KR101160675B1 - Photovoltaic device having dust cleaner - Google Patents

Abstract

PURPOSE: A solar electric generator is provided to prevent penetration ratio of a solar panel to be reduced by dust by eliminating the dust attached to the upper side of the solar panel by using a dust elimination means. CONSTITUTION: An upper side cover panel(11) and a lower side cover panel(12) cover the upper side of a solar panel(2). A circuit drive means(20) circulates the upper side cover panel and the lower side cover panel. A dust elimination means(30) is included on the upper side of the solar panel. A wind speed measuring means(40) measures wind speed by being included at one side of the solar panel. An optical sensor(50) measures the brightness of sunlight radiated to the solar panel. A rain sensor senses a rainwater state by being included at one side of the solar panel.

Description

Photovoltaic device having dust cleaner}

The present invention relates to a solar generator with a dust removal means of a new structure to protect the solar panel while improving the power generation efficiency.

In general, the solar power generator is composed of a solar panel is arranged a plurality of solar cells to generate power using the solar, an inverter and a storage battery connected to the solar panel, in the solar panel The output direct current is converted from the inverter to alternating current and output, and the excess electricity is configured to be stored in the battery.

Since the structure of such a solar generator is shown in a number of prior documents, including Patent Publication No. 10-2005-0082388, Patent No. 10-1038156, detailed description thereof will be omitted.

At this time, the solar panel is installed to be inclined to the roof of the building so that the solar cell facing the sun, or is installed to be inclined to the support provided on the ground or the building, it is configured to receive the sunlight as effectively as possible.

However, such a solar panel generates power using only solar light as much as the area of the solar panel, and thus there is a problem in that the power generation efficiency is limited.

In addition, since the solar panel is always installed to face the sun, not only dust is easily settled on the upper surface, but also exposed to rain or snow, the upper surface is dirty, and the transmittance of light is lowered, thereby lowering the power generation efficiency. .

In particular, in the case of the solar panel installed on the ground can be relatively easy to clean, in the case of the solar panel installed on the roof of the building, there was a problem that it is very troublesome to clean the dust, rain or snow on the upper surface.

In particular, in the case of hail falling or windy days, hail or small garbage hit the solar panel, there was a problem that the surface of the solar panel may be damaged.

Therefore, there is a need for a new solar generator that can solve this problem.

The present invention is to solve the above problems, to provide a solar generator with a dust removal means of a new structure that can protect the solar panel to generate electricity using solar light while improving the power generation efficiency. There is a purpose.

In order to achieve the above object, the present invention provides a solar panel 2 including a plurality of solar cells 2b that generate power by using sunlight, an inverter 3 connected to the solar panel 2, and a storage battery. In the solar generator comprising (4), the upper and lower cover is configured to be coupled to the upper and lower ends of the solar panel 2 in the vertical direction to be rotated in mutually adjacent directions to cover the upper surface of the solar panel (2) A rotation driving means 20 connected to the panels 11 and 12, the upper and lower cover panels 11 and 12 to rotate the upper and lower cover panels 11 and 12, and an upper surface of the solar panel 2; Dust removal means 30 provided in the, wind speed measuring means 40 provided on one side of the solar panel 2 to measure the wind speed, and provided on one side of the solar panel 2 solar panel (2) The optical sensor 50 for measuring the brightness of the sunlight irradiated to the, and is provided on one side of the solar panel (2) A rain sensor 60 for detecting a rainy weather condition, a vibration sensor provided on one side of the solar panel 2 to detect the vibration generated in the solar panel 2, and the wind speed measuring means ( 40 and a control unit 80 for detecting the signals of the light sensor 50, the rain sensor 60 and the vibration sensor 70, and controls the rotation drive means 20 and dust removal means 30. Include,

The upper and lower cover panels 11 and 12 are made up of reflecting surfaces 11a and 12a that reflect light when the upper and lower cover panels 11 and 12 are unfolded, and the upper and lower cover panels 11 and 12 extend to the reflecting surfaces 11a and 12a. By the solar light is reflected to the upper surface of the solar panel 2,

The upper and lower cover panels 11 and 12 are configured such that the reflective surfaces 11a and 12a are spaced apart from the upper surface of the solar panel 2 when the upper surface of the solar panel 2 is covered.

