KR101096673B1 - Generator use wind power or water power - Google Patents

Abstract

The present invention is installed in a state perpendicular to the ground, the upper support 100 is provided with a housing 101; A generator 110 embedded in the housing and electrically connected to the capacitor 200 installed on the ground; A lower rotating plate 120 installed at an end of the power generation shaft 112 of the generator, having a plurality of lower fitting balls 121 formed at equal intervals around the upper surface thereof, and having a lower exhaust hole 122 formed on a surface thereof; A controller 190 for detecting a rotational speed of the lower rotating plate and generating a control signal; A driving motor 170 installed on an upper surface of the lower rotating plate 120 and driven in a forward / reverse direction by a control signal generated from a control unit; A lifting member 150 screwed to the rotating shaft 171 of the drive motor, the outer peripheral surface having a plurality of guide grooves formed therein; An upper rotary plate 130 having upper fitting balls 131 corresponding to the lower fitting balls 121 at equal intervals and having an upper exhaust hole 132 formed on a surface thereof around the bottom; The upper end is installed in the center of the bottom surface of the upper rotating plate and the lower end is fitted in the center of the elevating member 150, the lower surface is in contact with the upper surface of the rotating shaft 171 (140); The support shaft 181 to be fitted to the lower fitting ball 121 and the upper fitting ball 131 is formed to protrude, the inner surface is composed of a plurality of rotary blades 180 formed to protrude a guide member fitted to the guide groove. will be.

Wind power, hydropower, generator, rotor blades, angle, speed, motor

Description

Generator using wind and hydropower {GENERATOR USE WIND POWER OR WATER POWER}

The present invention obtains the power from the wind blowing from the outside and the internal air or the algae of the water to the outside to convert the power into electrical energy to adjust the angle of the rotary wing of the wind / hydro generator according to the strength of the wind or hydraulic power At the same time it relates to a wind power and hydroelectric power generating device to maximize the power generation efficiency by rotating the rotor blades at a constant speed irrespective of the strength of the wind and hydraulic power.

In general, the wind power generator converts the rotational power obtained from the wind-driven rotor blade into electrical energy, and can obtain safe natural energy at a relatively low installation cost. It is installed in place.

Recently, the depletion of fossil fuels and the serious environmental pollution caused by them have become a global issue. As a countermeasure, the interest in solar power, geothermal heat, tidal tidal water, and natural energy such as wind, geothermal heating and power generation, tidal power generation, and wind power generation, which have no concern about infinite resources and pollution, is of course increased. Competition for securing technology and preoccupying the market is fierce.

In Korea, it is a natural environment that is favorable for solar and tidal power generation due to the abundance of sunshine and the difference between tides, and it is also suitable for wind power generation because there is abundant wind blowing according to the season.

Wind power is to generate electricity by operating the generator through the power transmission device to receive the rotational force of the blades that are rotated by the wind. In order to maximize the efficiency, wind power must be utilized to the maximum without loss of energy. It is most important to have.

Conventional wind power generators have a propeller type having a windmill-shaped wing and an impeller type having several wings vertically formed around a vertical axis.

The propeller type pushes the blades and rotates the wind as the wind passes on the inclined plane of the blades, resulting in a large amount of wind loss, which reduces efficiency.

Impeller type can receive a large amount of wind because the wing is concave when the wing is low wind, but there is a fear that the rotational force is lowered by receiving a lot of wind resistance when turning the wind to return to the wind direction.

On the other hand, in recent years, impeller-type wind power generators have become larger in size in order to obtain a large amount of electrical energy, and as they are enlarged, they have been manufactured considering the mechanical strength and design stability, but strong winds such as typhoons or instantaneous gusts In case of occurrence, the resistance to the rotary blades and props is greatly increased, causing the entire windmill to be rolled over or tilted. In some cases, the rotary blades are broken or bent.

In addition, since the conventional rotary blades have not been devised any means for changing the angle, when the wind strength is small, there is a problem that the rotation blade is not rotated or the rotational speed is reduced to reduce the power generation performance.

In other words, even if the strength of the wind changes depending on the time, season, location, there is an urgent need for a power generation apparatus using wind power and hydropower that can maintain a constant speed of the rotor blades.

The present invention is to solve the above problems, the object is to adjust the angle of the rotary blades according to the rotational speed, in the case of breezy or weak hydraulic power to expand the rotary blades, in the case of strong wind or strong hydraulic power It is to provide a power generator using wind and hydropower that allows the power to be constantly generated by the generator regardless of the wind or hydropower by shrinking the wings.

