KR101776573B1 - Solar power and wind power generation set having increased generation efficiency - Google Patents

Abstract

The present invention relates to a photovoltaic power generation system comprising a photovoltaic power generation unit including a condenser plate fixed on a roof or a roof of a building and having a plurality of solar cells arranged therein to convert light incident from the sun into electricity, A supply piping to which water or compressed air is conveyed, an air piping which is connected to the supply piping and through which the compressed air compressed by the air compressor is conveyed, and a supply pipe which is spaced apart from the condensing plate and has a plurality of jetting means, A cleaning shaft for spraying the cleaning liquid toward the condensing plate; A wind power generator which is installed in a vertical direction and which is built in the upper end of the strut and connected to the rotating body to generate electricity, rainwater is stored in the storage tube, a bottom hole is formed in the storage tube, And a water supply unit having an end of the water supply pipe located at an inlet port to allow the rainwater to flow into the casing through the wind supply pipe and rotate the rotating body; A power storage unit in which electricity generated by the solar power generation unit and the wind power generation unit is stored; A photographing unit for photographing a light-condensing plate with a camera and transmitting photographed image information to a control unit; And a control unit for controlling the flow of water and compressed air by controlling each of the motors, the pumps, and the valves, and controlling the electricity charged in the power storage unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar power generator,

More particularly, the present invention relates to a power generating apparatus, which is installed on a roof or a roof of a building, is combined with wind power and sunlight to improve power generation efficiency, stores electricity generated by self power generation, And more particularly, to a photovoltaic device and a wind turbine generator having increased power efficiency with increased energy efficiency.

Solar power generation is a power generation method that converts sunlight directly into electric energy by using a lot of solar modules. It is free from pollution such as air pollution, noise, heat and vibration, is easy to maintain and manage, As demand becomes depleted, demand is gradually increasing as one of alternative energy sources.

In addition, solar power generation equipment can be installed on roofs, roofs, or outer walls of ordinary buildings, or installed in outdoor hillsides and open spaces because it is possible for small-scale power generation, Especially, roofs and rooftops are installed much because of good sunlight and high space utilization.

Such a photovoltaic power generation apparatus is provided with a support base at the bottom for preventing damage to the solar cell module and supporting the solar cell module in a stable manner. The support member supports the solar cell module so that the solar cell module faces the sunlight directly.

Recently, a device capable of combined power generation of sunlight and wind power is also installed.

According to the related art, Patent Document 1 is provided on a roof of a rigid folding roof on which a plurality of horns formed with a hermetic folding edge are formed. The upper frame supports a plurality of solar panels, There is disclosed a photovoltaic power generation apparatus for mounting a roof having a substantially vertical shape including a front and a rear support frame for supporting the front support frame, a lower frame connecting the lower end of the front support frame and a lower end of the rear support frame, have.

Also, in Patent Document 2, a rotating body in the form of a revolving door having a suitable size according to the magnitude of the rotational energy is placed in the center, a wind collecting plate is installed around the rotating body, wind collecting wind collects the wind, There is disclosed a wind power generating apparatus which combines wind power with a rotating plate to generate rotational energy and generates electricity by a generator attached to the end of a rotating shaft.

However, the photovoltaic device of Patent Document 1 described above is vulnerable to seasonal climate change, so that when yellow sand, fine dust, and foreign matter accumulate on the solar cell panel, or when water vapor in the air freezes and frost or snow accumulates, There is a problem in that the work is cumbersome and unsafe because the worker must climb over the roof and remove it manually.

In addition, in the wind power generator serving as the solar power generator of Patent Document 2, since the windmill does not rotate well at a low wind speed, the power generation efficiency is lowered depending on the installation place and the commercial power supplied from the outside must be used. And vibration may occur.

