KR101356610B1 - Cleaning method for solar photovoltaic pannel - Google Patents

Abstract

The present invention relates to a solar collecting panel cleaning apparatus for cleaning the solar collecting panel and a cleaning method thereof. In particular, the present invention is a cleaning device for spraying the washing water toward the solar light collecting panel (2); It provides a solar condensing panel cleaning device (2) and a cleaning method comprising a; a washing water supply unit 20 for supplying at least one of anion water (20A) and pure water (20B) as the washing water. .

Description

CLEANING METHOD FOR SOLAR PHOTOVOLTAIC PANNEL}

The present invention relates to a solar collecting panel cleaning apparatus for cleaning the solar collecting panel and a cleaning method thereof.

Photovoltaic power generation is a power generation method that converts sunlight directly into electrical energy using solar cells without the help of a generator. The above photovoltaic power generation uses a solar panel that is attached to several solar cells.

In order to install a solar panel, a large place where sunlight is not obscured is required. Therefore, a solar panel is generally installed in a wilderness or a roof or a wall of a building.

However, when dust accumulates on the solar light collecting panel, power generation efficiency is greatly reduced, so the solar light collecting panel needs to be cleaned cleanly from time to time. As described above, the installation location of the solar light collecting panel is poor in accessibility such as large equipments are difficult to enter and use. there is a problem.

In addition, as described above, dust accumulated in the solar light collecting panel has a great influence on the power generation efficiency, and cleaning a large number of solar light collecting panels takes considerable time and cost, so that the solar light collecting panel can be efficiently cleaned. There is an urgent need for research on the options.

The present invention has been made to solve the above problems, and an object thereof is to provide a solar condensing panel cleaning device and a method for cleaning the solar condensing panel easily and efficiently.

In order to solve the above problems, the present invention provides a washing apparatus for spraying the washing water toward the solar light collecting panel; The solar condensing panel cleaning device (2) includes a cleaning water supply unit (20) for supplying at least one of the anion water (20A) and the pure water (20B) as the cleaning water.

The cleaning device 2 may be integrally provided with a cleaner member to clean the solar panel.

The washing water supply unit 20 may include an anion water supply unit 22 for supplying the anion water 20A, and a pure water supply unit 24 for supplying the pure water 20B.

The anion water 20A may be any one of fluorine (F) and chlorine (Cl) components.

The control unit 60 controls the pure water 20B and the anion water 20A to be sprayed sequentially so that the anion water 20A can be sprayed after the solar condensing panel is cleaned by the pure water 20B. ) May be included.

The washing water supply unit 20 may further include a bubble generating unit 30 for generating bubbles in the washing water supplied to the cleaning device (2).

The pressurized air supply unit 50 may be further included to pressurize and supply air so that the pressurized air 50A may be injected through the cleaning device 2.

In addition, the present invention is a solar condensing panel cleaning method by the solar concentrating panel cleaning device (2), the pressurized air injection step (S10) for cleaning the solar condensing panel by spraying the pressurized air 50A to the solar condensing panel (S10) ; After the pressurized air spraying step (S10), the pure water spraying step (S20) for spraying pure water (20B) to the solar light collecting panel to clean the solar light collecting panel; After the pure spray step (S20), by spraying anion water (20A) to the solar condensing panel anion water spraying step (S40) for coating the solar light collecting panel with the anion water (20A); It also presents a solar panel cleaning method.

Between the pure water spraying step (S20) and the anion water spraying step (S40) may further comprise a cleaner step (S30) for wiping the solar condensing panel sprayed with the pure water (20B).

According to the present invention, the solar light collecting panel is cleaned with pure water and anion water, thereby cleaning the solar light collecting panel and preventing the dust from being easily adsorbed after washing.

1 is a block diagram of a solar collecting panel cleaning apparatus according to the present invention.
2 is a flow chart according to the solar panel cleaning method according to the invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the present invention provides a solar concentrating panel cleaning apparatus 2 for cleaning a solar concentrating panel, comprising: a washing apparatus 2 for spraying washing water toward the solar concentrating panel; The washing water may include a washing water supply unit 20 for supplying at least one of anion water 20A and pure water 20B.

That is, since pure water 20B is water containing no impurities and minerals as ionic substances have been removed, the pure water 20B is used as pure water 20B as washing water so that ionic substances do not remain in the solar collection panel from the washing water. Therefore, after cleaning the solar concentrating panel, ionic substances, organic and inorganic contaminants having high conductivity, which reduce the solar condensing efficiency, can be prevented from adsorbing to the solar concentrating panel.

Such pure water 20B can be prepared by passing general water through an ion exchange resin column, where the conductivity of pure water 20B is preferably about 10 kW / cm for cleaning the solar light collecting panel. Can be.

