KR101684845B1 - Automatic opening and closing wind power generator - Google Patents

Abstract

The upper and lower outer rotary plates are manufactured in the same way around the center fixed axis, and the over-rotation preventing shafts and the automatic switches are formed between the upper and lower outer rotary plates in the same manner, and the vertical force is applied to the opening and closing plates attached to the automatic switches. When the rotary body is rotated, the position of the anti-rotation axis is changed and the position of the anti-rotation axis is changed to be positioned on the front face of the opening / closing plate. As a result, the opening / closing plate is opened backward, The multi-pole, low-speed generator installed on the bottom of the circular rotating body which is automatically closed by the force, is opened and repeatedly rotated. The generator is cylindrical and has a central hole. A plurality of coils are fixedly arranged in the center of the generator. Make the same number of rotors on both sides, same number, same number of magnetic force, When a stator (coil) is installed, a magnetic field is generated and electricity is generated. A horizontal wing plate support and a variable band are formed on the rear face of the circular rotation body. The inclined horizontal wing plate is attached to the control plate installed on the horizontal wing plate support by being pushed toward the circular rotation body when the wind blows strongly, and it is contacted to the control friction plate installed on the bottom of the lower rotation plate to prevent over speed rotation and prevent self damage Wherein the wind power generator

Description

Automatic open-close wind power generator {omitted}

The present invention relates to an automatic opening and closing wind turbine generator, and more particularly, to an automatic opening and closing wind turbine generator having a plurality of over-rotation preventing shafts and an open / The automatic switch that receives the force of wind even if the wind blows in any direction is closed by closing the back. The automatic switch that does not receive wind by the force of wind forms the circular rotating body which does not give resistance to rotation, , A low-speed generator is manufactured and attached, and it is constructed so as to be able to produce electricity at low wind speed while rotating in the same direction, and a horizontal wing plate is installed at an angle to the rear side of the circular wing. When the wind blows strongly, the horizontal wing plate rises to the top of the circular wing Using the control panel fixed to the horizontal wing support, the control friction plate Closing wind turbine generator is designed to perform the control operation by contacting the turbine rotor to prevent rotation of the rotor, prevent rotation of the rotor, prevent self-breakage, and improve power generation efficiency.

In general, wind is a phenomenon in which air moves due to the difference in density of the atmosphere. Therefore, efforts are being made to produce alternative energy in preparation for depletion of fossil fuels by using vertical and horizontal wings using wind.

Many small vertical wind power generators have been developed and commercialized, but they are not doing well.

In addition, although the vertical small-sized wind turbines are trying to increase the electric output by using a plurality of vertical blades, since the vertical blades are fixedly installed, wind friction occurs on several vertical blades of the plurality of vertical blades, When the vertical small-sized wind power system is rotated, the opposite side vertical wings are fixed in the form of being subjected to wind friction without being subjected to the wind friction, so that they have a large resistance force while rotating, weakening the rotary power and raising the power generation amount.

Vertical compact wind turbines can improve the efficiency of power generation by commercializing a generator that can generate electricity even at low wind speed, but at present, there is no generator with high electricity production efficiency.

Vertical compact wind turbines are not able to expand vertical wind turbines because they can not prevent overturning because the wind turbine itself is destroyed due to excessive rotation of the wind turbine due to excessive force applied by wind friction to the vertical vane It is true.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an apparatus and a method for manufacturing the same, , The upper and lower bearings are fixed on the inner supporting plate and the over-rotation preventing axis is fixed on the inner supporting plate, the cylindrical rotating tube is formed on the same surface as the fixing shaft bar, and the opening and closing plate is formed on one side And the opposite side opening / closing plate is formed to be formed as a circular rotating body which is less resistant to wind friction by opening the opposite side opening and closing plate to raise the rotational force

The multi-pole, low-speed generator type that generates electricity even at low wind speed is cylindrical, the center is open, the lower part of the generator is fixed to the plane, the generator exterior and inner exterior have a concave and convex shape, The stator is fabricated and installed, and the rotor is made in the same size and the same number as the same size, and rotated in the same direction in the same direction, so that a high magnetic field is generated and a lot of electricity is generated.

