WO2013154372A1 - Dry-type automatic dust removal apparatus for solar photovoltaic panels - Google Patents

Abstract

The present invention relates to a dry-type automatic dust removal apparatus for solar photovoltaic panels and, more specifically, to a dry-type automatic dust removal apparatus for solar photovoltaic panels which can automatically clean in a dry fashion as moving along rails so as to remove dust or foreign substances accumulating on the surfaces of solar photovoltaic panels, thereby significantly increasing solar photovoltaic efficiency, and the application of which is simple as is provided in a module form. The automatic cleaning apparatus for solar photovoltaic panels is easy to install as is dry-type and thus does not require additional facilities such as a water pipe. Albeit dry-type, the present invention utilizes a fan and thus does not require an additional air pump or air pipe, thereby enabling easy installation. In addition, the present invention uses own electricity thereof which is generated from sunlight, and is operated merely by the simple operation of the fan, thereby costing a small amount for operation. Further, the present invention can be fabricated in a module form and thus can be easily assembled in accordance with sizes and be installed.

Description

Dry Automatic Dust Removal Device for Photovoltaic Panel

The present invention relates to a dry automatic dust removal device for a photovoltaic panel, and more particularly, to dry and automatically clean while transporting along a rail to remove dust or foreign matter accumulated on the surface of the photovoltaic panel. The present invention relates to a dry automatic dust removal device for a photovoltaic panel that can greatly improve photovoltaic efficiency and is easily applied in a modular form.

As environmental issues become important around the world, various researches using clean energy, solar energy, are being conducted.

In particular, the method of using solar heat among solar energy is to use hot water by heating water with solar heat, and the method of using solar light among solar energy is photovoltaic phenomenon by forming solar photovoltaic panels (PV panels). There is a way to produce and use electricity.

The photovoltaic panel used to produce electricity from the solar is made of a ceramic material, is installed obliquely by a certain size to receive the best sunlight, or is formed to rotate along the direction the sun moves. .

The photovoltaic panel is shielded by accumulation of dust or foreign matter, which causes a decrease in power generation performance of at least 10 to 40%, and in some cases, the operation of the power generation facility may be stopped.

In order to solve the above problems, the photovoltaic panel may be manually washed with water, but the photovoltaic panel is fragile because it is a ceramic material, and is difficult to clean due to its large size.

There is provided an automatic washing device for a photovoltaic panel that can automatically clean the photovoltaic panel, using a brush and an air pump on the body to be transported along the rail provides a method for cleaning the surface of the photovoltaic panel. do.

Conventional technology related to an automatic cleaning device for a photovoltaic power generation panel has been disclosed in the Republic of Korea Patent Publication No. 2009-0062076, 2009-0046478, Patent No. 1033443 and the like.

However, the conventional automatic washing device for photovoltaic panels has the following problems.

(1) In the case of wet, the facility is very complicated, such as a separate water pipe and a pump. In winter, there is a risk of freezing.

(2) In the case of dry, the facility is very complicated, such as installing an air pump and installing an air pipe and a rotary brush.

(3) The operation of the device is expensive and must be manufactured separately according to the type of photovoltaic panel.

In order to solve the above problems, the present invention is a rail is formed in each of the upper and lower ends of the photovoltaic panel, a plurality of operating modules are formed on the top of the carriage that can be transported along the rail is formed by being coupled to each other in the vertical direction,

The operation module is formed with a left and right frame having a curved rectangular frame, a plurality of fans are formed in the middle of the left and right frames are integrally connected to each other, the left and right frames are characterized in that the rotating brush is formed respectively.

According to the dry automatic dust removal apparatus for photovoltaic panels of the present invention the following effects occur.

(1) Since it is dry, installation is easy because there is no need for additional facilities such as water pipes.

(2) It is dry, but it uses a fan, so it does not need a separate air pump or air pipe, so it is easy to install.

(3) Because it uses its own electricity generated by solar light and is operated by simple fan operation, operation cost is low.

(4) Since it can be manufactured in the form of a module, it can be easily assembled according to the size, and can be easily installed even where a photovoltaic panel is already installed.

1 is a perspective view of a dry automatic dust removal apparatus for a photovoltaic panel formed in a preferred embodiment of the present invention.

