KR101984780B1 - cleaning apparatus of solar battery module using sprayer - Google Patents

Abstract

A solar cell module washing apparatus according to the present invention includes a washing water supply tank (100); And a module washer 200 detachably coupled to the wash water supply tank 100. The module washer 200 includes a cleaning plate 210, A flexible tube 230 connected to the injection nozzle unit 220 in a state of being connected to the injection nozzle unit 220 and a flexible tube 230 coupled to the flexible tube 230 in a state of being connected to the end of the flexible tube 230, A rotation mount part 250 rotatably coupled to the connection pipe 240 and coupled to the cleaning plate 210 and a connection part 250 connected to the connection part 240, And a movement guide unit 260 functioning to control the movement of the module washer 200 in a state of being coupled to the cleaning plate 210. The movement guide unit 260 is configured to constitute a solar cell module to be cleaned A plurality of solar panels To move along the guide groove.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a solar cell module cleaning apparatus using an agricultural sprayer,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an improvement of efficiency through cleaning and cooling of a solar cell module constituting a solar power generation facility, and more particularly, to a solar cell module in which cleaning water is supplied onto a solar cell plate using an agricultural sprayer, The present invention relates to a technique for effectively improving the efficiency of a photovoltaic power generation facility by enabling efficient cleaning along an electric panel.

At this point, as a part of national policy, the spread and expansion of renewable energy is expected to continue to increase. Among them, the method using sunlight is called solar power generation, which is a system that can operate various mechanical devices by generating electricity using sunlight.

In the above-described solar power generation, when an n-type semiconductor is doped on a silicon crystal, and a solar panel having a pn-type junction is irradiated with sunlight, an electromotive force is generated by the light energy. Thereby generating electricity.

In order to construct such a system, a solar cell that collects sunlight, a photovoltaic module that is an aggregate of solar cells, and a solar array that regularly arranges solar cell modules, .

Unlike conventional fossil fuel energy, sunlight is clean energy without danger of greenhouse gas emission, noise and environmental destruction that cause global warming. There is no fear of depletion. Unlike wind power or sea water power, installation is convenient and maintenance cost There is an advantage that it is cheap.

However, when the surface temperature of the solar cell module is increased, the output of the silicon type solar cell is 0.3 to 0.5% per 1 ° C. According to these characteristics, the output of the solar cell is highest in spring and autumn, not the longest summer in the sun. This increase in temperature is a major cause of deterioration of the efficiency of photovoltaic power generation facilities.

In addition, since the solar cell module is not only deteriorated in efficiency due to overheating, but also exposed to the outside, the light transmittance is lowered due to rainwater, algae secretion, pollen, yellow dust, fine dust, and water.

As described above, there is a problem caused by temperature rise and contamination of the solar cell module. Conventionally, a device for improving the efficiency of the solar cell generation facility by lowering the temperature of the solar cell module by spraying washing water on the solar cell module .

In addition, in order to prevent deterioration of efficiency due to contamination of the solar cell module, the solar cell module is manually cleaned by hand, but it takes a lot of time, labor, and excessive water for cleaning, There arises a problem that the problem of occurrence occurs.

Conventionally, an automatic cleaning device is used for cleaning a solar cell module, but it is a reality that it is difficult to handle the occurrence of contamination at a local site. Accordingly, there is a desperate need for a method of reducing the time and cost required for cleaning the solar cell module and managing the solar cell module more effectively.

Korean Patent No. 10-1234054 (cleaning and cooling apparatus for solar panels) refers to the cleaning of foreign materials attached to the surface of a solar panel and the cleaning of a solar panel Cooling apparatus, and a Korean Patent No. 10-0979848 (cleaning apparatus and method for cleaning solar panel) of the solar panel. In addition, dust, snow, rainwater, The present invention provides a technical content of a cleaning apparatus for a solar panel for maintaining a maximum power generation amount of the solar power generation apparatus.

(Patent Document 1) KR 10-1234054 B

(Patent Document 2) KR 10-0979848 B

In the present invention, cleaning water is supplied to the solar panel by using an agricultural sprayer to cool the solar cell module, and efficient cleaning is possible along the solar panel, thereby improving the efficiency of the solar power generation facility. And an object thereof is to provide a module cleaning apparatus.