A horizontal wing with a wind deflector mounted on the upper part of a horizontal wing support installed on the rear side of the circular rotary body is inclined and connected to a part of the horizontal wing support to be able to rotate 360 °. A semi-circular control panel is installed on a horizontal wing support When the wind is blowing strong, the horizontal wing rises up to hit the control friction plate installed on the bottom of the lower rotating plate by the force pushing toward the circular rotating body, so that the brake operation is performed to prevent over rotation of the circular rotating body and prevent self breakage And

In order to accomplish the above object, the present invention provides a power generating apparatus for a power generator, comprising: a circular rotating body rotating unit that receives wind directly, a cylindrical multi-pole generator attached to a bottom of the lower rotating plate and rotated in the same direction by a rotation force of the circular rotating body, And a control part for preventing over rotation of the circular rotary body by installing a semicircular control panel for slanting the horizontal wing plate on the upper part of the horizontal wing supporter installed on the horizontal wing supporter and for braking so as to protrude from the horizontal wing supporter.

There are a number of automatic switches with anti-rotation axis and switch plate installed between the upper and lower outer rotary plates, and the same number and number of automatic switches are installed vertically. The open / The plate is closed back and the opening and closing plate which does not receive the wind is opened so as to form a circular rotating body which does not resist the rotation so that the opening and closing plate is closed and the opening and closing are automatically carried out. , It is configured to generate strong rotational force and rotational speed.

형고정관과

형마찰관을 원형으로 제작,

형고정관 내에 삽입시키고 상부에는

형마찰관을 끼워넣어 고정시키고 고정자 양면에 다수개 회전자(자석)을 동일한 규격과 자력으로 같은 개수로 제작, 내, 외측 회전자관에 N-S극이 마주보게 부착시키면서 하부 베어링도 고정시키고 상부 베어링을 설치하여 같은 방향, 동일하게 회전하도록 구성하여 전기를 생산하는 다극, 저속 발전기로 형성시키고The shape of the generator is cylindrical, the center is open, the lower part of the generator is fixed to the plane, the generator exterior and internal exterior are shaped as concave and convex, the upper rotary plate of the generator is configured to rotate in plane,

And

Shaped friction tube,

And inserted into the fixation tube

Type friction tube, and a number of rotors (magnets) on the both sides of the stator are made in the same number and the same number of magnetic force, and the lower bearing is fixed while the NS pole is attached to the inner and outer rotor tubes, Speed generator, which is constructed to rotate in the same direction and in the same direction to produce electricity

A horizontal wing plate on the rear side of the circular rotating body is provided with a horizontal wing plate at an upper portion thereof, and a semicircular control board provided with a horizontal wing plate protruding from the horizontal wing plate support by using the force of pushing the horizontal wing plate upward and pushing toward the circular rotating body The control friction plate is frictionally attached to the bottom of the lower rotating plate, so that the control effect is obtained, thereby preventing the rotation of the circular rotating body and preventing its own damage.

The automatic opening and closing wind turbine generator of the present invention is vertically installed, so that it is easy to secure the site because the installation space of the power generator facility is small.

The automatic opening and closing wind power generator is operated by the wind, so there is an advantage that no additional fuel is required.

Since the automatic opening and closing wind turbine generator operates by wind, it does not generate noise and does not affect the surrounding natural environment, and also does not generate waste.
An automatic opening and closing wind power generator has a wide advantage in generating a power of rotation by directly receiving the wind and generating power at low wind speed by rotating in the same direction and speed as multipower and low speed generators.
An automatic opening and closing wind power generator has a wide advantage in generating a power of rotation by directly receiving the wind and generating power at low wind speed by rotating in the same direction and speed as multipower and low speed generators.

1 is a schematic perspective view of a vertical conventional small wind turbine
2 is a schematic top plan view of an automatic opening and closing wind power generator according to the present invention.
3 is a schematic side sectional view of an automatic opening and closing wind turbine generator according to the present invention
4 is a schematic perspective view of an automatic opening and closing wind turbine generator according to the present invention
5 is a schematic rotation view showing the operation of the open / close plate of the automatic opening and closing wind power generator according to the present invention
FIG. 6 is a schematic plan view of a multi-pole, low-speed generator of an automatic opening and closing wind turbine generator according to the present invention.
7 is a cross-sectional view of a schematic multi-pole, low-speed generator of an automatic opening and closing wind turbine generator according to the present invention
8 is a perspective view of a schematic horizontal wing support of an automatic opening and closing wind power generator according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, a detailed description of known functions and configurations that may unnecessarily obscure the present invention will be omitted. The embodiments of the present invention are provided to more safely explain the present invention to those having ordinary skill in the art. Therefore, it is needless to say that the shapes and sizes of the elements in the drawings can be enlarged and emphasized for a clearer description.