Korean Patent Publication No. 10-1670346 (published on October 24, 2016) Korean Utility Model Registration No. 20-0329753 (published on October 17, 2003)

The present invention has been devised to overcome all of the above-mentioned problems, and it is possible to provide a stable power supply by securing sufficient electric power without being affected by seasons or climate change, And the energy efficiency is improved. In the case of wind power generation, it is possible to minimize the noise and vibration due to the rotation of the rotating body, to utilize the sunlight, wind and rainwater together, to generate electricity at low wind speed, And an object of the present invention is to provide a solar power and wind power generation apparatus which can be managed unmanned with increased power generation efficiency.

According to an aspect of the present invention, there is provided a solar power generator comprising: a solar power generator including a light collecting plate fixed by a fixing table and having a plurality of solar cells arranged therein, for converting light incident from the sun into electricity; A water supply pump is installed in the supply pipe, and the compressed air compressed by the air compressor is connected to the air pipe to be connected to the supply pipe, and the water or the compressed air is discharged from the discharge pipe toward the condenser A cleaning section having a cleaning shaft for spraying; A plurality of support rods provided in a vertical direction and supported at the upper ends of the support rods so as to be convex outwardly are spaced apart from each other and connected to each other in the longitudinal direction, A rotation shaft which is rotatably coupled to the upper end of the support through the casing; and a casing which is rotatably coupled to the upper end of the support, the casing including a connection hole formed in the casing, A wind power generator which is built in the wind turbine and is fixed to the rotary shaft and has a plurality of blades and a generator built in the upper end of the support and connected to the rotor to generate electricity, A bottom hole is formed at the bottom of the bottom of the storage container, The pipe coupling and the end of the water supply pipe is located at the inlet wind rain water is introduced into the casing through the wind supply tube made of a water supply unit capable of rotating the rotating power generation unit; A power storage unit in which electricity generated by the solar power generation unit and the wind power generation unit is stored; A photographing unit installed above the light condensing plate for photographing a light condensing plate by a camera and transmitting the photographed image information to a control unit; And a control unit for controlling the flow of water and compressed air by controlling each of the motors, the pumps, and the valves, and controlling the electricity charged in the power storage unit.

According to the present invention, the power generation efficiency is improved by the combined power generation by wind power and solar power, and stable power supply is possible by securing sufficient electric power without being influenced by season and climate change, and energy efficiency is improved. It is possible to minimize the noise and vibration due to the rotation of the rotating body, to use sunlight, wind, and rainwater together, to generate electricity even at low wind speeds,

FIGS. 1A and 1B are views showing the construction of a solar power and wind turbine generator according to an embodiment of the present invention.
FIGS. 2A to 2C are views showing a configuration of a solar power generation unit according to an embodiment of the present invention.
FIG. 3 is a view showing a configuration of a part of a cleaning unit according to an embodiment of the present invention.
FIGS. 4A and 4B are views showing the operation of the cleaning unit according to an embodiment of the present invention.
5 to 8 are views showing a wind turbine generator according to an embodiment of the present invention.
9 is a view showing a wind power generator according to an embodiment of the present invention.
FIG. 10 is a view showing an operation of a wind power generator according to an embodiment of the present invention.

Hereinafter, with reference to the drawings, specific details for implementing a solar power and wind turbine generator with increased power generation efficiency according to the present invention will be described in detail with reference to examples.

The solar power and wind power generation apparatus according to the present invention is installed on a roof or a roof of a building and is combined with wind power and solar power to improve power generation efficiency and to store electricity generated by self- The solar power generator 100, the cleaner 200, the driving unit 300, the wind power generator 400, the power storage unit 500, the photographing unit 500, (600) and a control unit (700).

Referring to FIGS. 1B and 2B, a plurality of base bars 105 are fixedly installed on the bottom of the solar power generating unit 100, and a fixing table 110 is fixedly coupled to the top of the base bar 105, And a light collecting plate 120 fixedly installed on a roof, a roof, a veranda, a mountain hill, an open space, etc. of the solar cell 121, and arranged with a plurality of solar cells 121. The light collecting plate 120 is inclined, So that the power storage unit 500 is charged with electricity.

