KR101341004B1 - A Cleaning Apparatus of Natural Energy - Google Patents

Abstract

The present invention relates to a natural energy washing apparatus, and more particularly, to a natural energy washing apparatus capable of efficiently removing contaminants attached to a solar panel that collects sunlight using a compressor body and a projection material.
Natural energy cleaning device according to an embodiment of the present invention is provided with a power supply to control the air pressure of the compressor body to spray the projection material to clean the contaminants attached to the solar panel, the cleaning unit for sucking the projection material and contaminants It supplies power to the cleaning unit, supplies the projected material stored while storing the projection material together with the compressor body to the cleaning unit, cleans the contaminants attached to the solar panel, and removes the contaminants away from the rebound projection and solar panel. Washing driving unit for recovering and separating through the washing unit and one end is connected to the washing unit and the other end is connected to the washing driving unit to supply power, washing formed with a constant diameter so that the compressor body, projection material or contaminants are supplied or supplied It includes a connection.

Description

A Cleaning Apparatus of Natural Energy

The present invention relates to a natural energy washing apparatus, and more particularly, to a natural energy washing apparatus capable of efficiently removing contaminants attached to a solar panel that collects sunlight using a compressor body and a projection material.

In general, a cover glass plate (COVER GLASS = glass plate) using tempered glass existing in the structure of a solar power generation facility and a frame (FRAME) that has been anodized to give durability to the surface of an aluminum material fixing the same have been formed.

The cover glass is a high-strength glass subjected to thermal or chemical strengthening treatment of 3.2 mm or more in thickness, and uses a transparent high tempered transparent glass having low transmittance of visible light of 88% or more, and the frame fixing the glass is made of aluminum. Among the surface treatment methodologies, popularized anodizing oxide coating treatment was adopted.

Here, both the cover glass and the frame have to be exposed to the air on the surface facing the sun and attached to the discharge of algae, yellow dust, rainwater pollen, pollen, scale, scattering dust, air pollutants and the like with prolonged use. In addition, solid cement dust and the like have been fixed to power generation facilities located near coal mines and cement factories for a long time.

In particular, during summer, as the environment is exposed to high temperature and high humidity, contaminants are relatively firmly fixed and the transmittance of solar light is significantly decreased.

As a result, the radiant heat radiated from the inside of the power generation module is blocked by the contaminants, whereby the temperature of the module is relatively increased, and the transmittance is reduced by several ten percent than when no contaminants are attached.

Therefore, as the heat radiation to the outside of the MODULE is reduced, a thermal loss of several% is caused, which ultimately lowers the photovoltaic power generation efficiency.

In order to solve the above problems, conventionally, a strong acid or a strong alkaline liquid detergent was diluted in a high pressure water and sprayed directly on the outer surface of the tempered glass plate or frame using a plurality of high pressure pumps.

When spraying in this way, it was difficult to provide a separate large-capacity water tank in advance to secure a large amount of washing water.

In addition, by using a strong alkaline or strong acid cleaner for a long time, the problem is that the tempered glass plate and the frame is quickly corroded and contaminated soil around the workplace.

The present invention has been made to solve the problems of the prior art as described above, the problem to be solved by the present invention is to efficiently contaminants attached to the solar panel for condensing the solar light using the compressor body and the projection material. It is to provide a natural energy cleaning device that can be removed.

Natural energy cleaning device according to an embodiment of the present invention is provided with a power supply to control the air pressure of the compressor body to spray the projection material to clean the contaminants attached to the solar panel, the cleaning unit for sucking the projection material and contaminants It supplies power to the cleaning unit, supplies the projected material stored while storing the projection material together with the compressor body to the cleaning unit, cleans the contaminants attached to the solar panel, and removes the contaminants away from the rebound projection material and the solar panel. Washing driving unit for recovering and separating through the washing unit and one end is connected to the washing unit and the other end is connected to the washing driving unit to supply power, washing formed with a constant diameter so that the compressor body, projection material or contaminants are supplied or supplied It includes a connection.

