KR20090030519A - The wind power generator which uses the balloone - Google Patents

Abstract

A wind power generator using a balloon is provided to generate electricity consecutively regardless of the direction of wind by rotating a balloon body with the direction of the wind. A wind power generator using a balloon comprises: a balloon body(100) in which gas which is lighter than air is filled; a generating part(200) installed at the lower part of the balloon body; a wire drum(310) in which a wire(320) installed at the surface and connected to the balloon body is rolled; a height adjusting part(300) which selectively rotates the wire drum; a cable drum(410) in which a cable(420) supplying the electricity generated in the generating part to the surface is rolled; and a cable adjusting unit(400) rotating the cable drum.

Description

Wind power generator using mechanical devices {The wind power generator which uses the balloone}

The present invention relates to a wind power generation apparatus using a mechanism, and more specifically, to generate a power generation unit in the aquaculture mechanism to generate power using the wind regardless of the wind direction, as well as to improve the power generation efficiency by adjusting the height of the mechanism It relates to a wind power generator using a mechanism that can be made.

Fossil fuels such as petroleum, coal, and natural gas, which are generally used, are not exhausted due to the limitations of underground resources. As the main culprit of destroying the natural environment by causing them to be destroyed, it is permanently available as an alternative and attracts much attention to wind power generation, which is one of the most advantageous renewable energy technically and economically without polluting the environment.

Therefore, in the same vein, following the advanced countries such as Europe and the United States, the wind power generation project and the construction of wind farms have been actively promoted in Korea.

On the other hand, when constructing a wind farm that produces wind energy after performing a survey on the basic location for measuring the state of the wind, such as wind speed, wind direction of the region in advance, as shown in Figure 1 fixed wind generator 10 Is installing.

The fixed wind generator 10 is composed of a support portion 11 installed perpendicular to the ground, and a rotating portion 12 is installed on the upper end of the support portion 11, the rear portion of the rotating portion 12, the rotating portion 12 The power generation unit 13 to produce electricity by using the rotational force of the will be built.

The rotating part 12 configured as described above is rotated by the air volume and the wind speed, and when the rotating part 12 is rotated, electricity is produced in the power generation part 13 which receives the rotational force of the rotating part 12.

However, as described above, since the wind power generator is conventionally installed on the ground, there is a problem in that power generation efficiency is decreased when the wind speed and air volume of the corresponding area are reduced.

In addition, when the wind blows in a direction that does not rotate in the forward direction, there was a problem that the rotation is not rotated smoothly, or rotated in the reverse direction to generate electricity in the power generation unit.

The present invention is to solve the above problems, the object is to provide a power generation unit in the aquaculture mechanism according to the direction of the wind, because the aquaculture mechanism is rotated can generate electricity in the power generation unit irrespective of the wind direction It is to provide a wind power generator using a mechanism.

Still another object of the present invention is to provide a wind power generator using a mechanism capable of maximizing power generation efficiency by adjusting the height of the aquaculture apparatus according to the wind volume and wind speed of the region.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

The wind power generator using the apparatus according to the present invention has a mechanism body that is supported by a lighter gas than the air filled therein, the power generation unit installed on the lower portion of the instrument body, the ground wire is connected to one end of the instrument body A wire drum installed in the cable drum, a height adjusting unit for selectively rotating the wire drum, a cable drum on which a cable for supplying electricity generated in the power generating unit to the ground is wound, and a cable adjusting unit for rotating the cable drum. will be.

In addition, the power generation unit is impeller rotated by the wind, power transmission means for selectively connecting the rotational force of the impeller, deceleration means for reducing the rotational force transmitted through the power transmission means, and is transmitted through the deceleration means It is composed of a power generation means for generating electricity by using a rotational force, a control unit for controlling the power transmission means and a cable for supplying the electricity generated by the power generation means to the charging unit.

The present invention has a peculiar effect of maximizing the power generation efficiency because it adjusts the height of the mechanism body provided with the power generation means according to the wind volume and wind speed of the region.

In addition, the present invention has a peculiar effect of continuously generating electricity even if the direction of the wind is changed because the mechanism body is rotated with the direction of the wind.

In addition, the present invention has a unique effect that can prevent pollution due to noise because electricity is generated by the power generation means supported from the ground.

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

2 is a schematic view showing a wind power generator using the mechanism according to the present invention, Figure 3 is a detailed configuration diagram of the power generation unit of the wind power generator according to the present invention, Figure 4 is a cross-sectional view taken along line A-A of FIG.

As referred to herein, when a gas lighter than air is filled therein, an instrument body 100 is provided to support the air, and a power generation unit 200 is installed below the instrument body 100. .

The power generation unit 200 is for generating electricity by using wind power, is provided with an impeller 210 that is rotated by the wind, the impeller 210 is a power for selectively connecting the rotational force of the impeller 210 Transmission means 220 is provided, the power transmission means 220 is composed of a brake for reducing the rotational force and a clutch for selectively blocking / supplying the rotational force.

On the other hand, the power transmission means 220 is provided with a deceleration means 230 for reducing the rotational force transmitted through the power transmission means 220, the deceleration means 230 is transmitted through the deceleration means 230 Power generation means 240 for generating electricity by using the rotational force is connected.

And, the control unit 250 for controlling the operation of the brake and the clutch installed in the power transmission means 220 is provided, the power generation means 240 is a charging unit (installed on the ground to generate electricity generated by the power generation means 240) The cable 420 for supplying to the drawing is connected.