Referring to a characteristic configuration of the present invention for achieving the above object, is installed in a state perpendicular to the ground, the upper end of the support 100 is provided with a housing 101; A generator 110 embedded in the housing 101 and electrically connected to the capacitor 200 installed on the ground; A lower rotary plate 120 installed at an end of the power generation shaft 112 of the generator 110, and having a plurality of lower fitting balls 121 formed at equal intervals around the upper surface thereof, and having a lower exhaust hole 122 formed on a surface thereof; A control unit 190 for detecting a rotational speed of the lower rotating plate 120 and generating a control signal; A driving motor 170 installed on an upper surface of the lower rotating plate 120 and driven in a forward / reverse direction by a control signal generated from the controller 190; A lifting member 150 screwed to the rotation shaft 171 of the drive motor 170 and having a plurality of guide grooves formed on an outer circumferential surface thereof; An upper rotary plate 130 having upper fitting balls 131 corresponding to the lower fitting balls 121 at equal intervals and having an upper exhaust hole 132 formed on a surface thereof around the bottom; The upper end is installed in the center of the bottom surface of the upper rotating plate 130 and the lower end is fitted in the center of the elevating member 150, the lower surface is in contact with the upper surface of the rotating shaft 171 (140); A plurality of rotary blades formed with the support shaft 181 to be fitted to the lower fitting ball 121 and the upper fitting ball 131 to protrude from the upper and lower portions, respectively, and the guide member fitted to the guide groove protrudes from the inner side. It consists of 180.

In addition, the guide groove is formed of a spiral groove 152 having an inclination angle, the guide member is formed of a guide rod 183 fitted into the spiral groove 152, and the guide groove is a vertical groove 153 in a vertical direction The guide member is formed of an inclined plate 184 fitted into the vertical groove 153.

And the end of the rotary blade 180 is formed with a bent piece 182 bent to one side, the other rotary blade 180 is formed in an arc shape so that the upper side toward the center and the lower side toward the circumferential direction, another Rotating blade 180 is formed in the upper portion is narrower and gradually wider.

In addition, the outer circumferential surface of the central shaft 140 is formed with a spiral exhaust groove 160 to exhaust the wind, the upper surface of the lower rotary plate 120 and the bottom of the upper rotary plate 130 to the wind to the outside The lower guide plate 123 and the upper guide plate 133 for exhausting are formed, respectively.

The generator using the wind and hydraulic power of another embodiment of the present invention is installed in a state perpendicular to the ground (when using the wind power) or horizontally in water (when using the hydraulic power), the support 300 is provided with a housing 301 at the top; A generator 310 embedded in the housing 301 and electrically connected to the capacitor 200 installed on the ground; It is installed at the end of the power generation shaft 312 of the generator 310, a plurality of lower fitting holes 321 are formed at equal intervals around the upper surface, the central axis 340 is formed to protrude in the center of the upper surface and the central axis 340 The lower rotating plate 320 is formed around the lower exhaust hole (322); A controller 390 for detecting a rotational speed of the lower rotating plate 320 and generating a control signal; A driving motor 370 installed at an upper end of the central axis 340 and driven in a forward / reverse direction by a control signal generated from the controller 390; An upper screw hole 331 is screwed to the rotation shaft 371 of the driving motor 370, and the upper fitting hole 331 corresponding to the lower fitting hole 321 is formed at equal intervals, and the upper exhaust hole 332 is formed on the surface thereof. Rotating plate 330; Support shafts 381 fitted to the lower fitting balls 321 and the upper fitting balls 331 are formed to protrude from the upper and lower portions, respectively, and the circumferential surface of the supporting shafts 381 rotates in the diagonal direction. It is composed of a plurality of rotary blades 380 formed, guide projections 360 formed to protrude in the lower fitting ball 321 and the upper fitting ball 331 so that the rotary groove 382 is fitted.

The present invention is to adjust the angle of the rotary blade by the centrifugal force generated during the rotation, when the wind is blowing, the rotating blade is expanded, if the strong wind is blown by reducing the rotating blade in the generator regardless of the strength of the wind There is a peculiar effect that can generate electricity constantly.

In addition, the present invention is not only the influence of the wind blowing from the outside, but also the rotation of the fan to discharge the air of the interior (toilet, various factories, other piping, indoor and apartment buildings, high-rise buildings, underground air exhaust passage, etc.) There is a unique effect to maximize development.