In addition, the washing unit is connected to the washing connection end and the compressor body injection unit for receiving and spraying the compressor body from the washing driving unit, and once the washing connection unit is connected and the compressor body is provided to the compressor body spraying unit, the projection material stored in the washing driving unit It is connected to the projection material injector, the compressor body injector, and the projection material injector which induces to be injected by the air pressure of the compressor body, and the compressor body injected from the compressor body injector and the projection material provided by the projection material injector are mixed with each other for injection. Is disposed on the washing body portion, the outer surface of the washing body portion, is operated by receiving power from the washing driving unit, the injection control unit for controlling the air pressure of the compressor body, while controlling the cross-sectional area of the compressor body injection unit is connected to the washing body portion Cleaning and cleaning unit for cleaning the contaminants attached to the solar panel through the mixed projection material and the compressor body It is disposed between the body part and the cleaning and cleaning part to clean the contaminants attached to the solar panel, and the cleaning suction part and one end connected to the cleaning cleaning part to suck the rebound projection material and the contaminants away from the solar panel. It may include a cleaning shatterproof portion to prevent leakage to the outside while cleaning the contaminants.

In addition, the injection control unit receives the power from the washing driving unit to turn on or turn off the washing power supply operation, when the washing power supply is turned on, the cross-sectional area of the compressor body injection unit by changing the position of the control button disposed on the outer surface of the washing body portion It may include a washing display to display the operation state of the air pressure control unit and the washing power supply unit and the air pressure control unit to control to change the air pressure of the compressor body.

In addition, the air pressure control unit is disposed inside the washing body portion, and is disposed at the other end of the compressor body injection unit includes a control assistant for controlling the cross-sectional area of the compressor body injection unit, the control auxiliary unit according to the position of the control button unit It may include controllable to change the cross-sectional area.

In addition, the washing driving unit is provided with a power supply unit for supplying power to the washing driving unit, a compressor body generating unit for generating a compressor body to provide a compressor body injection unit, a projection material storage unit for storing the projection material, the washing while being disposed at the bottom of the projection material storage unit An air blower that is connected to the suction unit and sprays to clean the contaminants attached to the solar panel and generates strong suction air pressure to suck rebound projected materials and contaminants away from the solar panel. A projection material separation unit which separates the projection material and the contaminants sucked through the air blower unit to provide a recyclable projection material to the projection material storage and separates the contaminants or unnecessary dust, A house where only filtered air flows out while adsorbing pollutants or unnecessary dust to prevent it from going out And a power supply unit, pressurized gas generation unit, an air blower unit, a projection material separate unit, may include a cleaning control unit for controlling the dust collection section to operate.

In addition, the washing connector is connected to the compressor body connection unit for connecting the compressor body generating unit and the compressor body injection unit, the projection material connection unit for connecting the projection material storage unit and the projection material injection unit, connecting the cleaning suction unit and the air blower, but the sucked projection material and contamination It may include a suction connection unit for providing the material to the projection material separation unit and a power connection unit for connecting the cleaning unit and the cleaning unit to supply power to the cleaning unit in the cleaning driving unit.

In addition, the diameter of the suction connection may include that formed longer than the diameter of the compressor body connection or the diameter of the projection material connection.

In addition, the compressor body generating unit may include being separated or fastened to the washing driving unit.

In addition, the cleaning shatterproof portion may be formed of a soft BRUSH or PAD to prevent the scratches generated in the solar panel at the same time to prevent the rebound projection material to be scattered to the outside.

In addition, the projection material includes at least one or more of reusable waste plastic particles, waste vegetable-based particles, waste rubbers, and waste foaming sponges by appropriately RECYCLING the waste resources discarded, and the Mohs hardness of the projection material includes 4.5 or less. can do.

In addition, the thickness of the projection material particles may include those having a particle size of 0.1mm or more and 3mm or less.

The washing driving unit may further include a display unit displaying an operation state of the washing driving unit and a warning unit generating a warning signal when an abnormality occurs in the washing driving unit.

