KR200446578Y1 - Angle Controller of Solar Cell Panel - Google Patents

Abstract

The present invention relates to an angle adjusting device of a solar panel, and more particularly, to a frame device unit and a solar panel which is rotatably coupled to an upper surface of the frame device unit to support the solar panel and to adjust the inclination angle according to the change of the altitude of the sun. And an angle adjusting unit coupled to the panel unit, the frame unit and the solar panel unit to enable the solar panel unit to rotate. Accordingly, the present invention provides an angle adjusting device for solar panels that can cope actively.

Frame unit, angle adjuster unit, solar panel unit, reducer, rotating pin, hoist

Description

Angle Controller of Solar Panel {Angle Controller of Solar Cell Panel}

The present invention relates to an angle adjusting device of a solar panel, and more particularly, to a frame device unit and a solar panel which is rotatably coupled to an upper surface of the frame device unit to support the solar panel and to adjust the inclination angle according to the change of the altitude of the sun. And an angle adjusting unit coupled to the panel unit, the frame unit and the solar panel unit to enable the solar panel unit to rotate. Accordingly, the present invention relates to an angle adjusting device of a solar panel that can cope actively.

The solar cell is a solar power generation system is an example of solar and solar power generation system. Solar panels should be placed at right angles to the sun's altitude to achieve the best power generation efficiency.

Recently, as oil prices exceed $ 100, the need for solar power generation systems is increasing more urgently in Korea.

On the other hand, in recent years, the trend is to convert to solar power rather than solar power.

Photovoltaic power generation is a power generation method that converts light energy directly from the sun into electrical energy. The core of the photovoltaic power generation is a solar cell having a pn junction structure. As photons are absorbed into the solar cell from the outside, electrons are generated inside the solar cell by the energy of the photons. Eh pairs are generated. The resulting pair of electron-electrons moves electrons to the n-type semiconductor and holes move to the p-type semiconductor by the armature generated at the pn junction and are collected at the electrodes on each surface. The charge collected at each electrode becomes a source of energy for operating the load as a current flowing in the load when the load is connected to an external circuit. Photovoltaic power generation is made by attaching a thin thin film solar cell to a wide plate to form a solar panel.

Although it takes a lot of land area to develop photovoltaic power, and the developed countries where alternative energy research is being conducted, it is still not expected to be practically applied in terms of technology and economics to realize it as a large-capacity energy source. As the sources of greenhouse gases such as carbon dioxide are mainly fossil fuels, reducing the use of fossil fuels in developed countries, and as a result, mandatory reduction of greenhouse gases, Korea is not a mandatory country. It is actively encouraging photovoltaic power generation such as support.

In addition, electricity generated by solar power is purchased at 716.4 won / kwh from KEPCO, but the difference is compensated only by excluding the power used by itself, such as light source tracking according to the solar altitude, to optimize solar power generation by introducing the difference compensation system. It is supposed to be received.

Most photovoltaic facilities are installed on a pedestal fixed at an angle to a wide range of sites. The solar power plant fixed at such a constant angle has a problem that the generation efficiency is severely different depending on the season.

As the earth rotates and orbits, the sun's position in each region changes daily. Currently, the device that tracks the movement paths from east to west along the sun has 10 ~ 15% higher power generation efficiency than the fixed type. It is constantly being developed.

However, it is extremely inefficient compared to the funds invested to obtain the above efficiency of 10-15%. In particular, such a large solar panel had such a problem.

The present invention was derived to solve the above problems, an object of the present invention, the solar panel is rotatably coupled to the frame portion using a worm reducer or using a hoist angle of the solar panel according to the altitude of the sun. An object of the present invention is to provide an angle adjusting device for a solar panel that can be easily adjusted.
The object of the present invention is to provide an angle adjusting device for a solar panel that can prevent the fall of the solar panel portion by the bite of the worm and the worm gear teeth according to the characteristics of the worm reducer using a worm reducer.
Another object of the present invention is to provide an angle adjusting device of a solar panel that can secure the safety by firmly fixing the solar panel unit after adjusting the angle of the solar panel unit, including a fixed rod and a fixed arm.
Another object of the present invention is to provide a solar panel angle adjustment device that can prevent the fall of the solar panel portion caused by a mistake during the operation, including the fall prevention bolt, the fall prevention jaw.