According to an aspect of the present invention, there is provided an apparatus for cleaning a solar cell module, including: a washing water supply tank; And a module body 200 detachably coupled to the wash water supply tank 100. The module washer 200 includes a cleaning plate 210, A flexible tube 230 connected to the injection nozzle unit 220 in a state of being connected to the injection nozzle unit 220 and a flexible tube 230 coupled to the flexible tube 230 in a state of being connected to the end of the flexible tube 230, A rotation mount part 250 rotatably coupled to the connection pipe 240 and coupled to the cleaning plate 210 and a connection part 250 connected to the connection part 240, And a movement guide part (260) functioning to control the movement of the module body (200) while being coupled to the cleaning plate (210), wherein the movement guide part (260) And a plurality of solar panels It is moved along the guide groove.

The movement guide portion 260 includes a hinge portion 261 coupled to the cleaning plate 210 so as to be adjustable in width and a latching protrusion 262 protrudingly coupled to the outer end of the hinge portion 261 in a bent state 263).

The solar cell module cleaning apparatus further includes a cleaning flow path 270 formed on the surface of the cleaning plate 210 to guide the flow of cleaning water supplied through the spray nozzle unit 220.

The cleaning channel 270 includes a plurality of discharge channels 271 and a plurality of discharge channels 271 connected to one side of a jetting port 211 formed to correspond to the nozzle holes 222 and having a circular or elliptical shape, And a diffusion channel 273.

The rotary mounting portion 250 is configured such that one end of the linear portion is coupled to the connection pipe 240 so as to be movable in the left and right direction and a fixing protrusion portion formed in both directions at the other end of the linear portion is vertically It is a T-shaped structure that is fixed to move.

The apparatus for cleaning a solar cell module according to the present invention as described above can supply clean water to a solar panel by using an agricultural sprayer to cool the solar cell module and efficiently clean the solar cell module along with the solar panel, Thereby effectively improving the efficiency.

The present invention can effectively clean the photovoltaic module by cleaning the photovoltaic module contaminated by rainwater, algae secretion, pollen, dust, fine dust and water as well as cooling the photovoltaic module.

In addition, the present invention can reduce the water consumption more effectively than the conventional water supply method, and can significantly reduce the cost and time, and can prevent the local site contamination and the timely removal of the cleaning agent, Damage can be prevented.

On the other hand, since solar power generation requires a large area for power generation, it is necessary to take a considerable expense and risk to cool and clean a large-area solar power plant array. Accordingly, It is expected to contribute to the improvement, dissemination and diffusion of profitability of PV power plants through cost reduction.

FIG. 1 shows an overall configuration of a cleaning apparatus for a solar cell module using an agricultural sprayer according to an embodiment of the present invention.
2 shows a module washing machine which is a core component of a solar cell module cleaning apparatus using an agricultural sprayer according to an embodiment of the present invention.
FIG. 3 shows a coupling relationship in which the cleaning plate can be moved upward, downward, leftward, and rightward through a connection pipe and a rotary mounting portion of the module washing machine of FIG.
FIG. 4 shows a preparation state for washing on a solar panel of a solar cell module using an agricultural sprayer according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of other various forms of implementation, and that these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know completely. Wherein like reference numerals refer to like elements throughout.

It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, an apparatus for cleaning a solar cell module using an agricultural sprayer according to the present invention will be described with reference to FIGS. 1 to 4. FIG.

The solar cell module washing apparatus using the agricultural sprayer according to the present invention includes a washing water supply tank 100 having a spraying function and a module washing machine 200 detachably coupled to the washing water supplying tank 100, ).

The components constituting the wash water supply tank 100 include a hollow tank body 110 for receiving wash water therein, a tank cap 120 for supplying wash water in a detachably coupled state on the tank body 110 A pumping drive 130 for pumping the wash water supplied through the tank cap 120 in a state of being coupled on the tank body 110, a pump driving part 130 coupled to the tank body 110 via a separate fixed frame, A conveying tube 150 wound on or wounded on the take-up roll 140, an intermittent portion 160 coupled to an outer end of the conveying tube 150, (Not shown).