Natural energy washing apparatus according to an embodiment of the present invention has an effect that can effectively remove the contaminants attached to the solar panel that collects sunlight by using the compressor body and the projection material.

In addition, the natural energy cleaning device according to an embodiment of the present invention easily removes contaminants attached to the solar panel that collects sunlight by using a compressor material and a projection material, which is a natural material, and contaminates the surrounding environment. It can be prevented beforehand to have an effect.

1 is a block diagram of a natural energy washing apparatus according to an embodiment of the present invention.
Figure 2 is a block diagram of a washing unit according to an embodiment of the present invention.
3 is a block diagram of a washing driving unit according to an embodiment of the present invention.
Figure 4 is a block diagram of a washing connection according to an embodiment of the present invention.
5 is a block diagram of a washing control unit according to an embodiment of the present invention.
6 is a perspective view of a washing unit according to an embodiment of the present invention.
Figure 7 is a side view of the washing unit according to an embodiment of the present invention.
8 is a front view of the washing unit according to an embodiment of the present invention.
9 is an operation of the washing control unit according to an embodiment of the present invention.
10 is a perspective view of a washing driving unit according to an embodiment of the present invention.
11 is a front view of the washing driving unit according to an embodiment of the present invention.
12 is a side view of the washing driving unit according to an embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings, with reference to the parts necessary for understanding the operation and operation according to the present invention.

1 to 12, the natural energy cleaning device 1000 according to an embodiment of the present invention is configured to include a washing unit 100, the washing driving unit 300 and the washing connection unit 500.

The washing unit 100 receives power to control the air pressure of the compressor to spray the projection material to clean the contaminants attached to the solar panel, and suck the projection material and the contaminants. The cleaning unit 100, the compressor body injection unit 110, the projection material injection unit 120, the washing body 130, the cleaning cleaning unit 140, the cleaning suction unit 150 cleaning scattering prevention unit 160 , The injection control unit 170 is configured.

The compressor body injection unit 110 is connected to the washing connection unit 500 and one end is supplied with the compressor body from the washing driving unit 300 and sprayed. One end of the compressor body injection unit 110 may be connected to the compressor body connection unit 510 to be described later, and may be supplied with a compressor body generated by the washing driving unit 300 to be described later. The diameter of the other end of the compressor body injection unit 110 may be formed smaller than the diameter of one end. This is to prevent the pressure of the compressor body provided through the compressor body connecting part 510 from being lowered and thus lowering the speed of the injected compressor body.

The projection material injection unit 120 guides the projection material stored in the cleaning driving unit 300 to be injected by the air pressure of the compressor when the compressor body is provided to the compressor body injection unit 110. One end of the projection material injection unit 120 is connected to the projection material connection unit 520 to be described later, the projection material stored in the cleaning driving unit 300 may be injected through the projection material connection unit 520 by the air pressure of the compressor body. .

Here, the projection material injection unit 120 may have a larger diameter than the compressor body injection unit 110. That is, the projection material injection unit 120 may have a larger diameter than the compressor body injection unit 110 in order to easily inject the projection material made of a predetermined size.

The cleaning body 130 is connected to the compressor body injection unit 110 and the projection material injection unit 120 to connect the projection material injected from the compressor body injection unit 110 and the projection material provided by the projection material injection unit 120. Sprayed by mixing with each other. The cleaning body 130 may allow the projection material injection unit 120 to be positioned at a position adjacent to the compressor body injection unit 110. In this way, the compressor body sprayed by the compressor body injection unit 110 easily sprays the projection material provided by the projection material injection unit 120 by the air pressure of the compressor body, and evenly mixes the washing body unit 130. It can be sprayed quickly to the other end of).

The injection control unit 170 is disposed on an outer surface of the washing body 130 and operates by receiving power from the washing driving unit 300, while controlling the cross-sectional area of the compressor body injection unit 110 to change the air pressure of the compressor body. To control. The washing control unit 170 may include a washing power supply unit 171, an air pressure controller 172, and a washing display unit 173.