The present invention is implemented by the embodiment having the following configuration to achieve the above object.
According to an embodiment of the present invention, the angle adjusting device of the solar panel of the present invention is rotatably coupled to the frame device portion, the upper surface of the frame device portion to support the solar panel and to adjust the inclination angle according to the change in the altitude of the sun. And an angle adjusting device unit coupled to each of the solar panel unit and the frame unit and the solar panel unit to enable the solar panel unit to be rotatable, wherein the frame unit and the solar panel unit are rotatable by a rotation pin. And an angle reducer portion coupled to one side of the frame device portion, and a chain connected to each of the reducer and the rotating pins so as to rotate the solar panel portion by transferring the rotational force of the reducer to the rotating pins. Characterized in that.
According to another embodiment of the present invention, the angle adjusting device of the solar panel of the present invention is the worm reducer is used to prevent the fall of the solar panel portion because the teeth of the worm and the worm gear bite according to the characteristics of the worm reducer. Characterized in that it can.
According to another embodiment of the present invention, the angle adjusting device of the solar panel of the present invention is rotatable on the upper surface of the frame device portion to support the frame unit, the solar panel and to adjust the inclination angle according to the change in the altitude of the sun. A solar panel unit coupled to each other, an angle adjusting unit unit coupled to the frame unit unit and the solar panel unit to enable the solar panel unit to rotate, and the angle adjusting unit unit includes a traction wire and the frame unit unit The hoist coupled to the upper portion of one side, one end is coupled to the traction wire of the hoist and the other end includes a rope coupled to the bottom of the solar panel unit, the rope is the tie through the pulley coupled to the lower side of the frame unit It is characterized by rotating the panel part.
According to another embodiment of the present invention, in the angle adjusting device of the solar panel of the present invention, the frame device portion fall prevention jaw to prevent the panel from falling forward on one side of the upper surface and the other side that the panel falls backward It characterized in that it comprises a fall prevention bolt to prevent.
According to another embodiment of the present invention, in the angle control device of the solar panel of the present invention, the frame device portion includes a plurality of fixing bolts installed in a line up and down on one side, the solar panel portion is installed on one side It includes a bolt, and the fixing bolt and the eye bolt is connected to the fixing rod, it characterized in that the solar panel unit can be fixed according to the angle of the sun according to the position of the fixing bolt connected to the fixing rod according to the season. .
According to another embodiment of the present invention, in the angle adjusting device of the solar panel of the present invention, the angle adjusting device of the solar panel is coupled to one side of the frame device portion and the other end is rotated on one side of the solar panel portion Possible coupling is further included a fixed arm for fixing the solar panel unit, the frame device is characterized in that it further comprises a fall prevention jaw for supporting the fixed arm on one side.

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The present invention has an effect that the solar panel unit can be rotatably coupled to the frame portion to easily adjust the angle of the solar panel unit according to the altitude of the sun by using a shock reducer or a hoist.
The present invention has the effect of preventing the safety accident by preventing the fall of the solar panel part because the teeth of the worm and the worm gear bite each other according to the characteristics of the worm reducer using a worm reducer.
The present invention has an effect of providing safety by firmly fixing the solar panel unit after adjusting the angle of the solar panel unit by connecting the solar panel unit and the frame unit with a fixed rod and a fixed arm.
The present invention has an effect that can prevent the safety accident by preventing the fall of the solar panel portion caused by a mistake during the operation, including the fall prevention bolt, fall prevention jaw.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concepts of terms in order to best describe their own design. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention on the basis of the principle of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be substituted for them at the time of the present application It should be understood that there may be equivalents and variations.

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

Figure 1a is a perspective view showing an embodiment of a state of adjusting the angle of the solar panel according to the solar incident angle of the winter of the present invention, Figure 1b is to adjust the angle of the solar panel according to the solar incident angle of the summer of the present invention 2 is a rear perspective view of the present invention, FIG. 3A is a perspective view of the angle adjusting device part of the present invention, and FIG. 3B is a detailed perspective view of the angle adjusting device part of the present invention, and FIG. 4 is a reference diagram showing an easy to understand process of adjusting the angle of the solar panel of the present invention.

As shown, the angle adjusting device 2 of the present invention is hypothetically connected to the lower end of the solar panel unit 3 and the upper end of the frame unit 1 of the solar cell module 100.

