KR20100006297A - Apparatus for generating a power using wind and water power - Google Patents

Abstract

PURPOSE: A power generating apparatus using wind power and water power is provided to maximize the efficiency of a power generator by adding water power and a water turbine. CONSTITUTION: A power generating apparatus using wind power and water power is composed of a water tank(100), a rotary unit(200), an amplifying unit(300), a pumping unit(400), and a water turbine(110). Water is stored in the water tank. The rotary unit is rotated by wind pressure. The amplifying unit is connected on the rotation shaft of the rotary unit and amplifies the rotary power. The pumping unit is connected to the amplifying unit to pump the water of the water tank to the upper part of the water tank with the rotary power. The water turbine is installed in the water tank and revolves with the potential energy of the pumped water.

Description

Power generator using wind and hydropower {APPARATUS FOR GENERATING A POWER USING WIND AND WATER POWER}

The present invention relates to a power generator using wind power and hydropower, and more particularly, power generation using wind power and hydropower to maximize the efficiency of the power generator by adding an amplification unit, hydraulic power and aberration to the power generator using the wind power. Relates to a device.

In general, there are a variety of ways to produce energy, but the research using nature, such as solar energy, wind energy, tidal energy, and hydro energy continues.

Among these, wind power generators using wind energy are emerging as new renewable energy and renewable energy sources due to the depletion of finite energy resources.

Such a typical configuration of the wind power generator is mainly used to install a propeller-type rotary blades on a large support shaft to obtain a rotational force, and to install a generator on the support shaft to convert the rotational force into electricity.

The wind power generator having the configuration as described above has a problem in that the efficiency of power generation is lowered because the number of rotations of the support shaft is the same as that of the generator, and only the power of the wind power is used, and only one generator is installed per support shaft.

The present invention is to solve the above problems, an object of the present invention is to add an amplification unit, hydraulic power and aberration to the power generator using the wind power generator using wind power and hydropower to maximize the efficiency of the power generator. To provide.

According to the present invention, the water tank is accommodated, a plurality of rotary units rotated by wind power, the amplification unit connected to the rotary shaft of the rotary unit to amplify the rotational force, and connected to the amplification unit A pumping unit for pumping the water of the tank to the upper portion of the tank by the amplified rotational force, and the aberration installed in the tank and rotated by the potential energy of the pumped water.

The rotating unit may be rotatably connected to each of the frames by a rotating shaft, a body into which the rotating shaft is inserted, a plurality of frames spaced apart from each other along the outer circumference of the body, and a rotation connecting member. It may be composed of a plurality of wing plates, the blade shaft is formed on both sides.

In addition, the pivotal connection member is a housing having a space formed therein, a wing angle adjuster which is formed in a U-shape and installed in the inner space of the housing, coupled with the wing shaft and inserted into the wing angle adjuster guide And, being inserted into the wing angle adjuster, it may be composed of a spring that is installed to be located on both sides of the guide.

The amplification unit may include a rotary gear connected to the rotary shaft, an amplifier gear meshed with the rotary gear or connected with a belt or a chain, the amplifier gear having a diameter smaller than the diameter of the rotary gear, and a power transmission shaft connected to the amplifier gear. It may be configured as.

In addition, the pumping unit is a case having a space formed therein, one side is connected to the water tank, the other side is connected to the case and the water supply pipe for injecting the water into the case, and one side is connected to the case The other side may include an discharge pipe extending to an upper portion of the water tank, and an impeller installed inside the case and connected to the amplifying unit, and rotated by the amplifying unit to discharge the water through the discharge pipe. .

The aberration may be formed in plural, and the plurality of aberrations may be rotated by the potential energy of the water.

As a result, an amplification unit, hydraulic power, and aberration are added to the power generator using the wind power, thereby maximizing the efficiency of the power generator.

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

Power generating apparatus using the wind power and hydraulic power according to the present invention, as shown in Figures 1 to 3, the water tank 100 in which the water 120 is accommodated, and a plurality of rotary units 200 to rotate by the wind And, the amplification unit 300 for amplifying the rotational force of the rotary unit 200 and the pumping unit 400 connected to the amplification unit 300 for pumping the water 120 of the tank 100 to the top of the tank 100 ) And the aberration 110 that is installed in the water tank 100 and rotates by the potential energy of the water 120.

First, the water tank 100 is formed of a plurality of layers having a space formed therein, and each layer is formed to be sealed to each other, and a passage 130 is formed below the water layer so that the water 120 may fall.