The washing power supply unit 171 receives power from the washing driving unit 300 to turn on or turn off. The washing power unit 171 may be formed of at least one button. In this case, as shown in FIG. 8, the washing power unit 171 may be formed as one button and may move left and right and may turn on or turn off.

In addition, the cleaning power supply unit 171 is not limited thereto, but may be formed of a turn on button and a turn off button, although not shown. That is, the cleaning power source 171 may be formed in any shape as long as it can turn on or turn off.

When the washing power supply unit 171 is turned on, the pneumatic control unit 172 changes the position of the control button unit 172a disposed on the outer surface of the washing body unit 130 so as to compress the compressor body 110. The air pressure of the compressor body is controlled by controlling the cross-sectional area of the compressor body to be different.

In this case, the control button unit 172a may be formed of at least one button. As shown in FIG. 8, the control button unit 172a may be formed of one button to move up and down to control the air pressure strength of the compressor body as a heavy weight. In other words, when the control button portion 172a is located at "strong", the air pressure strength of the compressor body is counted. If it is located at "middle", the air pressure strength of the compressor body is medium. May weaken. In addition, the control button unit 172a is not limited thereto, but may be formed of a "strong" button, a "medium" button, and a "weak" button, although not shown. That is, the control button unit 172a may be formed in any shape as long as it can control the air pressure strength of the compressor body.

In addition, the air pressure control unit 172 is disposed inside the cleaning body 130, the control auxiliary unit 172b for controlling the cross-sectional area of the compressor body injection unit 110 is disposed at the other end of the compressor body injection unit 110 ), And the control auxiliary unit 172b may include a control unit so that the cross-sectional area of the compressor body injection unit 110 varies according to the position of the control button unit 172a. As shown in FIG. 9, in FIG. 9A, the control button part 172a is positioned at "about" to widen the cross-sectional area of the compressor body injection part 110 to relatively weaken the air pressure of the compressor body. In FIG. 9B, the control button part 172a is positioned at the “steel” to reduce the cross-sectional area of the compressor body injection part 110, thereby relatively increasing the air pressure of the compressor body.

The washing display unit 173 displays an operating state of the washing power supply unit 171 and an operating state of the air pressure controller 172. Since the washing display unit 173 is formed, it is possible to easily check the operating state of the washing power supply unit 171 and the operating state of the air pressure control unit 172 to quickly and accurately grasp the operating state of the washing unit 100.

The cleaning cleaning unit 140 is connected to the cleaning body 130 to clean the contaminants attached to the solar panel through the mixed projection material and the compressor body. The washing and cleaning unit 140 maintains a predetermined distance from the solar panel, and may spray the mixed compressor body and the projection material sprayed through the washing body 130 to the solar panel. As such, the contaminants attached to the solar panel are removed by the mixed compressor body and the projection material sprayed from the cleaning and cleaning unit 140. That is, dust, soil, algae excretion, and the like, which are buried in the solar panel, can be easily washed through a mixture of contaminants and projection materials.

The cleaning suction unit 150 is disposed between the cleaning body 130 and the cleaning cleaning unit 140 to clean the contaminants attached to the solar panel and suck the contaminants away from the rebound projection material and the solar panel. The cleaning suction unit 150 is to clean the contaminants and contaminants washed in the solar panel and to strongly suck the rebound projection material, it is possible to prevent the pollutants and projection material from leaking to the outside, so that the surrounding of the solar panel It can be prevented from secondary contamination.

At this time, the washing suction unit 150 is disposed between the washing body 130 and the washing cleaning unit 140, it is fastened in a diagonal direction with the washing body 130. As described above, the washing suction unit 150 is obliquely fastened to the washing body 130, whereby the projection material and the compressor body are sprayed to the washing cleaning unit 140 and the contaminants washed by the washing cleaning unit 140. And overlapping paths through which the rebound projection material is sucked can be minimized.

Accordingly, the cleaning body 130 may spray the compressor body and the projection material through the compressor body injection unit 110 and at the same time easily suck the contaminants and the rebound projection material through the cleaning suction unit 150. .