2A and 2C, upper and lower films 122 and 123 made of a transparent material are provided on the upper and lower portions of the solar cell 121 of the condenser 120 to protect the solar cell and the upper film 122 And a load sensor (not shown) is installed at a plurality of points on the glass plate 124 to detect the stacking of snow in winter and transmit a detection signal to the control unit 700 .

The support frame 130 is coupled to the photovoltaic unit 100 along the rim of the condenser 120 and the support frame 130 is made of a metal having a high thermal conductivity. The partition plate 131 is formed in a vertical direction so that one of the insertion grooves 132 and the other of the receiving grooves 133 are partitioned and the rim of the light condensing plate 120 is inserted into the insertion groove 132, A line-shaped heating element 140, which is electrically connected to a power source, is installed along the inside of the receiving groove 133.

Accordingly, when frost or snow accumulates on the condenser 120, the control unit 700 reads image information photographed by the photographing unit 600, detects a load greater than a reference value by a load sensor, The control unit 700 applies power to the heating body 140 to heat the heating body 140 so as to heat the heating body 140 The support frame 130 heats the glass plate 124 constituting the upper layer of the light-collecting plate 120 coupled to the support frame 130 so that the heat is transferred to the light-collecting plate 120 You can remove frost or snow that has occurred.

The cleaning unit 200 includes a storage tank 205 in which water is stored and is supplied with water through a supply pipe 210 connected to the storage tank 205 and a supply pipe 210 A solenoid valve B and a water supply pump 220 are installed in the supply pipe 210. The supply pipe 210 is connected to the air pipe 240 so that compressed air compressed by the air compressor 230 is supplied to a solenoid valve V And the cleaning shaft 260 is connected to the supply pipe 210 to be disposed across the condensing plate 120 so that water or compressed air is supplied to the condenser plate 120 to remove foreign matters such as yellow sand and fine dust accumulated on the light condensing plate 120, thereby increasing the power generation efficiency of the solar power generation unit 100.

As described above, the cleaning unit 200 can selectively supply water or compressed air according to season, temperature, type of foreign matter, etc., and spray the water or the compressed air to clean the condensing plate 120. Water and compressed air are supplied together It may be sprayed to the light collecting plate 120 in the form of mist to be evenly sprayed on the condensing plate 120 to increase the cleaning effect.

The cleaning part 200 is connected to a supply hose 250 between the supply pipe 210 and the cleaning shaft 260. The supply hose 250 has a flexible material and the cleaning shaft 260 Both sides can be movably fastened to the screw rod 320 of the driving unit 300 and the supply hose 250 is flexibly bent so that the supply of the fluid can be smooth even if the cleaning shaft 260 moves.

The cleaning shaft 260 has a plurality of cleaning branch pipes 270 spaced from each other in a downward direction and communicated in an orthogonal direction to allow fluid of water or compressed air to pass therethrough, A tube 280 is installed and protrudes into and out of the cleaned branch pipe 270 by the pressure of the fluid. A piston plate 281 is connected to the upper end of the piston tube 280. The piston plate 281 is in close contact with the inner circumferential surface of the cleaning branch pipe 270 and has an inlet hole formed at the center thereof, . An elastic member 283 is disposed on the outer circumferential surface of the piston pipe 330 which is drawn into the inside of the cleaning branch pipe 270. The elastic member 283 is pressed against the piston plate 281 by the pressure of the fluid, They are stretched together as they are pressed or released.

4A, when the fluid is not supplied to the cleaning shaft 260, most of the piston tube 280 is located inside the cleaning branch pipe 270, When the fluid is supplied and reaches the cleaning branch pipe 270, the piston plate 281 pressed by the pressure of the fluid flowing inside the cleaning branch pipe 270 moves downward while being closely attached to the inner peripheral surface of the cleaning branch pipe 270 Accordingly, the piston tube 280 also moves downward to approach the condensing plate 120, and the elastic member 283 is also compressed. At this time, the fluid flows into the interior of the piston tube 280 through the inlet hole, and the fluid is sprayed toward the condenser plate 120 through the injection means 290 formed at the lower end of the piston tube 280, And the like are cleaned and removed.

