power with little maintenance cost once installed.

The general type of hydroelectric power generation system is a method of obtaining electricity by rotating the turbine by using the water drop at a high position. Therefore, it is necessary to use a water storage facility such as a dam, a power generation facility installed at the bottom of the dam, There was an installation problem that the drainage facility for sending to the sea had to be constructed on a comparatively large scale.

In order to solve these problems, a floating solar photovoltaic device that converts solar light directly into electric energy by floating the structure of the photovoltaic power generation device on a lake, reservoir, or sea, Developed.

However, the floating solar power generation apparatus according to the prior art is installed on the water surface of rivers, lakes, reservoirs, dams and the like that can easily secure a wide open area rich in the amount of sunshine, There is a problem that the power generation efficiency is lowered due to the rise.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a floating solar power generation device for cooling a surface of a solar cell module by introducing cooling water at a base, The purpose is to provide.

It is another object of the present invention to provide a floating solar power generation device in which a mesh network for preventing float is installed at two different depths to prevent damage to the power generation device due to suspension.

According to an aspect of the present invention, there is provided a floating solar power generation apparatus including a floating table suspended on a water surface, and a solar cell module fixedly mounted on the floating table and receiving solar light to generate electric energy, A plurality of solar cell structures provided on the solar cell module, a temperature detection unit for detecting a surface temperature of the solar cell module, and at least one cooling water jetted from the base of the floating table, A control unit for selectively receiving the temperature information detected by the temperature detection unit and analyzing the injection nozzle unit and the cooling water supply unit to control the injection nozzle unit and the cooling water supply unit; A floating table provided at a predetermined depth along the periphery of the floating table, And a second blocking unit disposed at a position deeper than the first blocking unit at the center of the back surface of the floating table to block the floating body.

The floating solar photovoltaic device according to the present invention has the following effects.

First, by cooling the surface of the solar cell module by introducing cooling water at the base, cooling efficiency can be improved by cleaning the module.

Second, it is possible to prevent damage to the power generation device due to suspension by installing the mesh net for preventing floatation at different depths.

1 is a perspective view schematically showing a floating solar power generation apparatus according to the present invention;
2 is a side view of a floating solar power generation apparatus according to the present invention.

Hereinafter, a floating solar photovoltaic device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, the same or corresponding components are denoted by the same reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown may be exaggerated or reduced have.

FIG. 1 is a perspective view schematically showing a floating solar power generation apparatus according to the present invention, and FIG. 2 is a side view showing a floating solar power generation apparatus according to the present invention.

1 and 2, the floating solar power generation apparatus according to the present invention includes a floating table 110 suspended on a water surface, and a fixed table 110 installed on the floating table 110, A temperature detection unit 130 for detecting the surface temperature of the solar cell module 121, and a plurality of solar cell modules 120 each including the solar cell module 120 And an injection nozzle unit (140) disposed at least one of the cooling water supply unit and the cooling water supply unit and configured to inject cooling water introduced from the base of the floating table (110) into the solar cell module (121) A control unit 160 for selectively controlling the injection nozzle unit 140 and the cooling water supply unit 150 by receiving and analyzing the temperature information detected by the temperature detection unit 130; ), The floating A first blocking unit 170 installed at a predetermined depth along the periphery of the floating table 110 to block foreign substances such as floating matters from entering the floating block 110, And a second blocking unit 180 installed at a deep position to block foreign matters such as floating matters.

Here, the floating table 110 is a circular or rectangular floating fluid floating on a water surface such as a lake, a river, a swimming pool, a pond, a lowland, a dam, and the sea.

The floating table 110 is coupled with a separate fixing means (not shown) for keeping the water table 110 at a constant position on the water surface without flowing by the flow velocity, and is adapted to adapt to changes in water depth.

For example, the fixing means includes a plurality of wires coupled to the edge of the floating table 110, and a length adjusting device for adjusting the length of the plurality of wires. Therefore, the height of the floating table 110 can be easily adjusted according to the depth of the water depth by varying the length of the wire using the length adjusting device.

The solar cell structure 120 includes at least one solar cell module 121 that is fixedly mounted on the floating table 110 and generates electrical energy from sunlight.

The solar cell module 121 is installed on the water surface and is waterproofed to prevent a failure due to the generation of mist or water vapor.

The solar cell structure 120 is fixedly mounted on the floating table 110 such that the solar cell modules 121 maintain the same arrangement angle. The plurality of solar cell structures 120 are connected to the solar cell module 121 And a support frame 122 for supporting the solar cell module 121 at a predetermined height so as to fix the solar cell module 121 on the floating table 110.

The length of the support frame 122 may be different from that of the support frame 122, so that the fixed and installed solar cell module 121 has a constant inclination, thereby further improving power generation efficiency.

A plurality of the solar cell modules 121 are disposed in the respective solar cell structures 120 in accordance with the installation capacity. Each of the solar cell modules 121 has a constant Spaced apart.

Although the solar cell structure 120 is described as a fixed type, it can also perform tracking type power generation by tracking sunlight. At this time, the tracking method may be a method of adjusting the angle of the solar cell structure 120 using a sensor tracking method or tracking the sun according to a set program.