The module washer 200 includes a cleaning plate 210, a spray nozzle 220 detachably coupled to the interior of the cleaning plate 210, a connection pipe 220 extending outwardly from the spray nozzle 220, A flexible pipe 230 coupled to the flexible pipe 230 and a connection pipe 240 detachably coupled to the pipe 170 of the cleaning water supply tank 100 in a state of being communicably connected on the end of the flexible pipe 230, A rotation plate 250 coupled to the end of the coupling tube 240 so as to be movable in the left and right direction, a T shape on the end of the rotation plate 250 and a cleaning plate 210 fixed to move up and down, A movement guide portion 260 which is formed on the surface of the cleaning plate 210 and functions to regulate the movement of the cleaning module while being coupled to the cleaning plate 210, The cleaning flow path 270 and the cleaning plate 210, which guide the flow, Washing formed on the upper surface fabric and includes a section (280).

The cleaning plate 210 performs cleaning through a process of sliding movement along the surface of the solar cell plate in a state where the cleaning cloth 10 is wrapped. In the cleaning process, the cleaning plate 210 may be in a state in which the cleaning plate 210 can move and rotate in the up, down, left, and right directions. That is, the cleaning plate 210 can be moved up and down in a state of being coupled with the T-shaped structure at the end of the rotary mount part 250, and the connection tube 240 can be moved up and down with the rotary mount part 250 Thereby maintaining the engaged state allowing free rotation in the 360-degree direction.

This may be possible through the combination of the cleaning plate 210, the rotary mounting portion 250, the rotary mounting portion 250, and the connection pipe 240.

The injection nozzle unit 220 functions to uniformly supply the washing water supplied from the washing water supply tank onto the cleaning plate 210. The injection nozzle unit 220 includes a hollow long plate shape as a basic base, And a nozzle hole 222 formed on one side or both sides of the injection nozzle portion.

The nozzle hole 222 may be formed in a structure requiring uniform spray of wash water. Specifically, the nozzle hole 222 may be a structure used for existing farmhouses, The cleaning operation is performed on the side of the solar cell module.

The flexible tube 230 may employ a pneumatic tube which is a tube capable of providing ductility in consideration of the upward and downward and leftward and rightward flows of the module washer 200.

The connecting pipe 240 is detachably coupled to the washing water supply pipe 170. The end of the flexible pipe 230 is communicably coupled to the central portion of the connecting pipe 240, So as to be movable in the left and right direction.

The end of the rotary mount part 250 is a T-shaped structure, and one end of the linear part is coupled to the connection pipe 240 so as to be movable laterally, and at the same time, the other end of the linear part is fixed It is possible to move up and down in such a manner that the projection portion is fixed on the cleaning plate.

The movement guide unit 260 includes a hinge unit 261 coupled to the cleaning plate 210 so as to be adjustable in width and a latching protrusion 263 protrudingly coupled to the outer end of the hinge unit 261 in a bent state .

The movement guide unit 260 allows the cleaning plate 210 to move in a state where the engagement protrusion 263 is inserted into the guide groove 3 formed between the plurality of solar power generation plates 2. That is, the user can adjust the arrangement state of the movement guide part 260 by providing a predetermined rotational force on the movement guide part 260 through the locking protrusion 263. After the position of the movement guide portion 260 is changed by applying an external force, the changed state can be maintained by the holding force that is basically set on the hinge portion 261.

A pair of the guide portions 260 are symmetrically arranged on both rear sides of the cleaning plate 210 so that the hinge portions 261 extend in the longitudinal direction at both ends of the cleaning plate 210 And is thus movably bound in a state of being inserted.

The cleaning flow path 270 supports smooth flow of the cleaning water supplied in a state formed on the surface of the cleaning plate 210. Specifically, the cleaning channel 270 includes a plurality of discharge channels 271 and a plurality of discharge channels 271 each having a circular or elliptical shape connected to one side of the jetting port 211 formed to correspond to the nozzle holes 222, And a diffusion channel 273 interconnecting them. The plurality of discharge flow paths 271 may have other shapes as needed in addition to the circular or elliptical shapes.

Specifically, the plurality of discharge flow paths 271 may be arranged so as to communicate with both sides of the injection port 211, and in this state, the diffusion flow path 273 may be formed in a plurality of Thereby allowing communication between the discharge flow paths 271. Here, each of the plurality of discharge flow paths 271 has a tapered structure inclined starting from the injection port 211, thereby facilitating the movement of the supplied washing water.

Meanwhile, the cleaning flow path 270 may be formed by extending a predetermined distance in the outward direction at the intersection of the discharge path 271 and the diffusion path 273.