In addition, the present invention has a unique effect that can be installed in a state lying in the valley, rivers, rivers, dams and high and low tide and low tide place to generate electricity.

When described with reference to the accompanying drawings showing the present invention.

Example 1

1 is a cross-sectional view showing a power generator using the wind and hydraulic power according to the present invention, Figure 2 is a plan view showing a power generator using the wind and hydropower according to the present invention, Figure 3 using the wind and hydropower according to the present invention 4 is a perspective view showing a rotary blade operating unit of the power generator, Figure 4 is a perspective view showing another embodiment of the rotary blade operating unit of the power generator using the wind power and hydraulic power according to the present invention, Figure 5 is using the wind power and hydraulic power according to the present invention Figure 6 is a cross-sectional view showing the operating state of the power generation device, Figure 6 is a plan view showing the operating state of the power generator using the wind and hydraulic power in accordance with the present invention, Figure 7 and Figure 8 is a wind power generator using the wind and hydraulic power in accordance with the present invention Front view showing another embodiment of the wing.

As referred to herein, the present invention is provided with a support 100 is installed in a state perpendicular to the ground, the housing 101 is provided on the upper end of the support 100.

The inside of the housing 101 is a generator 110, the generator 110 is connected to one end of the wire 111 for transmitting the generated electricity, the other end of the electric wire 111 It is also possible to connect the capacitor 200 to charge, or to connect an article (not shown) using electricity.

The generator shaft 112 of the generator 110 is installed to protrude upward of the housing 101, the lower rotary plate 120 is provided at the end of the power generator shaft 112, the lower rotary plate 120 A plurality of lower fitting balls 121 are formed at equal intervals around the upper surface, and a lower exhaust hole 122 is formed on a surface thereof.

The control unit 190 is installed at one side of the lower rotating plate 120, and the control unit 190 detects the rotational speed of the lower rotating plate 120 and controls the driving motor 170 to operate according to the detected rotational speed. A signal is generated, and the control signal controls the rotational direction (forward or reverse) and the amount of rotation of the drive motor 190.

The control unit 190 has a built-in speed sensor for detecting the speed, it is also possible to form a separate speed sensor.

On the other hand, the driving motor 170 is driven in the forward / reverse direction by the control signal generated from the control unit 190 in the center of the upper surface of the lower rotating plate (120).

The lifting member 150 is screwed to the rotation shaft 171 of the driving motor 170, and a plurality of guide grooves are formed on the outer circumferential surface of the lifting member 150.

And the upper rotating plate 130 is provided, the upper fitting hole 131 corresponding to the lower fitting ball 121 is formed around the bottom of the upper rotating plate 130 at equal intervals, the upper exhaust hole 132 on the surface Is formed.

The upper end of the central shaft 140 is installed in the center of the bottom surface of the upper rotating plate 130, the lower end of the central shaft 140 is fitted to the lifting member 150, the lower surface is in contact with the upper surface of the rotating shaft 171 have.

It is also possible to form the helical exhaust grooves 160 on the outer circumferential surface of the central axis 140.

A plurality of rotary blades 180 are rotatably provided between the upper rotary plate 130 and the lower rotary plate 120, and support shafts 181 protrude from upper and lower surfaces of the rotary blade 180, respectively. It is formed to be, the inner side is formed to protrude a guide member fitted to the guide groove formed in the elevating member 150.

The guide groove and the guide member are for rotating the rotary blade 180 when the elevating member is raised or lowered, and the guide groove formed on the elevating member 150 is formed as a spiral groove 152 formed in a spiral direction. The member is formed of a guide rod 183 fitted into the spiral groove 152, or the guide groove formed in the elevating member 150 is formed of a vertical groove 153 in the vertical direction, the guide member is a vertical groove 153 It is also possible to form the inclined plate 184 to be fitted in.

And although the rotary blade 180 may be formed in a plate shape, it is also possible to form a bending piece 182 at the end to be smoothly rotated by the wind.

Alternatively, the upper portion of the rotary blade 180 may be formed in an arc shape toward the center and the lower portion is directed in the circumferential direction as shown in FIG. 7, and may be formed in an arc shape as shown in FIG. It is also possible to form increasingly wider.

Referring to the present invention configured as described in detail as follows.

First, when the wind is not transmitted to the rotary blade 180, that is, when the operation of the generator 110 is stopped as shown in Figure 1, the lifting member 150 is raised to the top, in this case the rotary blade 180 ) Is in an expanded state as shown in FIG. 2.