In addition, the washing suction unit 150 is fastened obliquely to the washing body 130, it can be used as a handle of the natural energy washing device 1000 according to the embodiment of the present invention as shown in FIG. 5.

The cleaning scatter prevention unit 160 is connected to the cleaning cleaning unit 140 to prevent the compressor body and the projection material from leaking out while washing the contaminants. The cleaning scattering prevention unit 160 may be formed of a brush or a pad to prevent the projection material and contaminants from splashing to the outside. That is, the cleaning scatter prevention unit 160 may be formed of a soft BRUSH or PAD to prevent the scratches generated in the solar panel and to prevent the sprayed projection material from scattering to the outside. As described above, by preventing scratches from occurring in the solar panel, it is possible to prevent the efficiency of the solar panel from being reduced.

The washing driving unit 300 stores the projection material, provides the stored projection material to the cleaning part 100 together with the compressor body, cleans the contaminants attached to the solar panel, and contaminants separated from the rebound projection material and the solar panel. Recover and separate through the washing unit (100).

The washing driving unit 300 includes a power supply unit 310, a compressor body generating unit 320, an air blower unit 340, a projection material separating unit 360, a projection material storing unit 330, a dust collecting unit 350, and a washing control unit. 370 is configured.

The power supply unit 310 provides power to the washing driving unit 300. The power supply unit 310 receives commercial power from the outside and converts the washing driving unit 300 to operate stably, and then provides them to each component of the washing driving unit 300.

Here, the power supply unit 310 describes only receiving commercial power from the outside, but is not limited thereto. Although not illustrated, the power supply unit 310 may further include a power storage unit (not shown) to receive and convert the commercial power to provide the stored power. You may. Here, the power storage unit (not shown) may include a battery.

The compressor body generator 320 generates a compressor body and provides the compressor body to the compressor body injection unit 110. The compressor body generating unit 320 may receive power from the power supply unit 310 to generate a strong air pressure to generate the compressor body. That is, the compressor body generated by the compressor body generating unit 320 may be strongly injected to the compressor body injection unit 110 through the compressor body connecting unit 510 to be described later with a strong air pressure.

In addition, the compressor body generating unit 320 may operate separately from the washing driving unit 300. Although not shown, the compressor body generating unit 320 may be fastened to the sieve driving unit or operated separately. That is, the compressor body generator 320 may be utilized in various ways.

The projection material storage unit 330 stores the projection material. The projection material storage unit 330 may receive and store the projection material from the outside, or may store the projection material separated through the projection material separation unit 360 to be described later. At this time, the projection material separated from the projection material separating unit 360 may be a projection material having a thickness and Mohs hardness of the particles that can wash the solar panel.

At this time, the projection material includes at least one or more of reusable waste plastic particles, waste vegetable-based particles, waste rubbers, and waste foam sponges by appropriately recording the waste resources discarded, and the Mohs hardness of the projection materials is 4.5 or less. can do.

In addition, the thickness of the projection material particles may include those having a particle size of 0.1mm or more and 3mm or less.

In other words, the projection material is discarded while producing rubber products such as O-RING, soft and thin non-toxic PLASTIC particles having a Mohs hardness of 4.5 or less, in order not to damage the surface of the solar panel having a surface hardness of about 6.0. Rubber SCRAP can be used.

In this case, the projection material may be pulverized to 0.1 mm or more and 3 mm or less, which is the thickness of the appropriate particles, using a nitrogen-cooled crusher or a special crusher, or may be used as a plant-based rice material that is naturally generated and easily obtained in a mill. Accordingly, eco-friendly and economical efficiency can be improved.

The air blower 340 is disposed at the bottom of the projection material storage unit 330 and is connected to the cleaning suction unit 150, and sprayed to clean the contaminants attached to the solar panel and separated from the rebound projection material and the solar panel. Generates strong suction air pressure to inhale contaminants. The air blower 340 generates a strong suction air pressure to quickly suck the pollutant and the rebound projection material, thereby preventing the pollutant and the projection material from being emitted to the outside.