Hereinafter, the operation of the solar cell module cleaning apparatus using the agricultural sprayer according to the present invention will be described with reference to FIG. 1 to FIG.

The washing water contained in the tank body 110 of the washing water supply tank 100 is supplied to the module washing machine 200 through the transfer tube 150 and the supply pipe 170 through the pumping driving unit 130. Meanwhile, the user can selectively perform the process of operating the intermittent part 160 to enable the flow of the washing water.

The washing water entering the module washing machine 200 flows through the connecting tube 240, the flexible tube 230, the connecting tube 224, the spray nozzle part 220, the plurality of nozzle holes 222, And then spread on the entire surface of the cleaning plate 210 through the plurality of discharge flow paths 271 and the diffusion flow paths 273. [ In this state, the wash water is smoothly supplied onto the wash cloth 10 within a short period of time.

The cleaning cloth 10 may include a separate bonding surface for easily bonding the cleaning cloth on the cleaning plate 210. The cleaning cloth uses a cleaning mop dedicated to the glass surface to eliminate the possibility of scratches on the solar panel.

The apparatus for cleaning a solar cell module according to the present invention as described above can supply clean water to a solar panel by using an agricultural sprayer to cool the solar cell module and efficiently clean the solar cell module along with the solar panel, Thereby effectively improving the efficiency.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (5)

A wash water supply tank 100; And
And a module cleaner (200) detachably coupled to the wash water supply tank (100)
The module washer (200)
A cleaning plate 210, an injection nozzle 220 detachably coupled to the inside of the cleaning plate 210, a flexible tube 230 connected to the injection nozzle 220 in a communicative manner, A connection pipe 240 coupled to the supply pipe 170 of the wash water supply tank 100 so as to be communicably connected to an end of the pipe 230, And a movement guide unit 260 functioning to control the movement of the module cleaner 200 in a state of being coupled to the cleaning plate 210. [ Lt; / RTI >
The movement guide portion 260 includes a hinge portion 261 coupled to the cleaning plate 210 so as to be adjustable in width and a latching protrusion 262 protrudingly coupled to the outer end of the hinge portion 261 in a bent state 263)
The movement guide portions 260 are symmetrically arranged on both sides of the cleaning plate 210 so that the hinge portions 261 face the opposite ends of the cleaning plate 210 along the longitudinal direction And is movably bound in an inserted state,
The position of the movement guide unit 260 may be changed by adjusting the movement of the movement guide unit 260 in a state in which a predetermined rotational force and an external force are provided on the movement guide unit 260 through the locking protrusion 263, The movement guide unit 260 moves along the cleaning plate 210 in a state where the locking protrusion 263 is inserted into the guide groove 3 formed between the plurality of solar power generation plates 2 Here, the hinge unit 261 maintains the state changed by the holding force that is basically set,
The movement guide unit 260 is configured to move along a guide groove formed between a plurality of solar panels constituting a solar cell module to be cleaned.
Cleaning device for solar cell module using agricultural sprayer.
delete The method according to claim 1,
The solar cell module cleaning apparatus includes:
Further comprising a cleaning channel (270) formed on a surface of the cleaning plate (210) to guide the flow of cleaning water supplied through the spray nozzle unit (220)
Cleaning device for solar cell module using agricultural sprayer.
The method of claim 3,
The cleaning channel 270 includes a plurality of discharge channels 271 and a plurality of discharge channels 271 connected to one side of a jetting port 211 formed to correspond to the nozzle holes 222 and having a circular or elliptical shape, And a diffusing flow path (273)
The plurality of discharge flow paths 271 are arranged in a state of being communicated with both sides of the injection port 211 and the diffusion flow paths 273 are formed in the plurality of discharge flow paths 271,
Each of the plurality of discharge channels 271 has a tapered structure inclined starting from the jetting port 211 to facilitate the movement of the supplied washing water. The cleaning channel 270 is connected to the discharge channel 271, And the diffusion channel (273).
Cleaning device for solar cell module using agricultural sprayer.
5. The method of claim 4,
The rotary mounting portion 250 is configured such that one end of the linear portion is coupled to the connection pipe 240 so as to be movable in the left and right direction and a fixing protrusion portion formed in both directions at the other end of the linear portion is vertically A structure having a T shape that is movably fixed,
Cleaning device for solar cell module using agricultural sprayer.

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