The dust removing means 30 has a long bar shape to the left and right, the conductor 31 coupled to the upper surface of the solar panel 2 so as to be lifted and lowered, and the electrostatic generator 32 connected to the conductor 31. ), And a lift drive device 33 connected to the conductor 31 to lift and lower the conductor 31.

The control unit 80 monitors the signals of the wind speed measuring means 40, the light sensor 50, the rain sensor 60, and the vibration sensor 70, so that the wind blows faster or faster than the reference speed. When the brightness is lowered below the reference level or rained or excessive vibration is generated in the solar panel 2 above the reference level, the rotation driving means 20 is operated to allow the upper and lower cover panels 11 and 12 to cover the upper surface of the solar panel 2. When the upper and lower cover panels 11 and 12 cover the upper surface of the solar panel 2, the dust removing means 30 is operated to raise and lower the driving device 33 in a state where the conductor 31 is discharged of static electricity. And the dust from the upper surface of the solar panel 2 and the reflective surfaces 11a and 12a of the upper and lower cover panels 11 and 12 is stuck to the conductor 31 so as to be removed. There is provided a solar generator with dust removal means.

The solar generator according to the present invention is provided with upper and lower cover panels (11, 12) to cover the upper surface of the solar panel (2) at the upper and lower ends of the solar panel (2), when rain or wind is strong or power generation is If the blade becomes too dark or an object strikes the solar panel 2, the upper and lower cover panels 11 and 12 can be used to cover and protect the upper surface of the solar panel 2 as well. The side facing upward when the panel 11, 12 is removed consists of reflecting surfaces 11a and 12a, and solar light is reflected on the reflecting surfaces 11a and 12a and irradiated to the solar panel 2, so that solar The solar panel is irradiated with a larger amount of solar light, so that the power generation efficiency of the solar panel 2 may be improved.

In particular, the upper surface of the solar panel 2 is provided with a dust removing means 30, when the upper and lower cover panels 11 and 12 are closed to cover the upper surface of the solar panel 2, the dust removing means 30 Since the dust on the reflective surfaces 11a and 12a of the upper and lower cover panels 11 and 12 and the upper surface of the solar panel 2 can be removed using the reflective surface 11a of the upper and lower cover panels 11 and 12 12a) and dust on the solar panel 2 lowers the reflectances of the reflecting surfaces 11a and 12a of the upper and lower cover panels 11 and 12 and the transmittance of the solar panel 2, thereby preventing the power generation efficiency from being lowered. There are advantages to it.

1 is a plan view showing a solar generator according to the present invention,
Figure 2 is a side configuration diagram showing a solar generator according to the present invention,
3 is a circuit diagram of a solar generator according to the present invention;
4 and 5 are reference diagrams for explaining the operation of the solar generator according to the present invention.

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

1 to 5 show a solar generator with a dust removing means according to the present invention, the solar panel 2 is arranged a plurality of solar cells (2b) for generating power using sunlight, and Including the inverter 3 and the storage battery 4 connected to the solar panel 2 is the same as before.

In this case, the solar panel 2 is configured by arranging a plurality of solar cells 2b on the upper surface of the rectangular case 2a having high strength, and the roof of the building 1 so that the solar cells 2b face the sun. ) Is installed to be inclined, or installed to be inclined to the support provided on the ground or building.

In addition, according to the present invention, the solar generator is connected to the upper and lower cover panels 11 and 12 rotatably coupled in the vertical direction to the upper and lower ends of the solar panel 2 and the upper and lower cover panels 11 and 12. Rotational drive means 20 to rotate the upper and lower cover panels 11 and 12, dust removal means 30 provided on the upper surface of the solar panel 2, and one side of the solar panel 2; It is provided on the wind speed measuring means 40 for measuring the wind speed, the optical sensor 50 for measuring the brightness of the surroundings provided on one side of the solar panel 2, and is provided on one side of the solar panel 2 Rain sensor 60 for detecting a rainy condition, a vibration sensor 70 is provided on one side of the solar panel 2 to detect that vibration is generated in the solar panel 2, and the optical sensor 50 And the rain sensor 60 and the control unit 80 for monitoring the signal of the vibration sensor 70 is further provided.