On the other hand, a damper 260 for controlling the wind power delivered to the impeller 210 is installed in front of the impeller 210, the damper 260 is rotatably installed by a motor 270 The motor 270 is operated by the controller 250.

In addition, one end of the wire 320 is connected to the mechanism body 100, and the other end of the wire 320 is connected to a wire drum 310 installed on the ground, and the wire drum 310 rotates. As the wire 320 is wound or unwound to adjust the height of the instrument body 100, the wire drum 310 is connected to the height adjustment unit 300 to selectively rotate the wire drum 310 It is.

And, a cable 420 for supplying electricity generated from the power generation unit 200 is provided, one end of the cable 420 is connected to the power generation unit 200, the other end of the cable drum 410 is installed on the ground Is connected to the cable drum 410 is connected to the cable control unit 400 for selectively rotating the cable drum 410.

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

First, in order to support the power generation apparatus according to the present invention to fill a gas lighter than air into the inside of the mechanism body 100, when the gas is filled into the mechanism body 100, the mechanism body ( 100) are floated into the air.

The wire drum 310 and the cable drum 410 is rotated in the reverse direction when the instrument body 100 is lifted into the air, the wire 320 and the cable 420 are released together, the instrument body 100 The wire 320 and the cable 420 is to maintain the connected state.

The support height of the mechanism body 100 is to be adjusted according to the air volume and wind speed of the region.

That is, in order to further support the instrument body 100 in the state where the gas body is completely filled with the gas, the height adjusting part 300 is operated in the reverse direction, and the wire drum 310 is rotated in the reverse direction. , As the wire 320 wound around the wire drum 310 is released, the instrument body 100 is supported higher. At this time, as the cable drum 410 is rotated together, the cable 420 is released together.

Or to reduce the height of the instrument body 100 by operating the height adjustment unit 300 in the forward direction, when the wire drum 310 is rotated in the forward direction, the wire 320 to the wire drum 310 As is wound, the height of the instrument body 100 is to be reduced, at which time the cable control unit 400 is operated together so that the cable drum 410 is rotated, the cable 420 is wound.

The reason for adjusting the height of the mechanism body 100 as described above is to improve the power generation efficiency, depending on the air volume and wind speed of the region.

By using the wind speed data of a specific region to adjust the height of the instrument body 100 to meet the target power generation efficiency by the wind speed data of each period, Table 1 is to observe the wind speed data of each height for each period of a specific region.

As referred to herein, the wind stronger than the ground always exists in the air above 100M or more, and the height of the mechanism body 100 is changed according to each period.

TABLE 1

On the other hand, when the mechanism body 100 is floated in the air as described above, the impeller 210 is to be rotated by the air volume and the wind speed, the rotational force of the impeller 210 through the deceleration means 230, the power generating means 240 ) Is delivered.

When the rotational force is transmitted to the power generating means 240, the electricity is generated in the power generating means 240, the electricity generated in the power generating means 240 is supplied to the ground through the cable 420, the cable The electricity supplied through 420 is supplied to a destination such as a charging unit (not shown).

On the other hand, when reducing or interrupting the rotational force supplied to the power generating means 240 is to operate the brake or clutch of the power transmission means 220 by a control signal generated from the control unit 250.

In addition, when a strong wind acts on the front of the impeller 210, the motor 270 is operated by a control signal generated from the controller 250 to prevent the impeller 210 from being damaged while being rotated at a high speed. The damper 260 is rotated by the operation of the motor 270 to prevent the impeller 210 from being damaged.

According to the present invention as described above, by adjusting the height of the mechanism body 100 by the winding / unwinding of the wire 320, according to the air flow rate and wind speed, by controlling the power generation position (the height of the power generation means) power generation efficiency To improve.

In addition, since the mechanism body 100 is rotated according to the direction of the wind, the power generation means 240 is continuously operated even if the direction of the wind is changed to generate electricity.

And, since it is developed in a suspended state from the ground will be able to prevent environmental pollution due to noise.

1 is a side view showing a conventional fixed wind generator.

2 is a schematic view showing a wind turbine generator using the apparatus according to the present invention.

Figure 3 is a detailed configuration of the power generation unit of the wind power generator according to the present invention.

4 is a cross-sectional view taken along the line AA of FIG.

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

100: body 200: power generation unit

210: impeller 220: power transmission means

230: deceleration means 240: power generation means

250: control unit 260: damper

270: motor 300: height adjustment

310: wire drum 320: wire

400: cable control unit 410: cable drum

420: cable

Claims (3)

The instrument body 100 supported by the lighter gas than the air filled therein, the power generation unit 200 installed in the lower portion of the instrument body 100, the wire 320 is connected to one end to the instrument body 100 Wire drum 310 installed on the ground to be wound, the height adjusting unit 300 to selectively rotate the wire drum 310, and the cable 420 for supplying the electricity generated in the power generation unit 200 to the ground The wound cable drum (410), and the wind turbine generator using a mechanism, characterized in that it comprises a cable control unit 400 for rotating the cable drum (410). The method according to claim 1, The power generation unit 200 is an impeller 210 that is rotated by the wind, the power transmission means 220 for selectively connecting the rotational force of the impeller 210, and the rotational force transmitted through the power transmission means 220 Deceleration means 230 for decelerating, power generation means 240 for generating electricity by using the rotational force transmitted through the deceleration means 230, and the control unit 250 for controlling the power transmission means 220 Wind power generator using a mechanism characterized in that made. The method according to claim 2, In front of the impeller 210, the wind turbine generator using a mechanism, characterized in that the damper 260 is rotated by the motor 270 is further installed to control the wind power delivered to the impeller 210.

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