For example, as illustrated in FIGS. 1 and 2, a quadrangular shape is formed, a plurality of layers are formed to seal each layer, and an uppermost layer is formed in an open shape.

In addition, the lower portion of each layer, it is preferable that the passage 130 is formed so that the water 120 can fall.

In addition, the aberration 110 is formed in plurality and installed on each floor of the water tank 100, the water dropping through the passage 130 is installed so that a portion of the aberration 110 is located below the passage 130 ( The aberration 110 is rotated by 120.

At this time, the aberration 110 is installed inside the water tank 100 by a holder (not shown), the power shaft 111 is connected to the center of the aberration 110, the generator (not shown) C) is installed to generate power by the rotation of the aberration 110.

Here, when the configuration of the aberration 110 is described with reference to FIG. 7, the outer ring 112 fixedly supported by the holder (not shown) is axially rotatably coupled to the holder and the outer ring inside the outer ring 112. 112 is concentrically installed, and the inner ring 113 formed with several wheels 113b connecting the shaft portion 113a and the inner circumferential surface, and the rear end is hinged to the wheels 113b to freely rotate the rear end. And a dipper 114 having a shape of a container (specifically, a gourd shape) so as to receive a vertically falling hydraulic force (in the direction of an arrow in the drawing), and an inner ring 113 provided in the forward direction of the dipper 114. And a stopper 115 for limiting the rotation angle in the reverse direction at an appropriate angle, a first permanent magnet 116 installed at a predetermined interval on the inner circumferential surface of the outer ring 112, and an outer circumferential surface of the inner ring 113. The second permanent person is installed at a predetermined interval and forms an opposite pole with the first permanent magnet 116. It consists of 117.

At this time, the first permanent magnet 116 and the second permanent magnet 117 is preferably installed only when the aberration 110 does not rotate smoothly because the potential energy of the falling water is small.

On the other hand, the rotation unit 200, as shown in Figures 1, 4 and 5, the rotating shaft 210, the body 220, the rotation shaft 210 is inserted, and the outer circumference of the body 220 A plurality of frames 230 are formed to be spaced apart from each other, a plurality of wing plate 240 is rotatably connected to each frame 230 by a rotation connecting member 250, and at the end of each frame 230 The acceleration / deceleration wing 260 is formed.

The rotating shaft 210 is formed in a cylindrical shape, the body 220 is formed in a cylindrical shape having a larger diameter than the rotating shaft 210 is installed is inserted into the rotating shaft 210 in the center of the body 220.

In addition, the frame 230 is formed in plural, and each frame 230 is formed in a 'c' shape in which one side is opened, and the one open side is spaced apart from each other along the outer circumference of the body 220.

In addition, the wing plate 240 is formed in a plate shape, the wing shaft 241 is formed at both sides of the center and both ends of the wing shaft 241 is connected to the frame 230, the frame perpendicular to the rotating shaft 210 ( 230 is rotatably installed on both sides.

At this time, the wing plate 240 is preferably installed in the frame 230 by the rotation connecting member 250.

Here, if the configuration of the rotational connection member 250 with reference to Figure 5, the rotational connection member 250 is composed of a housing 251, a guide 252, a wing angle adjuster 253 and a spring 254. .

The housing 251 has a space formed therein, and a T-shaped support is formed under the internal space, and the housing 251 is installed on the outer surface of the frame 230.

At this time, the wing shaft 241 of the wing plate 240 is installed to extend through the housing 251, the guide 252 is coupled to the wing shaft 241, one side of the guide 252 wing A ball corresponding to the diameter of the angle adjuster 253 is formed and can be fitted to the wing angle adjuster 253.

And, the wing angle adjuster 253 is installed on the upper T-shaped support formed in the housing 251, the guide 252 and the spring 254 is fitted to the wing angle adjuster 253 is installed.

Here, the wing angle adjuster 253 is formed in a U-shape, it is generally preferred to use a U bolt.

At this time, the installation order of the guide 252 and the spring 254 is provided with a plurality of springs 254 are formed in the order that the guide 252 is sandwiched between the spring 254.

Since the wing plate 240 is rotatably installed in the frame 230 in the above-described configuration, the direction of the wing plate 240 is changed in accordance with the direction of the wind, so that the rotation of the rotation unit 200 more efficiently You can do it.