1 to 4, the angle adjusting device of the solar panel according to the present invention includes a frame device part 1, an angle adjusting device part 2, and a solar panel part 3.

The frame device 1 is fixed on the concrete foundation 11 to support the solar panel 3, the frame 12, the top plate 13, the reducer mounting plate 14, the fixing bracket 15, fixed Bolt 16, pulleys (17, 18), fall prevention jaw (s3) is included.
The frame 12 takes the form of a rectangular parallelepiped column and is fixed with anchor bolts on the concrete foundation 11.
The upper plate 13 is a rectangular plate installed on the upper surface of the frame 12. The fall prevention jaw s2 which prevents the panel 32 from falling down on one side of the upper surface and protrudes in the form of a cylinder on the other side of the upper surface to the rear The panel 32 includes a fall preventing bolt s1 that prevents the fall.
The speed reducer mounting plate 14 is a rectangular plate installed on the rear surface of the frame 12 to support the speed reducer 24 'which will be described later. In addition, the reducer mounting plate 14 may include a hanger 141 made of a rectangular plate that can be extended to the lower portion to secure the hoist 24 to be described later.
The fixing bracket 15 is coupled between the fall prevention jaw (s2) of the upper plate 13 and the fall prevention bolt (s3) by screwing or welding, and also the rotating bracket of the solar panel unit 3 described later ( 33).
The fixing bolts 16 are installed in a row in a row up and down on one side of the frame 12 and connected to the fixing rod 22 to be described later, the position of the fixing bolt 16 is connected to the fixing rod 22 As a function of fixing the solar panel unit 3 according to the angle of the sun according to the season.
The pulleys 17 and 18 are respectively installed at the lower rear side of the frame 12 and the rear of the base 11 and are connected to the rope 21 to be described later.
The fall prevention jaw (s3) is a rectangular plate is bent to take the 'c' shape and is installed on the other side of the surface where the fixing bolt 16 is installed to support the fixing arm 23 to be described later.

The solar panel unit 3 supports the panel 32 and is rotatably coupled to an upper surface of the frame device unit 1 so as to adjust the inclination angle according to the change of the altitude of the sun, and the support 31 and the rotation bracket 33 ).
The support 31 has a rectangular plate member bent to take the 'c' shape and is coupled to the bottom surface of the panel 32 to support the panel 32. The support 31 includes an eye bolt 311 capable of engaging the fixing rod 22 to be described later on one side and a hanger 312 capable of engaging the rope 21 to be described later on one side of the lower surface. .
The rotating bracket 33 is coupled to the center of the lower surface of the support 21 by screwing or welding and is mutually coupled to the fixing bracket 15 of the frame device 1. Specific coupling relationship between the rotating bracket 33 and the fixing bracket 15 will be described in detail in the rotating pin 29 of the angle adjusting unit 2 to be described later.