Figure 2 is a perspective view of the operation module of the dry automatic dust removal apparatus for a photovoltaic panel formed in a preferred embodiment of the present invention.

Figure 3 is a front view of the operation module of the dry automatic dust removal apparatus for a photovoltaic panel formed in a preferred embodiment of the present invention.

Figure 4 is a side view of the installation of a dry automatic dust removal apparatus for a photovoltaic panel formed by a preferred embodiment of the present invention.

Figure 5 is an enlarged P portion of the dry automatic dust removal apparatus for a photovoltaic panel formed in a preferred embodiment of the present invention.

Figure 6 is an enlarged P portion showing another form of the carriage of the dry automatic dust removal apparatus for a photovoltaic panel formed by a preferred embodiment of the present invention.

Figure 7 is an installation state of the dry automatic dust removal device for a photovoltaic panel formed in a preferred embodiment of the present invention.

According to the present invention, rails 10 are respectively formed on upper and lower ends of the photovoltaic panel 1, and a plurality of operation modules 100 are disposed on an upper end of the carriage 30 which can be transported along the rails 20. Are formed by combining with each other,

The operation module 100 has a left and right frame (110, 120) is formed in a curved rectangular frame, a plurality of fans 130 are formed in the center of the left and right frame (110, 120) are integrally connected to each other, the left and right frame Rotating brushes 112 and 122 are formed at 110 and 120, respectively.

The photovoltaic panel 1 is formed in a rectangular shape, and a plurality of the top, bottom, left, and right sides are fixed side by side by a fixing frame. As shown in FIG. Is formed.

The rail 10 is installed in the fixed frame (2) for fixing the upper and lower ends of the photovoltaic panel (1),

'Is formed into a shape.

One end of the rail 10 is formed up to the inside of the storage box 50 which is formed to protrude side by side up and down with the photovoltaic panel 1, the storage 50 is the entire dry automatic dust removal device after operation It is transported and stored along the rail 10.

The carriage 30 has a body carriage 31 formed at an upper end thereof, and a null carriage 32 formed at a lower end thereof so as to be transported along the rails 10 formed at upper and lower ends of the photovoltaic panel 1.

The carriage 30 is formed at the upper end and the lower end of the fixed frame 2 for fixing the photovoltaic panel 1, the upper end of the rail 10, the body carriage 31 is the rail 10 at the lower end The roller 33 is guided is formed, the wheel 32 to be rotated by the motor on the upper surface (see Fig. 5) or the side (see Fig. 6) of the fixed frame 2 to be spaced apart from the roller 33 Is formed.

The null carriage 32 is formed in a structure similar to the body carriage 31, the motor is not formed therein, the operation module 100 along the rail 10 in accordance with the transfer of the body carriage 31 at the bottom It is formed to guide.

The outer shape of the carriage 30 may be formed in the shape of a car, respectively, so that two cars may be drawn as if driving the operation module 100 when automatically washing.

A power supply for supplying power may be formed inside the body carriage 31, and a charging battery may be formed therein.

The carriage 30 is connected by the operation module 100 and the fixing means 140, the power is formed inside the fixing means 140.

The carriage 30 may be provided with a power supply device for supplying power by supplying power through a wire installed along a rail, or a charging battery may be formed to supply power to the operation module 100.

The operation module 100 is formed to be connected to each other by the fixing means 140.

The operation module 100 has a plurality of fans 130 are formed in the center of the left and right frame (110, 120) is formed symmetrically.

The fan 130 is formed of a direct-current motor, at least three to five are suitable, at least one is formed in a different direction to rotate, the operation module 100 and the solar energy generation by the operation of each fan 130 It is formed so that the air between the surfaces of the panel 1 can be pushed out or sucked in from the outside.

The left and right frames 110 and 120 of the operation module 100 are formed symmetrically with each other, and are formed by bending a rectangular frame in a curved line, and brush fixing grooves 114 and 124 are formed at the upper and lower ends, respectively.

Rotating brushes 112 and 122 are fixed to the brush fixing grooves 114 and 124, respectively. The brushes 112 and 122 are formed in a cylindrical shape, and are formed by attaching hairs of synthetic resin material capable of generating static electricity.