For example, when the wind is blowing in one direction, the wing plate 240 is rotated in accordance with the force of the wind, at this time is rotated while contracting the spring 254, if the wind does not blow to the elastic force of the spring 254 To return to the original position.

Therefore, the wing plate 240 is rotated according to the direction of the wind.

In addition, the rotation unit 200 may be formed in plural and installed on the same rotation shaft 210.

In addition, the acceleration / deceleration wing 260 is formed at the end of the frame 230 is recessed to be formed concave toward the rotation direction of the rotary unit 200.

The acceleration / deceleration of the rotary unit 200 is accelerated and decelerated by the acceleration / deceleration wing 260. When the wind is blown in the direction of the arrow of FIG. 6, the wing plate 240 may be windy. The rotary unit 200 is rotated by the force of the wind is rotated in the blowing direction.

At this time, as shown in Figure 6, a part of the acceleration and deceleration blades 260 receives the wind power in the recessed portion to accelerate the rotation unit 200, but some acceleration and deceleration blades 260 of the wind The resistor is to reduce the rotational speed of the rotary unit 200.

This can keep the speed of the rotation unit 200 constant even if a typhoon or gust occurs, thereby preventing the rotation unit 200 from being damaged by rapid rotation.

In addition, the amplifying unit 300 is an amplifier having a diameter smaller than the diameter of the rotary gear 310 and the rotary gear 310, the rotary gear 310 is engaged with the rotary gear 310 or connected by a belt or chain, the diameter of the rotary gear 310 And a power transmission shaft 340 connected to the amplifier 320 and the amplifier gear 320.

First, the rotary gear 310 is installed in engagement with the bevel gear 350 is axially connected to the rotary shaft 210 at the lower end of the rotary shaft (210).

In addition, the amplifier gear 320 is connected by the rotary gear 310 and the belt 330, it is preferable that the amplifier gear 320 has a smaller diameter than the rotary gear 310.

At this time, the rotary gear 310 and the amplifier gear 320 may be directly connected by a belt or a chain, as shown in Figure 3, of course, may be connected in parallel with several gears.

When the diameter of the amplifier gear 320 is smaller than the rotary gear 310 as described above, when the rotating shaft 210 rotates once, the diameter of the amplifier gear 320 is smaller than that of the rotary gear 310. As the number of rotations 320 is greater, the rotational power is amplified.

The power transmission shaft 340 is axially connected to the amplifier gear 320 to transmit rotational force to an impeller (not shown) which will be described later.

In addition, the pumping unit 400 is composed of a case 410, a water supply pipe 420, a discharge pipe 430 and an impeller (not shown).

First, the case 410 has a space formed therein, an impeller is installed in the interior space.

In addition, one side of the water supply pipe 420 is connected to the lower end of the water tank 100 and the other side is connected to the case 410 to supply the water 120 to the inside of the case 410.

In addition, one side of the discharge pipe 430 is connected to the case 410, the other side is formed to extend to the upper portion of the water tank 100, to move the water supplied into the interior of the case 410 to the upper portion of the water tank 100 It serves as a passage.

At this time, the impeller is installed in the case 410, the center of which is connected to the power transmission shaft 340 is rotated by the rotational force transmitted by the power transmission shaft 340.

Due to the rotation of the impeller, the water 120 inside the case 410 is pumped and pumped to the uppermost layer of the water tank 100 through the discharge pipe 430.

Hereinafter, the operation of the present invention will be described.

When the rotary unit 200 is rotated by the wind, the rotary shaft 210 is also rotated thereby, the rotational force of the rotary shaft 210 is converted to a greater number of revolutions by the amplification unit 300.

The water 120 contained in the lower end of the water tank 100 is supplied to the inside of the case 410 by the water supply pipe 420, and the rotating force amplified by the amplifying unit 300 rotates the impeller to rotate the inside of the case 410. Water 120 is to be pumped to the top layer of the tank (100).

The water 120 pumped to the uppermost layer of the water tank 100 by the pumping unit 400 is dropped through the passage 130 formed at the bottom of each layer, and the potential energy of the water generated when the water 120 falls. By the aberration 110 is to be rotated.

At this time, the power shaft 111 is connected to each aberration 110 so that each power shaft 111 also rotates by the rotation of each aberration 110, and a power generator is installed on each power shaft 111 to generate power. It is.

In addition, as shown in Figure 8, except for the water tank 100 and the aberration 110 in the present invention, when the water supply pipe 420 is directly connected to the river or lake, the water of the river or lake using wind power Direct pumping allows the river or lake to draw water from rice fields or fields.