The angle adjusting unit 2 is coupled to the frame unit 1 and the solar panel unit 3, respectively, the rotating pin 29, which serves to adjust the angle of the solar panel unit 3, the speed reducer 24 ', the chain 27, and the fixing rod 22, the fixing arm 23 serves to fix the angle of the solar panel unit 3 after adjustment.
The rotary pin 29 has a cylindrical shape and is inserted into the center of the combined rotary bracket 33 and the fixed bracket 15, and rotates the rotary pin 29 using the fixed bracket 15 as a mother. When the rotary bracket 33 is integrally rotated by the fixing means such as a key so that the rotary bracket 33 is firmly fixed. One end of the rotary pin 29 includes a chain sprocket 28 is connected to the chain 27 to be described later.
The reducer 24 ′ is coupled to the upper surface of the reducer mounting plate 14 of the frame 12 with a bolt to impart rotational force to the rotation pin 29. The output shaft of the reducer 24 'includes a chain sprocket 26 and a handle 25' for operating the reducer 24 'on the input shaft. A shock reducer or the like may be used for the reducer 24 '.
The chain 27 is connected to the chain sprocket 26 of the reducer 24 'and the sprocket 28 of the rotary pin 29 to transmit the rotational force of the reducer 24' to the rotary pin 29. do.
The fixing rod 22 serves to fix the solar panel unit 3 and hooks are formed at both ends thereof so that one end of the hook 222 is hook 223 at the other end to the eye bolt 311 of the support 31. ) Is fixed to the fixing bolt 16 of the frame 12. The fixing rod 22 includes a turnbuckle 221. When rotating the solar panel unit 3, the nut of the turnbuckle 221 is loosened to loosen the fixing rod 22 and the solar panel unit 3 is rotated. When fixing the fastening the nut 22 of the turnbuckle 221 so that the fixing rod 22 is swollen. According to the position of the fixing bolt 16 to which the fixing rod 22 is connected, it is possible to fix the solar panel unit 3 according to the angle of the sun for each season. On the other hand, loosening the nut of the turnbuckle 221 and adjusting the angle of the solar panel unit 3 is compared with removing the fixing rod 22 from the fixing bolt 16 and adjusting the angle of the solar panel unit 3. It may be a safety device to prevent the fall of the solar panel unit 3 due to a mistake during the operation.
The fixed arm 23 is a 'c' shaped steel used to serve to fix the solar panel unit 3, one end is fixed by a fixing bolt 232 on one side of the frame 12, the other end is One side of the support 31 is rotatably fixed by the origin pin 231. The fixed arm 23 includes a groove 233 which is formed in a rectangular shape in the vicinity of contact with the frame 12. When the fixing bolt 232 is inserted into the groove 233 to fix the fixing arm 23 and the fixing bolt 232 is partially removed to move the solar panel unit 3, the fixing bolt 232 is fixed to the frame 3. Fixed bolt 232 is moved along the groove 233 so that the fixed arm 23 does not interfere with the rotation of the solar panel unit (3).
Referring to the operation process of the angle adjusting device of the solar panel according to the present invention in detail, first loosen the nut of the fixed rod 22 turnbuckle 221 so that the solar panel unit 3 can move and the fixed arm 23 Loosen or remove fixing bolts (232). Meanwhile, loosening the nut of the turnbuckle 221 and working can be a safety device to prevent the fall of the solar panel unit 3 due to a mistake. After the operation, when the handle 25 'of the reducer 24' is rotated, the chain sprocket 26 rotates and the chain 27 rotates the chain sprocket 26 connected to the reducer 24 '. It is transmitted to the chain sprocket 28 connected to the) to rotate the rotary pin 29. As the rotating bracket 33 integrally coupled with the rotating pin 29 rotates, the entire solar panel unit 3 may move along to adjust the angle of the solar panel unit 3. When the worm type reducer 24 'is used in the above operation process, the teeth of the worm and the worm gear bite each other according to the characteristics of the worm reducer 24', thereby preventing the fall of the solar panel unit 3. There is an advantage. After adjusting the angle of the solar panel unit 3 according to the solar altitude through the above operation, the fixed rod 22 is tightened by adjusting the turnbuckle 221 of the fixed rod 22 and the fixed arm 23. Fasten the fixing bolts 232 of the solar panel part 3 to fix it.

An angle adjusting device of a solar panel according to another embodiment of the present invention further includes a hoist 24 and a rope 21 in the angle adjusting device unit 2.
The hoist 24 includes a hook 143 protruding from an upper surface of the hoist 24 is connected to and fixed to the hanger 141 extending below the reducer mounting plate 14 and connected to a rope 21 to be described later. And a handle 25 for operating the hoist wire 142 and the hoist 24.
The rope 21 transmits the driving force of the hoist 24 to the support 31, one end of which is connected to the hook 143 of the traction wire 142 and the lower pulley 17 of the rear of the frame 12 and the The hook 211 is formed at the other end through the pulley 18 behind the base 11 and is connected to the hanger 312 of the support 31.
Looking at the operation relationship of the angle adjusting device of the solar panel according to the present embodiment, the chain shaft 27 can not rotate in the state in which the chain 27 is connected due to the characteristics of the reduction gear 24 'first the chain 27 Is removed first, and then loosen the nut of the fixed rod 22 turnbuckle 221 so that the solar panel unit 3 can move and loosen or separate the fixing bolt 232 of the fixed arm 23. . Meanwhile, loosening the nut of the turnbuckle 221 and working can be a safety device to prevent the fall of the solar panel unit 3 due to a mistake. When the handle 25 of the hoist 24 is rotated after the operation, the wire 142 is wound inside the hoist 24 to pull the wire 142 and the rope 21 connected to the wire 142. The tow and the support 31 connected to the rope 21 is towed to be able to adjust the angle of the solar panel unit (3). After the angle adjustment of the solar panel unit 3, the turnbuckle 221 of the fixed rod 22 is also adjusted and the fixing bolt 232 of the fixed arm 23 is fixed to fix the solar panel unit 3.