When the breeze is transmitted to the rotary blade 180 in this state, the rotary blade 180 is rotated so that the upper rotary plate 130 and the lower rotary plate 120 is installed at the same time is rotated.

In addition, the breeze that rotates the rotary blade 180 is transmitted to the exhaust groove 160 formed in the central shaft 140 to generate a rotational force, the wind moved inside the lower exhaust hole 122 and the upper exhaust hole ( 132 is exhausted to the outside, the wind is guided to the lower guide plate 123 and the upper guide plate 133 formed on the upper surface of the lower rotary plate 120 and the lower surface of the upper rotary plate 130 and more smoothly exhausted Will be.

That is, when the wind strength is small, since the electric power is delivered to the extended rotary blade 180 and the exhaust groove 160, electricity of a constant capacity is generated.

On the other hand, when a strong wind is transmitted to the rotary blade 180 is the rotation speed of the upper rotary plate 130 and the lower rotary plate 120 is increased, the rotation speed is detected by the controller 190, the control unit ( In 190, a control signal is generated.

The control signal generated by the control unit 190 is to operate the drive motor 170 in the forward or reverse direction, when the drive motor 170 is operated, the rotational force is a lifting member 150 screwed to the rotary shaft 171 In this case, since the guide member is inserted into the guide groove of the elevating member 150, since the rotation is prevented, the elevating member 150 is raised or lowered.

For example, when a strong wind is transmitted and the elevating member 150 is moved downward as shown in FIG. 5, the rotating blades are formed by the spiral groove 152, the guide rod 182, or the straight groove 153, and the inclined plate 184. 180 is rotated about the support shaft 181. That is, the end of the rotary blade 180 is moved to the center direction as shown in Figure 6 is reduced.

When the rotary blade 180 is reduced in this way, the rotational speed is reduced because the contact surface of the wind is reduced, and when the wind intensity is reduced, the control signal generated from the controller 190 is changed to reverse the drive motor 170. Since the lifting member 150 is raised so that the rotary blade 180 is expanded.

That is, when the wind strength is strong, the rotational speed is increased, but the rotation blade 180 is rotated by the control signal of the control unit 190 that detects the rotational speed is reduced, when the wind strength is reduced Since the rotational speed is reduced to rotate in the direction in which the rotary blades 180 are extended, the rotational speed of the power generation shaft 112 installed in the generator 110 is kept constant.

If the rotational speed of the power generation shaft 112 is kept constant, since the stable electricity is continuously generated in the generator 110 is to improve the efficiency of the generator.

[Example 2]

9 is a cross-sectional view showing another embodiment of a generator using wind and hydraulic power according to the present invention.

As referred to herein, the present invention is provided with a strut 300 which is installed in a state perpendicular to the ground, and the housing 301 is provided at the upper end of the strut 300.

The inside of the housing 301 is a generator 310, the generator 310 is connected to one end of the electric wire 311 for transmitting the generated electricity, the other end of the electric wire 311 It is also possible to connect the capacitor 200 to charge, or to connect an article (not shown) using electricity.

The generator shaft 312 of the generator 310 is installed to protrude upward of the housing 301, and the lower rotating plate 320 is provided at the end of the power generating shaft 312, the lower rotating plate 320 of the A plurality of lower fitting balls 321 are formed at equal intervals around the upper surface, and lower exhaust holes 322 are formed on a surface thereof.

The control unit 390 is installed on one side of the lower rotating plate 320, and the control unit 390 detects the rotational speed of the lower rotating plate 320 and controls the driving motor 370 according to the detected rotational speed. A signal is generated, and the control signal controls the rotation direction (forward or reverse direction) and the amount of rotation of the drive motor 390.

The control unit 390 is a built-in speed sensor for detecting the speed, it is also possible to form a separate speed sensor.

On the other hand, the central axis 340 is provided in the center of the upper surface of the lower rotating plate 320, it is also possible to form a spiral exhaust groove 360 on the outer peripheral surface of the central axis 340, the central axis 340 A driving motor 370 driven in the forward / reverse direction by the control signal generated from the control unit 390 is installed at the upper end of the.

The upper rotating plate 330 is screwed to the rotation shaft 371 of the driving motor 370, and the upper fitting ball 331 corresponding to the lower fitting ball 321 is equally spaced around the bottom of the upper rotating plate 330. The upper exhaust hole 332 is formed on the surface.