The temperature detection unit 130 is disposed on at least one solar cell module 121 of the plurality of solar cell structures 120 to detect the surface temperature of the solar cell module 121 including the ambient temperature .

 Generally, the solar cell module is overheated due to the heat of the solar cell itself for a long time, thereby reducing the power generation efficiency, and in the worst case, malfunction of the device or fire occurs.

Accordingly, the temperature detection unit 130 is installed to detect the temperature of the solar cell module 121 in real time, and the detected temperature is transmitted to the control unit 160 to operate the cooling water supply unit 150, Cooling water is injected onto the surface of the solar cell module 121 to cool the cooling water.

The injection nozzle unit 140 is arranged at a certain interval when the center portion of the floating table 110 or the number of the solar cell structures 120 is large. At this time, it is appropriate that the cooling water can be sprayed on the surface of the solar cell module 121 in order to prevent the generation of shade on the solar cell module 121 by the spray nozzle unit 140.

Meanwhile, the injection nozzle unit 140 may be provided with a variable length so as to widen the injection angle of the cooling water. That is, the injection nozzle unit 140 may be arranged at a predetermined height so that the height of the injection nozzle unit 140 is increased according to the control of the control unit 160, and the cooling water may be sprayed.

The injection nozzle unit 140 may be installed at the uppermost position for each of the solar cell structures 120 and may be sprayed onto the surface of the solar cell module 121 for cleaning or cooling.

The cooling water supply unit 150 is a pump that supplies cooling water to the injection nozzle unit 140 through a cooling water inflow pipe 151 at a central portion of the floating table 110 as a pump. When the DC pump is used, the pump can operate using electric power generated from the solar cell module 121. Also, when an AC pump is used, a separate energy storage device is provided and power is supplied from the energy storage device or power is supplied to the outside.

The cooling water is pumped by the cooling water supply unit 150 so that cooling water having a temperature lower than the water surface temperature can be supplied to the injection nozzle unit 140. [

The control unit 160 analyzes the temperature detected by the temperature detection unit 130 to determine whether to operate the cooling water supply unit 150. Normally, the operation of the cooling water supply unit 150 is turned off The cooling water supply unit 150 is turned on only when the surface temperature of the solar cell module 121 reaches a predetermined temperature or more.

On the other hand, the control unit 160 not only operates the cooling water supply unit 150 on the basis of the information on the temperature detection unit 130, but also periodically operates on the solar cell module 121 It is also possible to operate foreign matter such as remaining leaves or dust when cleaning the injection nozzle unit 140 by injecting cooling water.

The first blocking unit 170 is installed along the periphery of the floating table 110 and extends to a depth of about 1M. At this time, the first blocking unit 170 is formed of a mesh net structure to block the inflow of floating matters. The first blocking unit 170 has a hole structure of 100 × 100 mm and blocks floating matters having a relatively large diameter.

The second blocking unit 180 is installed at a position deeper than the first blocking unit 170 to block the floating matter floating in the water. In addition, the first blocking unit 170 has holes smaller than the first blocking unit 170, that is, 20 x 20 mm, and blocks floating bodies having a relatively small diameter.

The second blocking unit 180 is installed in a circular or rectangular frame shape to prevent foreign matter from flowing into the inlet pipe 151 connected to the cooling water supply unit 150.

The inflow pipe 151 extends to the bottom of the second blocking unit 180 to supply clean cooling water free of floating matters.

The second blocking unit 180 includes a lowermost portion of the inflow pipe 151 so as to surround the periphery of the inflow pipe 151 to block the inflow of the float.

Therefore, the floating solar photovoltaic device according to the present invention constitutes a solar photovoltaic device floating on the surface of a lake, a river, a swimming pool, a pond, a dam, and the sea to effectively utilize the land resources, effectively block the float, The power generation efficiency can be further improved by cooling or cleaning the solar cell module through the cooling water.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

110: Floating table 120: Solar cell structure
130: temperature detection unit 140: injection nozzle unit
150: Cooling water supply unit 160: Control unit
170: first blocking unit 180: second blocking unit

Claims (5)

Floating table floats on water surface,
A plurality of solar cell structures fixedly mounted on the floating table and provided with solar cell modules for receiving solar light to generate electric energy,
A temperature detection unit for detecting a surface temperature of the solar cell module;
At least one spraying nozzle unit disposed between the solar cell structures for spraying the cooling water introduced from the base of the floating table to the solar cell module,
A cooling water supply unit for supplying the cooling water of the deep well to the injection nozzle unit,
A control unit for receiving and analyzing the temperature information detected by the temperature detection unit and selectively controlling the injection nozzle unit and the cooling water supply unit;
A first shielding unit provided at a predetermined depth along the periphery of the floating table and made of a mesh net to block the inflow of suspended matter;
And a second blocking unit provided at a position deeper than the first blocking unit at the center of the back surface of the floating table and made of a mesh net having a smaller diameter than the mesh net of the first blocking unit for blocking the floating body,
Wherein the inlet pipe of the cooling water supply unit extends to the second blocking unit to supply the cooling water to the injection nozzle unit. 2. The floating photovoltaic device according to claim 1, wherein the floating table is coupled with fixing means for maintaining the floating table at a predetermined position on the water surface. delete delete delete

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