A plurality of auxiliary nozzles 292 are formed along an inclined surface having a diameter decreasing toward the lower side along an outer circumferential surface of the jetting means 290, And the foreign matter is removed by the nozzle 291. The fluid is uniformly injected through the plurality of auxiliary nozzles 291 in various directions to form a large area of the condensing plate 120 It is possible to increase the power generation efficiency by removing most of the foreign matter.

When the supply of the fluid is stopped, the pressure of the fluid pressurizing the piston plate 281 is released and the resilient member (283) 283 are extended and restored to their original positions, so that the piston tube 280 which has been withdrawn to the lower side rises upward, and most of the piston tube 280 is drawn into the inside of the cleaning branch pipe 270.

1B, a pair of support pieces 310 are installed on both sides of the solar power generation part 100 and are spaced apart from each other, and one end of the one screw rod 320 is connected to one side And the opposite ends of the other screw rod 320 are connected and arranged through the supporting pieces 310 on the other side. A driving motor 330 is fixed to the motor fixing table 331 at one end of the screw rod 320 so as to rotate the screw rod 320 in the forward direction or the reverse direction, And the bearings 340 are installed on the support pieces 310 so that the screw rods 320 can be smoothly rotated.

At this time, a guide bar 311 is connected between upper portions of the pair of support pieces 310, and a rail groove 311a is formed in a lower portion of the guide bar 311. In the rail groove 311a, And a guide bar 312c which is an upper portion of the moving body 312 is slidably coupled to the moving body 312. The moving bar 312a which is a lower portion of the moving body 312 has a threaded fastening hole formed therein, And the movement bundle 312a and the guide piece 312c are connected by a connecting rod 312b connected in the vertical direction. Accordingly, both ends of the cleaning shaft 260 are coupled to the moving bundle 312a and guided while being supported by the guide bar 311, so that the cleaning shaft 260 can be smoothly moved without shaking.

When the screw rod 320 disposed on both sides of the solar power generation unit 100 is rotated by the driving motor 330 as described above, the cleaning shaft 260 rotatably screwed to the screw rod 320 The entire area of the condenser plate 120 can be cleaned while moving on the condenser plate 120 along the screw rod 320.

5 to 7, the wind power generation unit 400 is fixedly installed near the solar power generation unit 100, and the power generation efficiency is improved by combined power generation by wind power and solar power, The second solar photovoltaic unit 420, the wind power generator 430, the water supply unit 430, the water supply unit 440, A supply section 440, a switch 450, a charging terminal 460, a third solar power generation section 470, and the like.

5 to 7, the pillars 410 may be provided with pillars 411 in a direction perpendicular to the floor or the building, and the pillars 411 may be installed at a plurality of positions, 411 are hollowed and the wires are wired. A plurality of support rods 412 protruding outward are connected to the upper ends of the struts 411 in a longitudinal direction while being separated from each other. A support plate 413 is connected to upper ends of the support rods 412.

One or more connecting rods 414 may be formed laterally in the middle of the struts 411 and a solar power generating unit 420 may be connected to the connecting rods 414. At this time, an operation motor 415 is installed on the support post 411 and a connection rod 414 is connected to a motor shaft of the operation motor 415, so that the operation motor 415 is driven in the forward and reverse directions, The angle of the solar panel 421 can be adjusted by rotating the light source 414.

The second solar battery 420 is connected to the upper portion of the strut 411 by a solar panel 421 as a solar panel supported by the connecting rod 414, And is inclined upwards so as to match the direction of light irradiation. The light incident from the sun is converted into electricity, and the generated electricity is charged in the power storage unit 500. The second solar photovoltaic unit 420 converts sunlight energy, which is a lifetime of energy, into electricity, is pollution-free, generates no noise, and is easily manned and maintenance free.