The rotary brushes 112 and 122 are formed to rotate by the operating motors 116 and 126 formed on the left and right frames 110 and 120, respectively.

The operation motors 116 and 126 may be formed at ends of the shafts of the rotary brushes 112 and 122.

Hereinafter, the operation of the dry automatic dust removal apparatus for a photovoltaic panel formed according to a preferred embodiment of the present invention.

Forming a storage box 50 on the side of the photovoltaic panel 1, the rail 10 is installed, and installs a dry automatic dust removal device to be included in the storage box (50).

The dry automatic dust removal device fixes the rollers 33 of the carriage 30 composed of a body carriage 31 and a null carriage 32 which can be transported along the upper and lower rails 10, respectively, in the rail 10. By using the fixing means 140, a plurality of operation modules 100 are connected to each other.

The operation module 100 is fixed as if floating on the surface of the photovoltaic panel 1 by the rotary brush (112, 122).

When the body carriage 31 is operated automatically or manually, the wheels 32 of the body carriage 31 move forward to remove dust and foreign substances on the surface of the photovoltaic panel 1.

At this time, the operation motors 116 and 126 simultaneously operate, the brushes 112 and 122 rotate, and the fan 130 operates to blow out dust or foreign matter on the surface.

Dry automatic dust removal device of the present invention is mainly suitable for installation in a dusty desert, wilderness, etc., and is formed to operate automatically to remove dust and foreign matter on the surface of the photovoltaic panel 1 once or twice a day. It is formed to be.

According to the solar cell panel automatic washing device of the present invention is easy to install because it does not require a separate facility, such as a water pipe, and dry, but using a fan, it is easy to install because it does not require a separate air pump or air pipe In addition, since it uses its own electricity generated by solar light and is operated by simple fan operation, it not only requires a low operating cost but also can be manufactured in a module form, so that it can be easily assembled and installed according to its size. Occurs.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications may be made therein without departing from the scope of the invention, which is covered by the following claims.

According to the present invention, rails 10 are respectively formed on upper and lower ends of the photovoltaic panel 1, and a plurality of operation modules 100 are disposed on an upper end of the carriage 30 which can be transported along the rails 20. Are formed by combining with each other,

The operation module 100 is formed with left and right frames 110 and 120 having a curved rectangular frame, and a plurality of fans 130 are formed in the center of the left and right frames 110 and 120 to be integrally connected to each other. Rotating brushes 112 and 122 are formed at 110 and 120, respectively.

The photovoltaic panel 1 is formed in a rectangular shape, and a plurality of the top, bottom, left, and right sides are fixed side by side by a fixing frame. As shown in FIG. Is formed.

The rail 10 is installed in the fixed frame (2) for fixing the upper and lower ends of the photovoltaic panel (1),

'Is formed into a shape.

One end of the rail 10 is formed up to the inside of the storage box 50 which is formed to protrude side by side up and down with the photovoltaic panel 1, the storage 50 is the entire dry automatic dust removal device after operation It is transported and stored along the rail 10.

The carriage 30 has a body carriage 31 formed at an upper end thereof, and a null carriage 32 formed at a lower end thereof so as to be transported along the rails 10 formed at upper and lower ends of the photovoltaic panel 1.

The carriage 30 is formed at the upper end and the lower end of the fixed frame 2 for fixing the photovoltaic panel 1, the upper end of the rail 10, the body carriage 31 is the rail 10 at the lower end The roller 33 is guided is formed, the wheel 32 to be rotated by the motor on the upper surface (see Fig. 5) or the side (see Fig. 6) of the fixed frame 2 to be spaced apart from the roller 33 Is formed.

The null carriage 32 is formed in a structure similar to the body carriage 31, the motor is not formed therein, the operation module 100 along the rail 10 in accordance with the transfer of the body carriage 31 at the bottom It is formed to guide.

The outer shape of the carriage 30 may be formed in the shape of a car, respectively, so that two cars may be drawn as if driving the operation module 100 when automatically washing.

A power supply for supplying power may be formed inside the body carriage 31, and a charging battery may be formed therein.

The carriage 30 is connected by the operation module 100 and the fixing means 140, the power is formed inside the fixing means 140.