The anion water 20A is water in which the cation in the aqueous solution is removed and only the anion is left. The anion water 20A can be obtained by passing an aqueous solution such as general tap water 20C or ground water through an ion exchange resin. In other words, the ion exchange resin is a synthetic resin that exchanges its own ions with specific ions in the aqueous solution.In the case of the anion exchange resin, the ion exchange resin removes the anions dissolved in the aqueous solution by replacing them with anions they have. In the case of the resin, on the contrary, by removing the cations dissolved in the aqueous solution, the aqueous solution can be replaced with anionic water (20A), cationic water. For example, when a NaCl aqueous solution or a NaF ₂ aqueous solution is passed through a cation exchange resin having a solid filter structure or the like, Na ⁺ , a cation dissolved in the aqueous solution, is adsorbed and removed from the cation exchange resin, thereby obtaining fluorine and chlorine ionized water.

In particular, the anion water (20A) may be any solution if the cation is removed, but fluorine (F), chlorine (Cl) is a bactericidal effect is relatively excellent bar can be prevented adsorption of microorganisms, of the present invention It may be more preferable as the anion water 20A. Of these, fluorine has an effect of preventing the adsorption of phosphorus (P), which is a food for microorganisms, and may be particularly advantageous in terms of preventing dust adsorption.

When the solar condensing panel is cleaned using the anion water 20A, the solar condensing panel can be cleaned as the washing water, and the solar condensing panel is coated with the anion water 20A after cleaning the solar condensing panel. By the effect, dust adsorption can be prevented. That is, most of the general dust floating in the air has a negative charge, the solar panel is coated with anion water (20A), a strong repulsive force against the negatively charged dust acts, dust adsorption can be prevented.

Therefore, by using pure water (20B) and anion water (20A) as the washing water, the solar condensing panel can be cleaned cleanly, and the solar condensing panel can be prevented from becoming dirty easily by preventing dust adsorption of the solar condensing panel after cleaning. Since the solar light collecting panel does not need to be treated other than cleaning, and the cleaning period of the solar light collecting panel can be extended for a long time, maintenance and repair related to cleaning can be facilitated and cost reduction can be advantageous.

Hereinafter, the production of pure water (20B) and anion water (20A) is a matter well known in the art, such as chemistry, water purifiers, the present invention is not related to the production of pure water (20B), anion water (20A) pure water (20B) ), The cleaning of the solar light collecting panel using the anion water 20A is the ultimate purpose, and further detailed description is omitted in order not to obscure the subject matter of the present invention.

On the other hand, the washing apparatus 2 may have any structure as long as it has a nozzle for spraying the washing water, for example, a nozzle hose 12 connected to the washing water supply unit 20 to guide the washing water, and the nozzle hose. It may include a nozzle 14 connected to the end of the (12) and the cleaning water guided along the nozzle hose 12 is sprayed toward the solar panel.

The nozzle hose 12 may be made of a soft hose such as a rubber hose, may be made of a hard material such as plastic or metal tube, and may be configured to be adjustable in length for easy and efficient cleaning of the solar light collecting panel. Technical matters related to length adjustment of the nozzle hose 12 are well known in the art of hoses used in cleaners, etc., and thus detailed descriptions thereof will be omitted in order not to obscure the subject matter of the present invention.

The washing water supply unit 20 may be made of only one of the anion water supply unit 22 for supplying the anion water 20A and the pure water supply unit 24 for supplying the pure water 20B. It may be more preferable that both the anion water supply 22 and the pure water supply 24 are configured for efficient cleaning of the solar panel. Here, the pure water 20B and the anion water 20A are alternately bubbled to inject the pure water 20B and the anion water 20A to the one washing apparatus 2 and the bubble generator 30 to be described later. The flow path switching valve 4 for switching the flow path may be configured to be supplied to the generator 30 and the cleaning device 2.

Here, the anion water supply unit 22 and the pure water supply unit 24 are components for manufacturing anion water 20A and pure water 20B, respectively, and an aqueous solution to be basically changed to anion water 20A and pure water 20B. The ion exchange resins 22B and 24B are provided in the pressure vessels 22A and 24A that pass through.

On the other hand, the present invention may further include a cleaner (cleaner) member to clean the solar panel in order to more effectively remove the dust adsorbed on the solar panel. The cleaner member 40 may be any member capable of wiping the solar light collecting panel, and for example, a fibrous bundle such as a brush or a mop, an electrostatic cloth, or the like may be used. Such a cleaner member 40 may be more advantageous because it is not necessary to add a separate push rod for pushing the cleaner member 40 such that the cleaner member 40, in particular, the nozzle 14 is integrally provided.