In addition, the air blower 340 may suck the contaminant and the projection material and provide it to the projection material separation unit 360 to be described later.

The projection material separating part 360 is disposed on the upper part of the projection material storage part 330 and separates the projection material sucked through the air blower part 340 and the contaminants and recycles the projection material into the projection material storage part 330. To provide and release pollutants or unnecessary dust. The projection material separating unit 360 separates the projection material and the contaminant sucked through the air blower 340, and may separate the recyclable projection material and the non-recyclable projection material from the sucked projection material. That is, the projection material may hit the contaminants attached to the solar panel together with the strong compressed gas. As such, the projection material may be broken by the impact generated when the solar panel is strongly struck.

Accordingly, the projection material separating unit 360 may provide a projection material that is not easily broken and recycled together with the contaminants to the dust collecting unit 350 to be described later, and provide the recyclingable projection material to the projection material storage unit 330. have.

The dust collecting unit 350 adsorbs contaminants or unnecessary dust separated from the projection material separating unit 360 and prevents outflow to the outside while preventing the outflow to the outside. The dust collecting unit 350 may minimize the outflow to the outside by adsorbing the contaminants, non-recyclable projecting materials, or unnecessary dust provided and separated through the projection material separating unit 360. That is, the dust collecting unit 350 may filter the air contained in the pollutant, dust, and the like and flow out only the purified air to the outside, thereby making the surrounding environment more comfortable.

The washing control unit 370 controls the power supply unit 310, the compressor body generating unit 320, the air blower unit 340, the projection material separating unit 360, and the dust collecting unit 350 to operate. The washing control unit 370 operates by receiving power from the power supply unit 310 so that the compressor body generating unit 320, the air blower unit 340, the projection material separating unit 360, and the dust collecting unit 350 spray the compressor body. And, it can be controlled to suck the projection material and contaminants, and to separate the sucked projection material and contaminants well.

In addition, the washing driving unit 300 may further include a display unit 380 for displaying an operation state of the washing driving unit 300 and a warning unit 390 for generating a warning signal when an abnormality occurs in the washing driving unit 300. Can be. As such, by further including the display unit 380 and the warning unit 390, the user can easily check the operation state of the natural energy cleaning device 1000, as well as failure or abnormality of the natural energy cleaning device 1000. You can quickly detect the condition. Accordingly, the natural energy washing device 1000 may be utilized more efficiently.

In addition, the washing driving unit 300 may include a moving unit 400 to facilitate the movement.

In addition, the washing driving unit 300 may include a washing connection fastening unit 410 to smoothly fasten with the washing connection unit 500 to be described later.

The washing connection part 500 is formed with a constant diameter so that one end is connected to the washing part 100 and the other end is connected to the washing driving part 300 so that the compressor body, the projection material, or the pollutant is supplied or supplied. The washing connection part 500 may include a compressor body connection part 510, a projection material connection part 520, and a suction connection part 530.

The compressor body connecting unit 510 connects the compressor body generating unit 320 and the compressor body injection unit 110. The compressor body connection part 510 may be formed of a tube made of rubber, vinyl, cloth, or the like that can be freely bent so that the compressor body may be injected into the compressor body injection unit 110 with a strong air pressure.

The projection material connection unit 520 connects the projection material storage unit 330 and the projection material injection unit 120. The projection material connection portion 520 may be formed of a tube made of rubber, vinyl, cloth or the like that can be bent freely substantially the same as the compressor body connection portion 510. In this case, the projection material connection part 520 is preferably formed to a diameter larger than the diameter of the compressor body connection part 510 so that the projection material having a predetermined particle size can be efficiently supplied.

The suction connection part 530 connects the cleaning suction part 150 and the air blower part 340 to connect the suctioned projection material and the contaminant to the projection material separation part 360. The suction connector 530 may be formed of a tube made of rubber, vinyl, cloth, or the like that can be bent freely substantially the same as the compressor body connector 510. In this case, the diameter of the suction connection part 530 may be longer than the diameter of the compressor body connection part 510 or the diameter of the projection material connection part 520.