The upper and lower cover panels 11 and 12 are made of a high strength metal material or a synthetic resin material, and proximal ends are hinged to upper and lower ends of the case 2a of the solar panel 2, respectively, and are rotated in an up and down direction so that the solar panel ( It is configured to cover the upper surface of 2) or rotate in the opposite direction to open the upper surface of the solar panel (2).

In addition, the upper and lower cover panels 11 and 12 are configured in a wide plate shape so as to be rotated by a predetermined angle. In addition, the upper and lower cover panels (11, 12) is composed of reflecting surfaces (11a, 12a) that reflect the light when the upper side when unfolded, the dotted line in Figure 4 when the upper and lower cover panels (11, 12) are unfolded As shown in FIG. 2, the light is reflected by the reflective surfaces 11a and 12a toward the solar panel 2. The reflective surfaces 11a and 12a may be formed by applying a reflective coating on the upper and lower cover panels 11 and 12 or by attaching separate reflective sheets to the upper and lower cover panels 11 and 12.

The rotation driving means 20 uses a general geared motor, is connected to the hinge coupling portion of the upper and lower cover panels 11 and 12, and is rotated forward and backward according to the control signal of the control unit 80 to cover the upper and lower cover panels. It is configured to close or open the upper and lower cover panels 11 and 12 by rotating 11 and 12 in the vertical direction.

The dust removing means 30 has a long bar shape to the left and right, the conductor 31 coupled to the upper surface of the solar panel 2 so as to be lifted and lowered, and the electrostatic generator 32 connected to the conductor 31. ) And a lift drive device 33 connected to the conductor 31 to lift and lower the conductor 31.

The conductor 31 is formed of a general metal material and extends long enough so that both ends thereof protrude to both sides of the solar panel 2. At this time, one side of the solar panel is provided with a guide rail (2d) that one end of the conductor 31 is slidably coupled in the vertical direction.

The electrostatic generator 32 charges the conductor 31 so that the conductor 31 exhibits static electricity.

The elevating driving device 33 includes a lead screw 33a disposed in parallel with the guide rail 2d on the other side of the solar panel 2 and a driving motor 33b connected to one end of the lead screw 33a. The conductor 31 has both ends coupled to the guide rail 2d and the lead screw 33a, respectively, and when the lead screw 33a is reversely rotated by the driving motor 33b, the guide rail It slides up and down along 2d.

In this case, when the upper and lower cover panels 11 and 12 are closed, the upper and lower cover panels 11 and 12 are installed to be spaced apart from the upper surface of the solar panel 2, and the conductor 31 is disposed on the upper and lower cover panels of the solar panel 2. 11, 12) is installed so that it can be sliced in the vertical direction through the gap.

Therefore, after the upper and lower cover panels 11 and 12 are closed, the conductor 31 is charged by using the electrostatic generator 32 so that the conductor 31 exhibits static electricity. As shown in the drawing, when the conductor 31 is slid up and down using the elevating driving device 33, the reflecting surfaces 11a and 12a and the solar panel 2 of the upper and lower cover panels 11 and 12 are moved. The dust on the upper surface of the dust adheres to the upper and lower surfaces of the conductor 31 and is removed.

As such, the method of causing the conductor 31 to display static electricity by using the static electricity generating device 32 so that fine dust, powder, or the like adheres to the coating process or an air filter that removes dust using static electricity. Since it is widely used by such a method, detailed description is abbreviate | omitted.

The wind speed measuring means 40 is rotatably installed on the top of the support shaft 41, and the wind speed is proportional by measuring the speed at which the pinwheel 42 is rotated by the wind with a rotation sensor not shown It is configured to be able to measure, and is installed on the bracket (2c) provided on the periphery of the solar panel 2, it is configured to measure the wind speed around the solar panel (2).

The optical sensor 50 is installed on the bracket 2c so as to face the sun, and configured to measure the brightness of sunlight irradiated to the solar panel 2.