At this time, by dividing the discharge pipe 430 into several branches or by changing the length of the river or lake can be used in various forms, of course.

And, as shown in Figure 9, by installing the propeller 500 directly to the power transmission shaft 340 instead of the impeller may be used to form artificial wind power using the force of the wind.

In the power generator using wind power and hydropower according to the present invention, the amplification unit 200, hydraulic power, a plurality of aberrations 110, and a pumping unit 400 are additionally installed in the power generator using the wind power. It is effective to maximize efficiency.

The embodiments and drawings attached to this specification are merely to clearly show some of the technical ideas included in the present invention, and those skilled in the art can easily infer within the scope of the technical ideas included in the specification and drawings of the present invention. It is apparent that all modifications and specific embodiments that can be included in the scope of the technical idea of the present invention.

1 is a perspective view of a power generator using wind and hydraulic power according to the present invention.

2 is a front view of a power generator using wind and hydraulic power according to the present invention.

3 is a partial perspective view of a power generator using wind and hydraulic power according to the present invention.

4 is a partial perspective view of a rotating unit of a power generator using wind and hydraulic power according to the present invention.

5 is a cross-sectional view of the rotational connection member of the power generator using the wind and hydraulic power according to the present invention.

Figure 6 is a plan view of the operation of the rotary unit of the power generator using wind and hydraulic power in accordance with the present invention.

7 is a front view of the aberration of the power generator using the wind power and hydraulic power according to the present invention.

8 is a view of an example of a power generator using wind and hydraulic power according to the present invention.

9 is a view of another example 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: tank 110: aberration

111: power shaft 112: outer ring

113: inner ring 113a: shaft hub

113b: Wheel spokes 114: Differ

115: stopper 116: the first permanent magnet

117: the second permanent magnet 120: water

130: passage 200: rotating unit

210: rotating shaft 220: body

230: frame 240: wing plate

241: wing shaft 250: pivotal connection member

251 housing 252 guide

253: wing angle adjuster 254: spring

260: acceleration and deceleration wing 300: amplification unit

310: rotary gear 320: amplifier gear

330: belt 340: power transmission shaft

350: bevel gear 400: pumping unit

410: case 420: water pipe

430: discharge pipe 500: propeller

Claims (6)

A water tank in which water is accommodated; A plurality of rotating units rotating by wind power; An amplifying unit connected to the rotating shaft of the rotating unit to amplify the rotating force; A pumping unit connected to the amplifying unit for pumping the water of the tank to the top of the tank by the amplified rotational force; Installed in the tank is a power generator using wind and hydraulic power, characterized in that consisting of aberrations rotated by the potential energy of the pumped water. The method of claim 1, The rotating unit, A rotating shaft; A body into which the rotating shaft is inserted; A plurality of frames formed spaced apart from each other along the outer circumference of the body; A power generating device using wind power and hydraulic power, characterized in that it is rotatably connected to each of the frames by a rotation connecting member, and comprises a plurality of wing plates having wing shafts formed on both sides thereof. The method of claim 2, The pivotal connection member, A housing having a space formed therein; A wing angle controller formed in a U shape and installed in an inner space of the housing; A guide coupled to the wing shaft to be inserted into the wing angle adjuster; The wind generator is inserted into the wing angle adjuster, the power generator using the wind and hydraulic power, characterized in that consisting of a spring installed to be located on both sides of the guide. The method of claim 1, The amplification unit, A rotary gear connected to the rotary shaft; An amplifier gear meshed with the rotary gear or connected with a belt or a chain, the amplifier gear having a diameter smaller than the diameter of the rotary gear; Power generating apparatus using wind and hydraulic power, characterized in that consisting of a power transmission shaft connected to the amplifier. The method of claim 1, The pumping unit, A case having a space formed therein; A water supply pipe having one side connected to the water tank and the other side connected to the case to inject the water into the case; A discharge pipe having one side connected to the case and the other side extending to an upper portion of the water tank; Is installed inside the case is connected to the amplification unit, the power generator using wind and hydraulic power, characterized in that consisting of an impeller rotated by the amplification unit to discharge the water through the discharge pipe. The method of claim 1, The aberration may be formed in plural, the plurality of aberrations of the power generating apparatus using wind power and hydraulic power, characterized in that rotated by the potential energy of the water.

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