In addition, a plurality of rotary blades 380 rotatably provided between the upper rotary plate 330 and the lower rotary plate 320, the support shaft 381 is provided on the upper and lower surfaces of the rotary blade 380 Each of them is formed to protrude, and a rotation groove 382 is formed in an oblique direction on a circumferential surface of the support shaft 381.

And the inside of the lower fitting ball 321 and the upper fitting ball 331 is formed so that the guide projection 360 is fitted with the rotary groove 382 is projected.

Referring to the present invention configured as described in detail as follows.

First, when the wind is not transmitted to the rotary blade 380, that is, when the operation of the generator 310 is stopped, the upper rotary plate 330 is lowered, the rotary blade 380 is in an expanded state To keep.

When the breeze is transmitted to the rotary blade 380 in this state, the rotary blade 380 is rotated so that the upper rotary plate 330 and the lower rotary plate 320 is installed is rotated at the same time.

In addition, the breeze that rotates the rotary blade 380 is transmitted to the exhaust groove 360 formed on the central shaft 340 to generate a rotation force and then exhausted to the outside through the upper exhaust hole 322 and the lower exhaust hole 332. Will be.

That is, when the wind strength is small, since the electric power is transmitted to the expanded rotary blade 380 and the exhaust groove 360, electricity of a constant capacity is generated.

On the other hand, when a strong wind is transmitted to the rotary blade 380 is to increase the rotation speed of the upper rotating plate 330 and the lower rotating plate 320, the rotational speed is detected by the controller 390, the control unit ( At 390, a control signal is generated.

The control signal generated by the control unit 390 is to operate the drive motor 370 in the forward or reverse direction, when the drive motor 370 is operated, the rotational force of the upper rotary plate 330 screwed to the rotary shaft 371 In this case, the upper rotating plate 330 is raised or lowered.

For example, when a strong wind is transmitted and the upper rotating plate 330 is moved upward, the guide protrusion 360 is raised together, and the guide protrusion 360 is inserted into the rotary groove 382, so that the rotary blade 380 is Is rotated. That is, the end of the rotary blade 380 is moved in the center direction is reduced.

When the rotary blade 380 is reduced in this way, the rotational speed is reduced because the contact surface of the wind is reduced, the control signal generated from the control unit 390 is changed when the wind strength is reduced to reverse the drive motor 370 Since the lifting member 350 is lowered so that the rotary blade 380 is expanded.

That is, when the wind strength is strong, the rotational speed is increased, but the rotation blade 380 is rotated by the control signal of the control unit 390 that detects the rotational speed, and the wind speed decreases. Since the rotation speed decreases and the rotation blade 380 rotates in the extending direction, the rotation speed of the power generation shaft 312 installed in the generator 310 is kept constant.

If the rotational speed of the power generation shaft 312 is kept constant, since the stable electricity is continuously generated in the generator 310 is to improve the efficiency of the generator.

Power generator using the wind and hydraulic power of the present invention as described above has the advantage of generating electricity stably regardless of the strength of the wind or hydraulic power by adjusting (expansion or reduction) the angle of the rotary blades according to the strength of the wind or hydraulic power Of course, not only the influence of the wind blowing from the outside, but also the ventilator that discharges the air from the interior (toilet, various factories, other piping, apartments and high-rise buildings that require ventilation, and the air exhaust passage underground). It can be applied and developed, of course, it is installed in the valley, rivers, beams, dams and high and low tide in and out of the place to have the advantage of generating electricity.

1 is a cross-sectional view showing a power generator using wind and hydraulic power according to the present invention.

Figure 2 is a plan view showing a power generator using wind and hydraulic power in accordance with the present invention.

Figure 3 is a perspective view showing a rotor blade operating part of the power generator using the wind and hydraulic power according to the invention.

Figure 4 is a perspective view showing another embodiment of the rotary blade operating unit of the power generator using the wind and hydraulic power according to the invention.

Figure 5 is a cross-sectional view showing the operating state of the power generator using the wind and hydraulic power according to the invention.

Figure 6 is a plan view showing the operating state of the wind turbine and hydroelectric generator according to the invention.

7 and 8 are a front view showing another embodiment of the rotor blades of the power generator using the wind power and hydraulic power according to the present invention.

9 is a cross-sectional view showing another embodiment of a power generator using wind and hydraulic power according to the present invention.