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The present invention has been shown and described with reference to the preferred embodiment as described in the directors, but is not limited to the above embodiments and those skilled in the art without departing from the spirit of the present invention It is apparent that various modifications and variations are possible within the equivalent scope of the technical idea of the present invention and the utility model claims to be described below.

Figure 1a is a perspective view showing an embodiment of a state of adjusting the angle of the solar panel according to the incident angle of sunlight in winter of the present invention,

Figure 1b is a perspective view showing an embodiment of adjusting the angle of the solar panel according to the incident angle of sunlight in the summer of the present invention,

2 is a rear perspective view of the present invention,

Figure 3a is a perspective view of the angle adjusting unit portion of the present invention,

Figure 3b is a detailed perspective view of the angle adjusting device portion of the present invention,

Figure 4 is a reference diagram showing the easy to understand the process of adjusting the angle of the solar panel of the present invention.

<Description of the symbols for the main parts of the drawings>

1 frame unit 2 angle control unit

3: solar panel unit 11: foundation

12: frame 13: top plate

14: reducer mounting plate 15: fixed bracket

16: fixing bolt 21: rope

22: fixed rod 23: fixed arm

24: hoist 24 ': reducer

25: handle 25 ': handle

26: sprocket 27: chain

28: sprocket 29: rotation pin

31: support 32: panel

33: rotating bracket 141: hanger

142: wire 143: hook

231: origin pin 232: fixing bolt

234: fixing bolt 241: hook

a: Angle adjustment range s1: Fall prevention bolt

s2: Fall prevention jaw s3: Fall prevention jaw

Claims (6)

And a solar panel unit rotatably coupled to an upper surface of the frame unit to support a frame unit, a solar panel, and to adjust an inclination angle according to a change in the altitude of the sun. It includes an angle adjusting device to enable the solar panel portion can be rotated, The frame device unit and the solar panel unit are rotatably coupled by a rotation pin, The angle adjusting device unit includes a reducer coupled to one side of the frame unit, and a chain connected to the reducer and the rotating pin, respectively, to transfer the rotational force of the reducer to the rotating pin to enable the solar panel unit to rotate. The angle control device of the solar panel. The method of claim 1, The reducer is a worm reducer is used to adjust the angle of the solar panel, characterized in that the teeth of the worm and the worm gear bite each other according to the characteristics of the worm reducer to prevent the fall of the solar panel unit. And a solar panel unit rotatably coupled to an upper surface of the frame unit to support a frame unit, a solar panel, and to adjust an inclination angle according to a change in the altitude of the sun. It includes an angle adjusting device to enable the solar panel portion can be rotated, The angle adjusting device portion includes a hoisting wire and the hoist coupled to the upper portion of the frame device portion, one end is coupled to the towing wire of the hoist and the other end includes a rope coupled to the bottom of the solar panel unit, The rope is the angle control device of the solar panel, characterized in that for rotating the Taeil panel through a pulley coupled to the lower portion of the frame unit. The method according to claim 1 or 3, The frame unit is a fall prevention jaw to prevent the panel from falling forward on one side of the upper surface and the other side of the solar panel angle adjustment device comprising a fall prevention bolt to prevent the panel from falling backward. The method of claim 4, wherein The frame unit includes a plurality of fixing bolts installed in a line up and down on one side, The solar panel unit includes an eye bolt installed on one side, Since the fixing bolt and the eye bolt are connected to the fixed rod, the angle of the solar panel can be fixed to the solar panel according to the angle of the sun according to the position of the fixed bolt connected to the fixed rod. Device. The angle adjusting device of the solar panel of claim 5 One end is coupled to one side of the frame device portion and the other end is rotatably coupled to one side of the solar panel unit further includes a fixed arm for fixing the solar panel unit, The frame device unit, the angle adjustment device of the solar panel further comprises a fall prevention jaw for supporting the fixed arm on one side.

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