The rain sensor 60 is installed to face the bracket (2c) to the top is configured to detect whether the rain water falls on the solar panel (2).

The vibration sensor 70 is installed in the center of the upper surface of the solar panel 2 is configured to measure the intensity of the vibration generated in the solar panel (2).

On the other hand, the above-mentioned wind speed measuring means 40, the optical sensor 50, the rain sensor 60 and the vibration sensor 70 is generally widely used, detailed description thereof will be omitted.

The control unit 80 monitors the signals of the wind speed measuring means 40, the light sensor 50, the rain sensor 60, and the vibration sensor 70, so that the wind blows faster or faster than the reference speed. When the brightness is lowered below the reference level or rained or excessive vibration is generated in the solar panel 2 above the reference level, the rotation driving means 20 is operated to allow the upper and lower cover panels 11 and 12 to cover the upper surface of the solar panel 2. Cover and protect.

In detail, when a high wind speed is set above a predetermined reference speed, a small foreign material may fly to damage the upper surface of the solar panel 2 and the upper and lower cover panels hinged to the solar panel 2 ( 11, 12) can be damaged by wind. In addition, if the brightness of sunlight irradiated to the solar panel 2 is lowered below a reference due to the sun or a lot of clouds, the amount of power generated by the solar panel 2 becomes very small, and dust or the like is unnecessary to the solar panel 2. Will be asked. In addition, when it rains, the top surface of the solar panel 2 may be contaminated by rain. In addition, the solar panel 2 or the upper and lower cover panels 11 and 12 may vibrate violently even when a weak wind is blown. When the hail, etc., fall on the solar panel 2, a strong vibration is generated in the solar panel 2. In severe cases, the top surface of the solar panel 2 may be damaged.

In addition, the control unit 80 continuously monitors the signals of the wind speed measuring means 40, the light sensor 50, the rain sensor 60, and the vibration detection sensor 70. When the blade is too dark or the blade is dark enough to generate power or an object is hit by the solar panel 2, an impact is detected and the upper and lower cover panels 11 and 12 are rotated to cover the upper surface of the solar panel 2. By doing so, the upper surface of the solar panel 2 can be protected, and the upper and lower cover panels 11 and 12 can also be protected.

On the contrary, when the wind weakens, the day gets bright, or the rain stops or the vibration generated in the solar panel 2 disappears, the control unit 80 reversely rotates the rotation driving means 20 to cover the upper and lower cover panels 11 and 12. This open, it is possible to generate power using the solar panel (2).

In addition, when the upper and lower cover panels 11 and 12 cover the upper surface of the solar panel 2, the control unit 80 operates the dust removing means 30 to discharge the static electricity from the conductor 31. In this state, the elevating drive device 33 lifts and lowers the dust on the upper surface of the solar panel 2 and the reflective surfaces 11a and 12a of the upper and lower cover panels 11 and 12. To be removed.

The photovoltaic generator configured as described above is provided with upper and lower cover panels 11 and 12 which can cover the upper surface of the solar panel 2 at the upper and lower ends of the solar panel 2, so that it is impossible to generate electricity when it is rained or windy. When the blade is dark enough or hail or the like fall on the solar panel 2, the upper surface of the solar panel 2 is covered and protected using the upper and lower cover panels 11 and 12.

Therefore, the upper surface of the solar panel 2 is contaminated, the light transmittance is lowered, the power generation efficiency is prevented from being lowered, and the upper surface of the solar panel 2 can be prevented from being damaged.

In addition, when the upper and lower cover panels 11 and 12 are removed, the surface facing upward is composed of reflecting surfaces 11a and 12a, and sunlight is reflected by the reflecting surfaces 11a and 12a to the solar panel 2. Since the upper and lower cover panels 11 and 12 are irradiated, the same effect as the area of the solar panel 2 is widened, and the solar panel 2 is irradiated with a greater amount of solar light. There is an advantage to improve the power generation efficiency.