* Description of the symbols for the main parts of the drawings *

100, 300: Shoring 101, 301: Housing

110,310: generator 112, 312: power generation shaft

120, 320: Lower rotating plate 121, 321: Lower fitting ball

122, 322: lower exhaust hole 123: lower guide plate

130, 330: upper rotating plate 131, 331: upper fitting ball

132, 332: upper exhaust hole 133: upper guide plate

140, 340: central axis 150: elevating member

152: spiral groove 153: vertical groove

160: exhaust grooves 170, 370: drive motor

171, 371: rotation axis 173: guide roll

180, 380: rotor blades 181, 381: support shaft

182: bending part 183: guide rod

184: inclined plate 190, 390: control unit

200: capacitor 360: guide projection

382: rotating groove

Claims (9)

It is installed in a state perpendicular to the ground, the upper end of the support 100 is provided with a housing 101; A generator 110 embedded in the housing 101 and electrically connected to the capacitor 200 installed on the ground; A lower rotary plate 120 installed at an end of the power generation shaft 112 of the generator 110, and having a plurality of lower fitting balls 121 formed at equal intervals around the upper surface thereof, and having a lower exhaust hole 122 formed on a surface thereof; A controller 190 for detecting a rotational speed of the lower rotating plate 120 and generating a control signal; A driving motor 170 installed on an upper surface of the lower rotating plate 120 and driven in a forward / reverse direction by a control signal generated from the controller 190; A lifting member 150 screwed to the rotation shaft 171 of the drive motor 170 and having a plurality of guide grooves formed on an outer circumferential surface thereof; An upper rotary plate 130 having upper fitting balls 131 corresponding to the lower fitting balls 121 at equal intervals and having an upper exhaust hole 132 formed on a surface thereof around the bottom; The upper end is installed in the center of the bottom surface of the upper rotating plate 130 and the lower end is fitted in the center of the elevating member 150, the lower surface is in contact with the upper surface of the rotating shaft 171 (140); A plurality of rotary blades formed with the support shaft 181 to be fitted to the lower fitting ball 121 and the upper fitting ball 131 to protrude from the upper and lower portions, respectively, and the guide member fitted to the guide groove protrudes from the inner side. Power generator using wind and hydro, characterized in that consisting of (180). The generator of claim 1, wherein the guide groove is formed of a spiral groove 152 having an inclination angle, and the guide member is formed of a guide rod 183 fitted into the spiral groove 152. . The generator of claim 1, wherein the guide groove is formed by a vertical groove (153) in a vertical direction, and the guide member is formed by an inclined plate (184) fitted into the vertical groove (153). The generator according to claim 1, wherein a bending piece (182) bent to one side is formed at an end of the rotary blade (180). The wind turbine and the hydroelectric generator of claim 1, wherein the rotary blades 180 are formed in an arc shape so that the upper portion faces the center and the lower portion faces the circumferential direction. The generator according to claim 5, wherein the rotary blades 180 are narrow at the top and gradually wider at the bottom. The generator according to claim 1, wherein a spiral exhaust groove (160) for exhausting wind is formed on an outer circumferential surface of the central shaft (140). The method of claim 1, wherein the lower guide plate 123 and the upper guide plate 133 for exhausting the wind to the outside is formed on the upper surface of the lower rotary plate 120 and the upper rotary plate 130 and Hydro power generator. A support 300 installed in a state perpendicular to the ground and provided with a housing 301 at an upper end thereof; A generator 310 embedded in the housing 301 and electrically connected to the capacitor 200 installed on the ground; It is installed at the end of the power generation shaft 312 of the generator 310, a plurality of lower fitting holes 321 are formed at equal intervals around the upper surface, the central axis 340 is formed to protrude in the center of the upper surface and the central axis 340 The lower rotating plate 320 is formed around the lower exhaust hole (322); A controller 390 for detecting a rotational speed of the lower rotating plate 320 and generating a control signal; A driving motor 370 installed at an upper end of the central axis 340 and driven in a forward / reverse direction by a control signal generated from the controller 390; The upper part is screwed to the rotary shaft 371 of the drive motor 370, the upper fitting hole 331 corresponding to the lower fitting hole 321 is formed at equal intervals, the upper exhaust hole 332 is formed on the surface Rotating plate 330; Support shafts 381 fitted to the lower fitting balls 321 and the upper fitting balls 331 are formed to protrude from the upper and lower portions, respectively, and the circumferential surface of the supporting shafts 381 rotates in the diagonal direction. Wind power, characterized in that consisting of a plurality of rotary blades 380, guide projections 360 formed to protrude in the lower fitting ball 321 and the upper fitting ball 331 so that the rotary groove 382 is fitted; Hydro power generator.

Images