The control unit 700 compares the amount of light sensed by the photodetection sensor with a predetermined reference value, and outputs the detected amount of light to the second photovoltaic power generation unit 420. The second photovoltaic power generation unit 420 further includes a photodetection sensor (not shown) When the amount of light is less than the reference value, electricity is supplied to the operation motor 415 to operate the operation motor 415 to rotate the connection rod 414, thereby adjusting the angle of the solar panel 421 to secure more light can do.

9, the wind power generators 430 are installed on the upper side of the struts 411 and are generated by wind, and a casing 431 having a rectangular box-like shape is installed inside the support rods 412 So that noise and vibration due to the rotation of the rotating body 434 during wind power generation can be minimized. The casing 431 has a receiving space therein, a drain port 431a on the bottom surface thereof, and a plurality of connection holes formed on the outer surface thereof. A wind supply pipe 432 is connected to the connection hole so as to extend toward the inside of the casing 431 and discharge the wind introduced into the inlet 432a to the discharge port 432b to rotate the rotor 434.

At this time, a connection hole is formed on one side of each of the four side surfaces of the casing 431, and the wind supply pipe 432 is connected to the connection hole and extends toward the inside, and is formed of a curved pipe bent in a rough horn shape. That is, the wind supply pipe 432 is formed such that the diameter of the wind supply pipe 432 gradually decreases from the inlet 432a toward the outlet 432b, and the outlet 432b is bent toward the rotor 434.

Since the wind generator 430 having the horn structure can flow outside at a high speed through the wind supply pipe 432 and is concentrated toward the rotating body 434 without the wind being dispersed, So that the rotating body 434 can be smoothly rotated even at a low wind speed to secure a sufficient amount of self power required for spotlighting and stable power supply can be provided regardless of time and place.

The shaft 433 is rotatably coupled to the upper end of the strut 411 and extends upward. A bearing 433a is provided on the lower outer side of the shaft 433, Passes through a lower portion of the casing 431, is coupled to the rotating body 434, and is rotated together with the rotating body 434.

The rotating body 434 is housed in the housing space of the casing 431 and is provided with a top plate 434a and a bottom plate 434b coupled to the rotating shaft 433. The bottom plate 434b has a diameter And the upper plate 434a is formed smaller in diameter than the lower plate 434b.

A plurality of blades 434c are disposed between the upper plate 434a and the lower plate 434b at an angle so as to be inclined obliquely toward one side and the plurality of blades 434c are curved convexly outward And a predetermined gap is formed between the blades 434c so that the wind can pass. A plurality of blades 434c connected to the lower end along the edge of the lower plate 434b are connected to converge the upper end toward the upper plate 434a.

The power generator 435 is connected to the lower end of the rotating body 434 to generate electricity and the generated electricity is supplied to the power storage unit 500 And the electricity generated by the self-power generation can be stored in the power storage unit 500 sufficiently, so that stable power supply is possible, and the energy efficiency of the apparatus is improved.

The water supply unit 440 is provided with a reservoir 441 on the support plate 413 to store rainwater therein and a bottom hole 441a at the bottom edge of the reservoir 441, An approximately L-shaped water supply pipe 442 is coupled to the hole 441a so that the water stored in the reservoir 441 flows downward through the wind supply pipe 432 by gravity and water pressure, The lower end of the casing 432 is positioned inside the inlet 432a of the wind supply pipe 432 so that the rainwater stored in the storage container 441 flows into the inlet 432a and flows into the casing 431 The rainwater supplied to the inside of the casing 431 is sprayed toward the rotating body 434 and the rotating body 434 is rotated and then the drain hole 431a formed in the lower part of the casing 431 .

As described above, the wind power generation unit 400 increases the power generation efficiency by rotating the rotor 434 by using rainwater together with the wind, and can generate electricity even when the weather is bad, the amount of sunshine is low, or the wind speed is low. It is also possible to secure its own power, and it can be managed unmanned even in the remote areas where the power is insufficient.

A switch 450 and a charging terminal 460 are installed inside the support column 411 and an external device is connected and charged through the exposed charging terminal 460 after opening the lower cover 465, An electronic device or the like can be connected through the wiring and the electricity can be used.