The carriage 30 may be provided with a power supply device for supplying power by supplying power through a wire installed along a rail, or a charging battery may be formed to supply power to the operation module 100.

The operation module 100 is formed to be connected to each other by the fixing means 140.

The operation module 100 has a plurality of fans 130 are formed in the center of the left and right frame (110, 120) is formed symmetrically.

The fan 130 is formed of a direct-current motor, at least three to five are suitable, at least one is formed in a different direction to rotate, the operation module 100 and the solar energy generation by the operation of each fan 130 It is formed so that the air between the surfaces of the panel 1 can be pushed out or sucked in from the outside.

The left and right frames 110 and 120 of the operation module 100 are formed symmetrically with each other, and are formed by bending a rectangular frame in a curved line, and brush fixing grooves 114 and 124 are formed at the upper and lower ends, respectively.

Rotating brushes 112 and 122 are fixed to the brush fixing grooves 114 and 124, respectively. The brushes 112 and 122 are formed in a cylindrical shape, and are formed by attaching hairs of synthetic resin material capable of generating static electricity.

The rotary brushes 112 and 122 are formed to rotate by the operating motors 116 and 126 formed on the left and right frames 110 and 120, respectively.

The operation motors 116 and 126 may be formed at ends of the shafts of the rotary brushes 112 and 122.

Hereinafter, the operation of the dry automatic dust removal apparatus for a photovoltaic panel formed according to a preferred embodiment of the present invention.

Forming a storage box 50 on the side of the photovoltaic panel 1, the rail 10 is installed, and installs a dry automatic dust removal device to be included in the storage box (50).

The dry automatic dust removal device fixes the rollers 33 of the carriage 30 composed of a body carriage 31 and a null carriage 32 which can be transported along the upper and lower rails 10, respectively, in the rail 10. By using the fixing means 140, a plurality of operation modules 100 are connected to each other.

The operation module 100 is fixed as if floating on the surface of the photovoltaic panel 1 by the rotary brush (112, 122).

When the body carriage 31 is operated automatically or manually, the wheels 32 of the body carriage 31 move forward to remove dust and foreign substances on the surface of the photovoltaic panel 1.

At this time, the operation motors 116 and 126 simultaneously operate, the brushes 112 and 122 rotate, and the fan 130 operates to blow out dust or foreign matter on the surface.

The dry automatic dust removing device may be operated by an automatic dust detector formed on the top of the photovoltaic panel 1.

Dry automatic dust removal device of the present invention is mainly suitable for installation in a dusty desert, wilderness, etc., and is formed to operate automatically to remove dust and foreign matter on the surface of the photovoltaic panel 1 once or twice a day. It is formed to be.

According to the solar cell panel automatic washing device of the present invention is easy to install because it does not require a separate facility, such as a water pipe, and dry, but using a fan, it is easy to install because it does not require a separate air pump or air pipe In addition, since it uses its own electricity generated by solar light and is operated by simple fan operation, it not only requires a low operating cost but also can be manufactured in a module form, so that it can be easily assembled and installed according to its size. Occurs.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications may be made therein without departing from the scope of the invention, which is covered by the following claims.

Claims (5)

1. Rails are respectively formed on the upper and lower ends of the photovoltaic panel, and a plurality of operation modules are coupled to each other in the vertical direction at the top of the carriage that can be transported along the rails.

   The operation module is formed with a left and right frame having a rectangular frame formed in a curve, at least two fans are formed in the center of the left and right frames are integrally connected to each other, and the rotating brush is formed on the left and right frames, respectively. Dry automatic dust removal device for photovoltaic panels.
2. The method of claim 1,

   The carriage is a dry automatic dust removal device for a photovoltaic panel, characterized in that the carriage is formed of a body carriage and a null carriage along the rail installed at the upper and lower ends of the photovoltaic panel.
3. The method of claim 2,

   Dry body dust removal device for a photovoltaic panel, characterized in that the body carriage is formed by a wheel that rotates by a motor.
4. The method according to claim 1 or 2,

   Dry body dust removal apparatus for a solar panel, characterized in that the battery is formed in the body carriage of the carriage.
5. The method of claim 1,

   Dry rail dust removal apparatus for a solar panel, characterized in that the storage box is formed parallel to the solar panel at the end of the rail.

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