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The operation of each part constituted by the circular rotating body 1 will be described in detail. The center fixing shaft 12 is vertically fixed to the upper part of the center belt 11 and the upper and lower bearings 13 are fixed vertically at a constant interval Is fixed to occur

The upper and lower inner support plates 14 to be attached to the outer surfaces of the upper and lower bearings 13 are circularly formed while the joints 14-1 are drilled at the center, And the upper and lower outer rotary plates 15 having the same interval are formed in the same size and circular shape while the upper and lower outer rotary plates 15 are formed into the same size and circular shape as the coupling holes 14-2 formed in the outer surface of the inner support plate 14, 15-1) are perforated and arranged,

When a plurality of the upper and lower connecting plates 16 are made to be the same size and fixed to the outer surface of the upper and lower inner supporting plates 14 and the inner surface of the outer rotating plate 15, Upper and lower outer rotary plates 16-1 and 20-1 configured to rotate in the same space and prevent buoyancy due to air friction and to receive less resistance so that the upper and lower inner support plate joints 14-1, And the outer surface of the upper and lower bearings 13 are jointly rotated so as to rotate together and the overrunning and retreating shaft 18 and the stationary shaft 21-1 are made to have the same size and length, The upper and lower bearings 19-2 are fitted and fixed to the outer surface of the fixed shaft 21-1 which is vertically coupled to the lower inner support plate coupling hole 14-2 with bolts The cylindrical rotary tube (19-3) is made to have a width that is easy to rotate and is inserted and fixed, and the outer side has the same width An opening and closing plate 19-4 is formed and attached to the automatic stopper 19 so as to strike against the rotation stopping shaft 18 so that the opening and closing plate 19-4 is inserted into the engaging hole 15-1 formed in the upper and lower outside rotating plates 15 The circular rotary body 1 for maintaining the gap between the upper and lower outer rotary plates 16-1 and 20-1 and preventing the deformation from occurring when the open-close tube 19-4 is coupled to the front surface of the over- So as to rotate in the same direction and speed

The over-rotation preventing shaft 18 provided on the upper and lower inner supporting plates 14 is located on the rear surface of the opening and closing plate 19-4 attached to the automatic switch 19 so as not to be pushed back, The rotation preventing shaft 18 is provided on the front surface so that the opening and closing plate 19-4 is spaced apart and rotates along the circular rotating body 1 while being opened to receive less resistance Is

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The opening / closing plate 19-4, which directly receives the wind, has a high rotational force and a large number of revolutions even at low wind speed, and is closed by the wind like the automatic switch 19, opened and shifted to rotate the circular rotating body 1, 16-1) A control friction tube 21 made in a circular shape is attached (not marked) to the outside of the bottom surface,

)형태의 평면으로 구성된 형상을 가지고 있으며The generator casing 22-1 and the generator inner casing 22-2 have a concavo-convex form and the generator lower part 22-3 has a flat surface. And the generator upper rotating plate 22-4 is fixed to the tower

) Shape with a plane shape

The lower portion 22-3 of the generator is fixed by a flat plate so that the concave-convex generator exterior 22-1 and the generator inside exterior 22-2 are easily detachable from the generator lower portion 22-3 Generator 22 itself

)형태(평면으로 일부 표기)의 평면으로 발전기 외장(22-1)(외장 표기)과 발전기 내측외장(22-2)(내측외장 표기)에서 이격되어 회전하는 발전기(22) 외관의 형체를 가지며
발전기 하부(22-3) 중심에는 구리선으로 규격과 형태에 맞는 코일을 홀수로 다수개 제작 고정자(22-13)로 형성시켜 원형으로 배열하도록 구성하고,The generator upper rotating plate 22-4 (denoted by the upper rotating tube)

Of the outer appearance of the generator 22 that is spaced apart from the generator exterior 22-1 (exterior designation) and the generator inside exterior 22-2 (inside exterior designation)
A plurality of coils conforming to the standard and the shape of the copper wire are formed in the center of the lower portion of the generator 22-3 by an odd number of stator 22-13,