In addition, the present invention may further include a bubble generating unit 30 for generating bubbles such as microbubbles and nanobubbles in the washing water supplied from the washing water supply unit 20 to the washing apparatus 2. Therefore, the solar condensing panel may be more efficiently cleaned by biological activity, physical chopping, and droplet effects of microbubbles generated in the washing water. Such a bubble generating unit 30 is possible in a variety of configurations according to the microbubble generating method, for example, in the bubble nozzle 32 (bubble nozzle) through which pure water (20B), anion water (20A) as shown in the ratio shown. When high-pressure air is injected, microbubbles may be generated by the physical collision of pure water 20B, anion water 20A, and high-pressure air. Hereinafter, the technical matters related to the generation of microbubbles are well known in the art such as a bathtub, a washing machine, an aquarium, and further detailed descriptions thereof will be omitted so as not to obscure the subject matter of the present invention.

In addition, the present invention may further include a pressurized air supply unit 50 for pressurizing and supplying air so that pressurized air 50A may be injected through the cleaning device 2. Therefore, the dust adsorbed on the solar light collecting panel can be easily separated by the spraying strength of the pressurized air 50A, so that the solar light collecting panel can be cleaned efficiently. Here, the pressurized air supply unit 50 may be used as an air supply unit for supplying high pressure air of the bubble generating unit 30, as shown. That is, when the air supply is pressurized and supplied to the bubble nozzle 32 in the state which interrupted supply of the pure water 20B and the anion water 20A to the bubble nozzle 32 by the opening / closing valve 6 etc., the washing | cleaning apparatus 2 is supplied. Through pure air of high pressure can be injected.

On the other hand, in the use of various cleaning elements, such as pressurized air, pure water (20B), anion water (20A), cleaner member 40, as described above, each cleaning element for a more efficient cleaning of the solar light collecting panel It may include a control unit 60 for controlling the.

That is, the control unit 60, the pressurized air injection step (S10) for cleaning the solar light collecting panel by spraying the pressurized air (50A) to the solar light collecting panel; After the pressurized air injection step (S10), the pure water spraying step (S20) for spraying pure water (20B) to the solar light collecting panel to clean the solar light collecting panel; After the pure water spraying step (S20), the cleaner step (S30) for wiping the solar condensing panel sprayed with pure water (20B) with a cleaner member (40); After the cleaner step (S30), by spraying anion water (20A) to the solar light collecting panel anion water spraying step (S40) to coat the solar light collecting panel with anion water (20A); Can be controlled.

In this way, when the cleaning method of the solar light collecting panel by various cleaning elements is controlled, the pure water in the solar light collecting panel can be easily released in a state in which dust adsorbed strongly on the solar light collecting panel is easily released by pressurized air injection. When 20B) is sprayed and the solar panel is wiped with the cleaner member 40 immediately before the pure water 20B dries, dust adsorbed on the solar panel can be easily removed, and the solar panel can be cleaned cleanly. When the anion water 20A is sprayed to the finish, the solar panel is coated with the water anion water 20A, so that dust adsorption can be prevented.

Such a solar panel cleaning apparatus 2 according to the present invention may be made of a carrier structure in which the exterior member 8 has wheels to facilitate movement.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10; Nozzle unit 12; Nozzle hose
14; Nozzle 20; Washing water supply
22; Anion water supply 24; Pure water supply
30; Bubble generator 32; Bubble nozzle
40; A cleaner member 50; Pressurized air supply

Claims (9)

A solar condensing panel cleaning method by a solar condenser panel cleaning device (2) including a pressurized air supply unit (50) for pressurizing and supplying air so that pressurized air (50A) can be injected through the cleaning device (2).
Pressurized air injection step (S10) of cleaning the solar light collecting panel by spraying the pressurized air (50A) to the solar light collecting panel;
After the pressurized air spraying step (S10), the pure water spraying step (S20) for spraying pure water (20B) to the solar light collecting panel to clean the solar light collecting panel;
After the pure spray step (S20), by spraying anion water (20A) to the solar light collecting panel anion water spraying step (S40) for coating the solar light collecting panel with the anion water (20A);
Solar condensing panel cleaning method comprising a. The method according to claim 1,
The cleaning device (2) in which cleaning water and coating liquid are sprayed toward the solar panel; Anion water supply unit 22 for supplying the anion water (20A) is the coating liquid; And a pure water supply unit (24) for supplying the pure water (20B) which is the washing water. The method according to claim 1,
The cleaning device (2) is a solar panel cleaning method, characterized in that the cleaner (cleaner) member is integrally provided to clean the solar panel. The method according to claim 1,
The anion water (20A) is any one of fluorine (F), chlorine (Cl) component solar panel cleaning method characterized in that. The method according to claim 1,
The control unit 60 controls the pure water 20B and the anion water 20A to be sprayed sequentially so that the anion water 20A can be sprayed after the solar condensing panel is cleaned by the pure water 20B. The solar condensing panel cleaning method comprising a). The method according to claim 1,
And a bubble generating unit (30) for generating bubbles in the washing water supplied to the cleaning device (2) from the washing water supply unit (20) for supplying the washing water. The method according to claim 1,
And between the pure water spraying step (S20) and the anion water spraying step (S40), further comprising a cleaner step (S30) of wiping the solar light collecting panel sprayed with the pure water (20B). delete delete

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