8, a plurality of curved surfaces 416 may be formed on the lower outer circumferential surface of the strut 411 and the flexible solar panel 420 may be provided on the curved surface 416. [ (471) is installed to convert light incident from the sun into electricity, and the generated electricity is charged into the power storage unit (500). In addition, the column 411 is provided with a reflection plate 472 at the lower end thereof, and reflects sunlight incident thereon, and re-enters the solar panel 471, thereby increasing power generation efficiency. At this time, a drainage hole 472a is formed in the reflection plate 472, so that rainwater can be drained smoothly without raining.

10, the power storage unit 500 includes the solar power generation unit 100, the second solar power generation unit 420, the third solar power generation unit 470, and the wind power generation unit 400 The electric power generated by the electric power is charged.

Thus, the combined power is generated through the solar power generation unit 100, the second solar power generation unit 420, the third solar power generation unit 470, and the wind power generation unit 400, It is possible to secure stable power supply, improve energy efficiency, and develop without significantly affecting the season or climate change.

The photographing unit 600 is rotatably installed on a camera support above the condenser plate 120 and transmits photographed image information to the control unit 700 while photographing and monitoring the condenser plate 120 by a camera, The controller 700 reads the image information and controls the respective motors, pumps, valves, and the like to detect foreign matter such as yellow dust, fine dust, etc., Or power is supplied to the heating element 140 so that cleaning is performed by heat generation.

The control unit 700 controls motors, pumps, valves, and the like to control the flow of water and compressed air and the movement of the cleaning shaft 260, Control electricity.

As a result, the photovoltaic and wind power generation apparatuses with enhanced power generation efficiency according to the present invention are improved in power generation efficiency due to combined power generation by wind power and solar power, so that sufficient power can be secured by itself without being affected by seasons or climate change, It is possible to supply and improve energy efficiency, minimize noise and vibration due to rotation of the rotating body during wind power generation, and can use sunlight, wind and rainwater together, and can generate electricity even at low wind speed or lack of sunshine , Can be automated and managed unattended.

The present invention is not limited to the above-described embodiments. Anything having substantially the same constitution as the technical idea described in the claims of the present invention and achieving the same operational effect is included in the technical scope of the present invention.

100. Tae Yang Light Power Department 105. Base Bar
110. Fixture 120. Condensing plate
121. Solar cell 122. Top film
123. Lower film 124. Glass plate
130. Support frame 131. Segment plate
132. The insertion groove 133. The receiving groove
140. Heating element 200. Government
205. Storage tank 210. Supply piping
220. Feed water pump 230. Air compressor
240. Air piping 250. Supply hose
260. Cleaning shaft 270. Cleaning tube
280. Piston tube 281. Piston plate 283. Elastic member
290. Injection means 291. Main nozzle
292. Auxiliary nozzle 300. Driving part
310. Supports 311. Guide bars
311a. Rail groove 312. Moving body
312a. Movement bundle 312b. Connecting rod
312c. Guide piece 320. Screw rods
330. Drive motor 331. Motor holder
340. Bearing 400. Wind power section
410. Column 411. Column
412. Supporting rods 413. Supporting plates
414. Connecting Rods 415. Operation Motors
416. The bent surface 420. The second solar photovoltaic portion
421. Solar panel 430. Wind power foot
431. Casing 431a. waterspout
432. Wind feeder 432a. Inlet
432b. Outlet 433. Rotation shaft
433a. Bearings
434a. Top plate 434b. Bottom plate
434c. Blade 435. Generator
440. Water supply 441. Reservoir
441a. Bottom hole 442. Water supply pipe
450. Switch 460. Charging terminal
465. Cover 470. Third Solar Power Generation Section
471. Solar panel 472. Reflecting plate
472a. Drain hole 500. Power storage unit
600. Shooting section 700. Control section
B. Solenoid Valve

Claims (8)