형 고정관(22-14)을 원형으로 제작, 발전기 하부(22-3)와 핀으로 고정(미표기)시키고 제작한 고정자(코일)(22-13)을

형 고정관(22-14)내에 삽입시켜 고정시키고, 각 균일마다 연결선으로 연결시켜 발전기 외부로 배출시키고, 코일 상부에도 절연재를 사용하여

형 고정관(22-14)과 동일한

형 마찰관(22-15)을 제작하여 코일 상부에 끼워 넣어 흔들리지 않도록 고정시키고Using insulation material in the center of the generator lower part (22-3)

Shaped fixing pipe 22-14 is formed into a circular shape and fixed to the lower portion of the generator 22-3 by a pin and then the stator 22-13

Shaped fixed tube 22-14 and connected to each other by a connecting line for each uniformity to be discharged to the outside of the generator,

Shaped fixing pipe 22-14

Shaped friction pipe 22-15 is fabricated and fitted in the upper portion of the coil so as to be fixed so as not to be shaken

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The lower bearing 22-7 is formed in the same circular shape while the inner rotor plate 22-5 is formed in a circular shape with the stator 22-13 installed in the generator 22 as a center, (Not illustrated), and a plurality of inner rotors (magnets) 22-6 having the same size, shape, and magnetic force are attached to the center of the inner rotor plate 22-5 so as to rotate in the same direction

형 마찰판(22-15)과 접촉하여 회전하도록 설치하면서 발전기 상부회전판(22-4) 밑면과 접합시켜 동일한 방향과 속도로 회전하도록 설치하고An upper bearing 22-8 protrudes from the upper end of the inner rotor plate 22-5

Shaped friction plate 22-15 so as to rotate and to be connected to the bottom surface of the generator upper rotating plate 22-4 so as to rotate in the same direction and speed

The lower bearing 22-11 is formed in the same circular shape while the outer rotor plate 22-9 is formed around the stator 22-13 installed in the generator 22 and attached to the lower portion 22-3 of the generator (Magnets) 22-10 of the same number as that of the inner rotor (magnet) 22-6 are formed in the center of the outer rotor plate 22-9 The inner rotor 22-6 and the NS pole are attached to each other so as to face each other while being attached thereto so as to rotate in the same direction and speed as the outer rotor plates 22-5 and 22-9

형 마찰판(22-15)과 접촉하여 회전하도록 설치하면서 발전기 상부회전판(22-4) 밑면과 접합시켜 동일한 방향과 속도로 회전하도록 설치하였으며An upper bearing 22-12 is also made to protrude from the upper end of the outer rotor plate 22-9

Shaped friction plate 22-15 so as to rotate while being connected to the bottom surface of the generator upper rotating plate 22-4 so as to rotate in the same direction and speed

)형태를 가지며 상면에는 연결구(22-16)가 천공되어 있으며 밑면 양면에 내측회전자판(22-5)과 외측회전자판(22-9)을 고정시켜 같은 방향 동일한 속도로 회전하도록 구성하였으며The upper rotating plate 22-4 of the generator is horizontally disposed on both sides of the generator casing 22-1 so as not to be separated from the inner casing 22-2 of the generator casing 22-1.

), And a connecting hole (22-16) is perforated on the upper surface, and an inner rotator plate (22-5) and an outer rotator plate (22-9) are fixed on both sides of the bottom surface to rotate at the same speed in the same direction

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As described above, the generator 22 includes the rotors 22-6 and 22-10, which are suitable for rotating both sides of the stator 22-13, (Unrepresented) on the inner and outer rotor plates 22-5 (22-9) and rotated in the same direction, a magnetic field is generated while passing through the stator (22-13) And a low-speed generator,
Is connected with a generator connection pin (20) which is fixedly projected on the bottom surface of the circular rotary body (1) lower rotary plate (16-1) and a connecting hole (22-16) formed in the upper surface of the generator upper rotary plate (22-4) Fix it to rotate at speed

The horizontal wing plate 23 is provided on the rear side of the circular rotating member 1 and is provided with a fixed bearing 23-1 and a variable large bearing 23-7 on the outer surface of the center ground 11, The horizontal wing plate support 23 and the connecting variable base 23-6 are formed into a ladder using a flat plate,

A support pin fixing pin 23-2 protruding from both sides of the fixed bearing 23-1 provided on the outer surface of the center ground 11 is fixed and fixed to one side of the horizontal blade support 23