As such, by forming the suction connection part 530, the contaminant and the rebound projection material may be sucked more quickly, thereby preventing the pollutant and the projection material from leaking out to the outside.

Looking at the operation of the natural energy cleaning device 1000 according to an embodiment of the present invention described so far as follows.

When the compressor body is injected into the washing body 130 with a strong air pressure from the compressor body generating unit 320, the projection material stored in the projection material storage unit 330 is guided to the washing body 130 by the strong air pressure and the compressor body. Can be. Accordingly, the compressor body and the projection material may be mixed and sprayed onto the solar panel through the washing body 130 and the washing cleaning unit 140.

Here, when the projection material strongly sprayed together with the compressor body touches the surface of the solar panel, the kinetic energy loaded on the projection material may be transmitted as a strong impact energy to the contaminants fixed on the surface of the solar panel.

In this way, the sprayed projection material strongly impacts the contaminants attached to the solar panel, so that the contaminants are easily dusted and easily decomposed at the same time, and the adhered contaminants can be very easily separated and removed from the surface of the solar panel. have.

The projection material rebounded from the solar panel is strongly sucked into the air blower 340 through the cleaning suction unit 150, which is a handle of the natural energy cleaning device 1000, together with the contaminants separated from the solar panel, thereby removing the projection material separation unit 360. Is provided).

The projection material and the contaminants provided to the projection material separation unit 360 may be separated and recycled to the projection material storage unit 330, and the contaminants and the non-recyclable projection material may be provided to the dust collector 350. .

In addition, the cleaning scattering unit 150 may be formed in the cleaning cleaning unit 140, the cleaning scattering prevention unit 160 formed of soft BRUSH or PAD to be sucked more efficiently. As such, since the cleaning scattering prevention unit 160 is formed, the protective wall may serve as the projection material and the contaminants so as not to leak out of the cleaning unit 100. In addition, fresh air can be easily introduced from the outside, and contaminants and projection materials can be more strongly sucked into the air blower 340.

By using the compressor body and the projection material in this way, it is possible to easily and efficiently remove the contaminants adhering to the solar panels that collect sunlight.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

100: washing unit 110: compressor body injection unit
120: projection material injection unit 130: cleaning body portion
140: cleaning cleaning unit 150: cleaning suction unit
160: cleaning shatterproof unit 170: spray control
171: washing power unit 172: air pressure control unit
172a: control button unit 172b: control assistant
173: washing display unit 300: washing driving unit
310: power supply unit 320: compressor body generation unit
330: projection material storage unit 340: air blower
350: dust collecting unit 360: projection material separating unit
370: washing control unit 380: display unit
390: warning unit 500: cleaning connection
510: compressor body connection portion 520: projection material connection portion
530: suction connection

Claims (12)