In particular, the upper surface of the solar panel 2 is provided with a dust removing means 30, when the upper and lower cover panels 11 and 12 are closed to cover the upper surface of the solar panel 2, the dust removing means ( 30 can be used to remove dust from the reflective surfaces 11a and 12a of the upper and lower cover panels 11 and 12 and the upper surface of the solar panel 2, so that the reflective surfaces of the upper and lower cover panels 11 and 12 can be removed. Dust on the 11a and 12a and the solar panel 2 lowers the reflectances of the reflecting surfaces 11a and 12a of the upper and lower cover panels 11 and 12 and the transmittance of the solar panel 2, thereby lowering the power generation efficiency. There is an advantage that can be prevented.

In the present embodiment, the wind speed measuring means 40, the light sensor 50 and the rain sensor 60 is illustrated to be installed on the bracket (2c) provided on the periphery of the solar panel 2, but if necessary Accordingly, the wind speed measuring means 40, the light sensor 50, and the rain sensor 60 may be disposed at one side of the roof 1 of the building in which the solar panel 2 is installed, or at one side of the support, in addition to the bracket 2c. Can be installed.

2. Panel 3. Inverter
4. Storage battery 11, 12. Upper and lower cover panels
20. Rotating drive means 30. Dust removal means
40. Wind velocity measuring means 50. Light sensor
60. Rain sensor 70. Vibration sensor
80. Control Unit

Claims (1)

A solar panel 2 having a plurality of solar cells 2b that generate power using solar light, and
In the solar generator comprising an inverter (3) and a storage battery (4) connected to the solar panel (2),
Upper and lower cover panels 11 and 12 coupled to the upper and lower ends of the solar panel 2 in a vertical direction to be rotated in mutually adjacent directions so as to cover the upper surface of the solar panel 2;
A rotation driving means 20 connected to the upper and lower cover panels 11 and 12 to rotate the upper and lower cover panels 11 and 12;
Dust removal means 30 provided on the upper surface of the solar panel 2,
Wind speed measuring means 40 is provided on one side of the solar panel 2 to measure the wind speed;
An optical sensor 50 provided at one side of the solar panel 2 to measure the brightness of sunlight irradiated to the solar panel 2;
A rain sensor (60) provided at one side of the solar panel (2) for detecting a rainy condition;
A vibration detection sensor 70 provided at one side of the solar panel 2 to detect that vibration is generated in the solar panel 2;
A control unit for sensing the signals of the wind speed measuring means 40, the light sensor 50, the rain sensor 60 and the vibration sensor 70, and controls the rotation driving means 20 and dust removal means 30 Further includes 80,
The upper and lower cover panels 11 and 12 are made up of reflecting surfaces 11a and 12a that reflect light when the upper and lower cover panels 11 and 12 are unfolded, and the upper and lower cover panels 11 and 12 extend to the reflecting surfaces 11a and 12a. By the solar light is reflected to the upper surface of the solar panel 2,
The upper and lower cover panels 11 and 12 are configured such that the reflective surfaces 11a and 12a are spaced apart from the upper surface of the solar panel 2 when the upper surface of the solar panel 2 is covered.
The dust removing means 30
A conductor 31 having a long bar shape left and right and coupled to an upper surface of the solar panel 2 so as to be lifted and lowered;
An electrostatic generator 32 connected to the conductor 31;
It is connected to the conductor 31 and the lifting drive device 33 for elevating the conductor 31,
The control unit 80
By monitoring the signals of the wind speed measuring means 40, the light sensor 50, the rain sensor 60 and the vibration sensor 70, the wind blows faster than the reference speed or the brightness of the sunlight is lowered below the reference When rain or excessive vibration is generated in the solar panel 2 above the reference level, the rotation driving means 20 is operated so that the upper and lower cover panels 11 and 12 cover and protect the upper surface of the solar panel 2 and the upper and lower covers. When the panels 11 and 12 cover the upper surface of the solar panel 2, the dust removing means 30 is operated so that the conductor 31 is elevated by the lifting and lowering drive device 33 in a state where static electricity is released. The sun is provided with dust removing means, characterized in that the dust on the upper surface of the panel 2 and the reflective surfaces 11a and 12a of the upper and lower cover panels 11 and 12 adheres to the conductor 31 and is removed. Photoelectric generator.

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