A horizontal blade 23-3 is formed on the upper surface of the manufactured horizontal blade support 23 and is inclined. When the wind is strongly blown, the horizontal blade 23-3 is pushed up toward the circular rotation body 1 Is configured to operate as a brake by a control panel 23-8 provided at the middle portion of the horizontal wing plate support 23

When the wind direction plate 23-4 is fabricated and attached on the upper surface of the horizontal wing plate 23-3, the direction of the wind is displayed and the horizontal wing plate support 23 and the connection variable table 23-6 are fluidly coupled to each other Direction of rotation

A variable-size fixing pin 23-5 protruding from both sides of a variable-size bearing 23-7 provided on the outer surface of the center zone 11 is fixed, and a rectangular connecting-type variable- The holes are perforated and attached to the left and right movable pins 23-5 so that they can be moved together with the horizontal wing plate support 23 at the opposite ends thereof.

A control plate 23-8 is fixedly installed so as to protrude from an intermediate portion between the connection variable bar 23-6 and the horizontal blade plate support 23 which are installed in a flowing manner and circularly formed on the bottom surface of the lower rotary plate 16-1, (Brake friction plate) 21,

When the wind is strongly blown, the wind direction plate (23-4) indicates the direction of the wind, and the inclined horizontal wing plate (23-3) is raised upward and pushed toward the circular rotation body (1) The control plate 23-9 provided at the intermediate portion rubs against the control friction plate 21 attached to the bottom surface of the lower rotary plate 16-1 to perform control operation to prevent rotation with the circular rotary body 1 and prevent self- And is configured to rotate 360 degrees from the rear side around the circular rotating body 1 even if the wind blows in any direction.

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While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. .

형 고정관 22-15 :

형 마찰관
22-16 : 연결구 23 : 수평날개판 지지대
23-1 : 고정베어링 23-2 : 지지대 고정핀
23-3 : 수평날개판 23-4 : 풍향판
23-5 가변대 고정핀 23-6 : 연결가변대
23-7 : 가변대베어링 23-8 : 제어판(브레이크)1: Circular rotation 11: Center support
12: center fixing shaft 13: upper and lower bearings
14: upper and lower inner supporting plate 14-1:
14-2: Coupling port 15: Upper and lower outer rotary plate
15-1: Coupling port 16: Upper and lower connecting plate
16-1: lower rotating plate 18: anti-rotation axis
19: automatic switch 19-1: fixed shaft
19-2: Upper and lower bearing 19-3: Cylindrical rotary pipe
19-4: opening / closing plate 20: generator and connecting pin (screw type)
20-1: Upper rotary plate 21: Control friction plate (brake friction plate)
22: Multi-pole, low-speed generator 22-1: External generator
22-2: Inner exterior of the generator 22-3:
22-4: generator upper rotating plate 22-5: inner rotating plate
22-6: Inner rotor (magnet) 22-7: Lower bearing
22-8: Upper bearing 22-9: Outer rotary plate
22-10: outer rotor (magnet) 22-11: lower bearing
22-12: Upper bearing 22-13: Stator
22-14:

Type fixing pipe 22-15:

Type friction tube
22-16: Connector 23: Horizontal wing plate support
23-1: Fixed bearing 23-2: Supporting support pin
23-3: Horizontal blade plate 23-4: Wind direction plate
23-5 Adjustable base fixing pin 23-6: Connection variable base
23-7: Adjustable Large Bearing 23-8: Control Panel (Brake)

Claims (4)