A washing unit which receives power to clean the contaminants attached to the solar panel by spraying the projection material while controlling the air pressure of the compressor body, and sucking the projection material and the contaminants;
Providing the power to the cleaning unit and providing the projected material stored while storing the projection material together with the compressor body to the cleaning unit, washing the contaminants attached to the solar panel, and rebounding the projection material. And a washing driving unit for recovering and separating the contaminants separated from the solar panel through the washing unit. And
One end is connected to the washing unit and the other end is connected to the washing driving unit to supply the power, the washing connector formed while having a constant diameter so that the compressor body, the projection material or the pollutant is supplied or supplied; includes; ,
The washing unit
A compressor body injection unit connected to one end of the washing connection unit and spraying the compressor body from the washing driving unit;
A projection material injection unit which is connected to one end of the washing connection unit and guides the projection material stored in the cleaning driving unit to be injected by air pressure of the compressor body when the compressor body is provided to the compressor body injection unit;
A washing body part connected to the compressor body spraying unit and the projection material spraying unit to mix and spray the compressor body sprayed from the compressor body spraying unit and the projection material provided by the projecting material spraying unit;
An injection control unit disposed on an outer surface of the washing body and operated by receiving power from the washing driving unit, controlling the air pressure of the compressor body while controlling the cross-sectional area of the compressor body injection unit to be changed;
A washing and cleaning unit for washing the contaminants attached to the solar panel through the projection material and the compressor body, which are connected and mixed with the washing body;
A cleaning suction part disposed between the cleaning body part and the cleaning cleaning part to wash the contaminants attached to the solar panel and suck the rebounded projection material and the contaminants away from the solar panel; And
One end is connected to the cleaning cleaning unit, the natural energy cleaning device comprising a; scattering prevention unit for preventing the compressor body and the projection material from leaking to the outside while cleaning the contaminants.
delete The method according to claim 1,
The injection control unit
A washing power supply unit which receives power from the washing driving unit and turns on or off;
An air pressure controller for controlling the air pressure of the compressor body by controlling the cross-sectional area of the compressor body injection part to be changed by changing the position of the control button disposed on the outer surface of the washing body part when the washing power source is turned on; And
And a washing display unit which displays an operating state of the washing power supply unit and an operating state of the air pressure control unit.
The method according to claim 3,
The air pressure control unit is disposed in the cleaning body portion, and is disposed on the other end of the compressor body injection unit includes a control assistant for controlling the cross-sectional area of the compressor body injection unit,
The control auxiliary unit is a natural energy cleaning device that can control the cross-sectional area of the compressor body injection unit according to the position of the control button unit.
The method according to claim 1,
The washing drive unit
A power supply unit providing power to the washing driving unit;
A compressor body generating unit generating the compressor body and providing the compressor body to the compressor body injection unit;
A projection material storage unit for storing the projection material;
Disposed at the bottom of the projection material storage unit, connected to the cleaning suction unit, and sprayed to clean the contaminants attached to the solar panel and suck the rebounded projection material and the contaminants away from the solar panel. An air blower generating a strong suction air pressure;
Separation is disposed on the top of the projection material storage unit to separate the projection material and the contaminant sucked through the air blower to provide the recyclable projection material to the projection material storage unit and to discharge the pollutants or unnecessary dust A projection material separating unit;
A dust collecting unit which discharges only filtered air to the outside while adsorbing the contaminants or unnecessary dust separated from the projection material separating unit and preventing them from leaking out; And
And a washing control unit for controlling the power supply unit, the compressor body generating unit, the air blower unit, the projection material separating unit, and the dust collecting unit to operate.
The method of claim 5,
The washing connection
A compressor body connecting unit connecting the compressor body generating unit and the compressor body injection unit;
A projection material connection unit connecting the projection material storage unit and the projection material injection unit;
A suction connection part connecting the cleaning suction part and the air blower part to provide the suctioned projection material and the contaminant to the projection material separating part; And
And a power connection unit connecting the washing driving unit and the washing unit to supply the power to the washing unit in the washing driving unit.
The method of claim 6,
And a diameter of the suction connection part is longer than a diameter of the compressor body connection part or a diameter of the projection material connection part.
The method of claim 5,
The compressor body generating unit is a natural energy washing device comprising being separated or fastened to the washing driving unit.
The method according to claim 1,
The cleaning scattering prevention unit is a natural energy cleaning device comprising a soft BRUSH or PAD is sprayed to prevent the scratch generated in the solar panel at the same time to prevent the rebound the projection material to be scattered to the outside.
The method according to claim 1,
The projection material includes at least one or more of waste plastic particles, waste vegetable-based particles, waste rubbers, and waste foam sponges that can be properly recycled to waste materials discarded.
Mohs' hardness of the projection material is a natural energy cleaning device comprising a 4.5 or less.
12. The method of claim 10,
The natural energy cleaning device comprising a particle size of the projection material particles having a particle size of 0.1mm or more and 3mm or less.
The method of claim 5,
The washing driving unit further includes a display unit for displaying an operation state of the washing driving unit and a warning unit for generating a warning signal when an abnormality occurs in the washing driving unit.

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