A photovoltaic power generation unit including a light collecting plate fixed with a fixing table and having a plurality of solar cells arranged therein to convert light incident from the sun into electricity and having a heating body electrically connected to the power supply;
A water supply pump is installed in the supply pipe, and the compressed air compressed by the air compressor is connected to the air pipe to be connected to the supply pipe, and the water or the compressed air is discharged from the discharge pipe toward the condenser A cleaning section having a cleaning shaft for spraying;
A plurality of support rods provided in a vertical direction and supported at the upper ends of the support rods so as to be convex outwardly are spaced apart from each other and connected to each other in the longitudinal direction, A rotation shaft which is rotatably coupled to the upper end of the support through the casing; and a casing which is rotatably coupled to the upper end of the support, the casing including a connection hole formed in the casing, A wind power generator which is built in the wind turbine and is fixed to the rotary shaft and has a plurality of blades and a generator built in the upper end of the support and connected to the rotor to generate electricity, A bottom hole is formed at the bottom of the bottom of the storage container, The pipe coupling and the end of the water supply pipe is located at the inlet wind rain water is introduced into the casing through the wind supply tube made of a water supply unit capable of rotating the rotating power generation unit;
A power storage unit in which electricity generated by the solar power generation unit and the wind power generation unit is stored;
A photographing unit installed above the light condensing plate for photographing a light condensing plate by a camera and transmitting the photographed image information to a control unit; And
And a control unit for controlling the flow of water and compressed air by controlling each of the motors, the pumps, and the valves, and controlling the electricity charged in the power storage unit.
The method according to claim 1,
The photovoltaic power generation unit includes a support frame coupled along the rim of the light condensing plate and having a built-in heating element, upper and lower films respectively provided on upper and lower portions of the solar cell to protect the solar cell, And a load sensor installed on the glass plate for detecting a stack of eyes and transmitting a detection signal to the control unit,
Wherein the supporting frame is heated by the heating element to transmit heat to the glass plate.
The method according to claim 1,
The screw rod is disposed on both sides of the solar power generation unit. Both end portions of the screw rod are supported through a supporting piece having a bearing. The screw rod has a driving unit that allows one end of the screw rod to be rotated by a driving motor to move the cleaning shaft Solar power and wind power generation equipment with enhanced power generation efficiency
The method of claim 3,
The cleaning section further comprises a supply hose connected to the end of the supply pipe and having a flexible material,
Wherein the cleaning shaft is connected to an end of the supply hose and both sides thereof are movably fastened to the screw rod.
The method according to claim 1,
The cleaning section includes a plurality of cleaning branch pipes communicating with the cleaning shaft in a downward direction, a piston tube that protrudes and retracts from the cleaning branch pipe by fluid pressure and allows fluid to pass therethrough, An elastic member which is disposed on the outer circumferential surface of the piston tube at the lower side of the piston plate and which is expanded and contracted by the pressure of the fluid and formed at the lower end of the piston tube; A spraying means for spraying the fluid in various directions and having a main nozzle formed at the lower end thereof and having a plurality of auxiliary nozzles formed in an inclined shape with a diameter decreasing toward the lower side along the outer peripheral surface, And wind turbines.
The method according to claim 1,
The wind power generation unit may further include a second solar power generation unit that includes a solar panel supported and connected to a top of the strut through a connecting rod and converts the light incident from the sun into electricity, Wind power generator
The method according to claim 1,
The casing has a connecting hole on one side of each of four side surfaces,
Wherein the wind supply pipe is formed so as to be gradually reduced in diameter from an inlet to an outlet, and the outlet is formed into a curved shape so as to face the rotating body.
The method according to claim 1,
The wind power generation unit further includes a third sunlight power generation unit having an outer circumferential surface having a plurality of curved surfaces at a lower portion of the strut and a sunlight panel installed on the curved surface to convert light incident from the sun into electricity,
Wherein the wind turbine generator is provided with a reflection plate at a lower end portion of the tower to reflect sunlight to be incident on a third solar generator section.

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