A center support 11 having a cylindrical shape and fixedly installed on a bottom surface thereof;
A center fixing shaft 12 vertically fixed to the center of the upper surface of the center ground 11 and formed in a cylindrical shape and provided with upper and lower bearings 13 on the upper and lower outer circumferential surfaces respectively;
A pair of upper and lower inner supporting plates 13 and 14 fixed to the outer peripheral surface of the upper and lower bearings 13 and having a circular plate shape and being rotatable with respect to the center fixing shaft 12, (14);
(14-2) having a plurality of upper and lower inner support plates (14) formed radially through the upper and lower inner support plates (14) in a vertical direction;
The upper and lower inner support plates 14 and 16 are spaced apart from each other by a predetermined distance and are connected to the upper and lower inner support plates 14 by a plurality of upper and lower connection plates 16. [ A lower outer rotary plate 15;
A fixed shaft 19-1 having a cylindrical shape and elongated in the vertical direction and having both ends rotatably engaged with the engaging holes 15-1 of the upper and lower outer rotary plates 15, An automatic switch 19 formed of a rectangular plate and rotatably installed on the outside of the upper and lower outer rotary plates 19-1 and 19-1 and configured to rotate the upper and lower outer rotary plates 15 by the wind;
The upper and lower inner supporting plates 14 are fixed to the upper and lower inner supporting plates 14 at both ends thereof in a cylindrical shape and are vertically installed radially with respect to the central axis of the upper and lower inner supporting plates 14 Rotation preventing shaft (18) for preventing the opening / closing plate (19-4) rotated by the wind from being rotated by a predetermined angle or more;
A multipolar low-speed generator 22 installed at a lower portion of the lower outer rotary plate 15 and connected to the lower outer rotary plate 15 by a connection pin 20 to generate electricity according to the rotation of the lower outer rotary plate 15, )Wow;
A horizontal blade support 23 installed at an outer peripheral surface of the center ground 11 at a predetermined angle and rotated with respect to the center ground 11 according to the wind direction;
A horizontal blade plate 23-3 horizontally installed on the upper surface of the horizontal blade support 23 for moving the horizontal blade support 23 toward the lower rotary plate 15 by lifting force according to the intensity of the wind, )and;
A wind direction plate 23-4 vertically protruding from the center of the horizontal wing plate 23-3 and rotating the horizontal wing plate support 23 in a wind direction according to a wind direction;
The upper end of the lower blade support 23 protrudes toward the lower outer rotation plate 15 so that when the wind exceeds a predetermined speed, A control panel 23-8 that moves to the side of the control panel 23-8;
And a control friction plate 21 protruding in a circular ring shape on the lower surface of the lower outer rotation plate 15 and decelerating the rotation speed of the lower outer rotation plate 15 by friction with the control plate 23-8 Automatic open / close wind power generator. 2. The apparatus according to claim 1, wherein a plurality of open / close boards (19-4) provided on the upper and lower outer rotary plates (15)
The upper and lower inner side support plates 14 and the upper and lower outer side plates 15 are repeatedly or alternately arranged in contact with or separated from the overtight prevention shaft 18 in accordance with the rotation of the upper and lower outer rotary plates 15, And rotates the upper and lower outer rotary plates (15) by dividing or unfolding the upper and lower outer rotary plates (15). The multi-pole low-speed generator (22) according to claim 1,
A generator casing (22-1) formed with a concave-convex portion on an outer peripheral surface and formed in a circular ring shape;
A generator built-in 22-2 installed inside the generator casing 22-1 and having a diameter smaller than that of the generator casing 22-1 and having a concave-convex portion formed on an inner circumferential surface thereof;
A generator installed in a bottom surface of the generator enclosure 22-1 and the generator enclosure 22-2 and defining a bottom surface between the generator enclosure 22-1 and the generator enclosure 22-2; (22-3);
And is formed in a space between the generator casing (22-1) and the upper end of the generator built-in (22-2) and has a connecting hole (22-16) And a generator upper rotating plate (22-4) coupled to the lower outer rotating plate (15) and rotating within the generator outer casing (22-1) and the generator inner casing (22-2);
Inner and outer rotor plates (22-5, 22-9) protruding from both sides of the lower surface of the generator upper rotating plate (22-4) and formed in a circular ring shape;
The inner and outer rotator plates 22-5 and 22-9 are fixed to one surface of the inner and outer rotator plates 22-5 and 22-9, and a plurality of the inner and outer rotator plates 22-5 and 22-9 are attached at regular intervals, Inner and outer rotors 22-6 and 22-10 to be rotated;
A stator 22-13 installed between the inner and outer rotors 22-6 and 22-10 and fixed between the inner and outer rotors 22-6 and 22-10 to generate electricity, ; And a self-closing wind turbine generator. 2. The apparatus according to claim 1, wherein on the upper side of the center ground (11)
And a variable bearing (23-5) installed to surround the outer peripheral surface of the center ground (11)
On the outer side of the variable large bearing 23-5,
One end of which is coupled to the horizontal blade support 23 and the other end of which is coupled to the variable blade bearing 23-5 so that when the horizontal blade support 23 is rotated to the left and right, (23-6) for guiding the wind turbine generator (10).

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