KR100956269B1 - Power generating device using kit - Google Patents

Abstract

PURPOSE: A wind power generator system using a kite is provided to rotate a windmill attached to the kite with wind of about 10m/s blowing at about 1km above the ground and turn a drive wheel of a ground generator using kite wires. CONSTITUTION: A wind power generator system comprises a kite(200), a windmill, a generator(600), and a winding device(700). The windmill is located under the kite and fixed with wires and supports. The generator is installed in the ground. The winding device raises and lowers the kite and the windmill by rolling or unrolling an auxiliary kite wire(720) to regulate the tension of kite wires(710). A windmill wheel of the windmill and a driving wheel(620) of the generator are connected with the kite wires.

Description

Wind Power Generator Using Kite {POWER GENERATING DEVICE USING KIT}

The present invention relates to a wind power generator using a kite that floats a windmill in high air by using the lift force of the wind and drives the driving wheel of a generator installed on the ground by using the rotational force of the windmill using a kite.

Many countries around the world are working hard to reduce carbon dioxide emissions, a major cause of global warming, which is directly linked to human survival. To this end, it is necessary to minimize the use of fossil fuels and make the most of natural energy such as wind, solar power and tidal power. Among these, wind energy has long been used for sailing ships and windmills, and in recent years, such wind power generation is rapidly increasing. Wind power generation methods include windmills, airships equipped with wind power generators, high speed wind speeds that exist in high altitudes, and power generation by using push and pull forces to control the drag and trajectory of a kite. have.

In general, when the wind speed is 3m / s above the ground, it is 9m / s over 1km, and 11m / s over 2.8km, the higher the generation and efficiency of the wind power generator installed in the high altitude. The optimum wind strength for wind turbines installed on the ground or in the ocean depends on its size, but is known to be approximately 10 m / s. These wind speeds can be obtained from distant seas or high mountains, with an average annual operating rate of only 25%. .

Therefore, it is difficult to secure a favorable place for wind power generation, and when installed in a mountain, it is rather damaging the natural environment and causing noise problems. When using an airship, the airship must be very large because a heavy power generation system must be installed on the airship. Therefore, there is a difficulty in manufacturing, controlling, and maintaining the airship.

In addition, the method of using the drag of the kite is expected to be difficult in practical use because the system for controlling the track of the kite is complicated.

 Therefore, there is a need to search for a new type of wind power generator, which can be installed in any place, secures high operation rate and efficiency, is low in production cost, and is easy to control.

As one method for solving the above-mentioned conventional problems, an object of the present invention is to raise the windmill by using only the lifting force of the kite about 10km above the ground and rotate the windmill using the existing wind around 10m / s and the rotational force It is to provide an eco-friendly wind power generation device that can achieve high efficiency at low cost by generating power by rotating the driving wheel of a ground generator using a string.

Wind turbine generator according to the present invention for achieving the above object, in the wind turbine, a variety of shapes generating a lift and drag using the wind; A windmill positioned below the lead and fixedly supported by a plurality of fixed lines; A generator installed on the ground to produce electricity; And a winding device used for winding up and lowering the kite and the windmill, and winding and unwinding auxiliary strings necessary for adjusting the tension of the kite. The windmill wheel rotational force is connected by connecting the windmill wheel of the windmill and the driving wheel of the generator with a kite string. According to the characterized in that the tensile force for interlocking the driving wheel rotational force is maintained.

Here, the windmill is composed of a pinwheel and a windmill wheel and a rotating shaft, the pinwheel is integrally installed inside the windmill wheel, the windmill wheel is to perform the role of transmitting the rotational force of the pinwheel rotated by the wind to the string. It is characterized by.

In addition, a kite cover is installed in a semicircular shape at the top of the windmill wheel so that the kite does not leave the windmill wheel, and the cross-sectional shape of the portion through which the kite passes is also configured in a semicircular shape to reduce the gap between the windmill wheel and the kite cover so that the kite windmill Characterized in that it does not escape from the wheel.

In addition, the generator is composed of a generator body, the drive wheel and the rotary seat, the drive wheel is rotated by the rotational force transmitted to the connection, it characterized in that the power generation is possible by the drive wheel rotation.

In addition, the main body of the generator is characterized in that the direction of the kite is changed according to the change in the wind direction is installed on the rotatable base that can be rotated to enable the direction of the generator.

In addition, it serves to support the axis of rotation of the windmill, characterized in that it comprises a windmill support configured to be formed in the lower portion and the flexible material.

 As described above, when the wind power generating device using the kite according to the present invention is generated by using the wind existing in the air of about 1km, it is always possible to operate except during typhoons or maintenance and can supply a constant power. Is very efficient. In addition, it is expected to contribute greatly to fuel savings and CO2 emissions as it is an eco-friendly generator that is easy to install anywhere and has no noise due to its very low production and installation costs and required area.

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

1 is a view showing a wind power generator using a kite according to the present invention, Figure 2 is a view showing a windmill and a kite string according to the present invention, Figure 3 is a view showing a windmill according to the present invention, Figure 4 is the present invention It is a view showing a windmill cover according.

As shown in FIG. 1, when the structure of the wind power generator 100 of the present invention is viewed, a kite 200, a windmill supporter 300, a windmill 400, a kite cover 500, a generator 600, and a winding Device 700.

That is, the kite 200 and the windmill 400 and the kite cover 500 and the windmill support 300 installed at the center of the force (lift and drag), the generator 600 and the driving wheel 620 and the ground installed on the ground and rotation Seat 630, light and excellent tensile strength and friction string (710), the auxiliary rope (720) used to raise and lower the tail 200 and adjust the tension of the string (710) and winding device 700 wound and unwind it It is composed.

Hereinafter, each configuration for forming the wind power generator 100 according to the present invention will be described in detail.

First, referring to FIG. 1, the kite 200 will be described in detail as follows. The kite 200 according to the present invention generates lift and drag using wind, and the combined force of the two is balanced by a tension applied to the windmill. And the material of the kite (200) is preferably made of a flexible material that is light and strong adaptability to the wind or the external environment.

In this case, the lift is used to raise the windmill support 300, the windmill 400, the kite string 500, the kite 710 and the auxiliary kite 720, the tension of the kite 710 is the windmill 400 It is used as a frictional force required to rotate the generator drive wheel 620.

Next, the windmill support 300 will be described. The windmill support 300 uses a flexible material and serves to support the rotating shaft 430 of the windmill 400, and is configured below the kite 200. In this case, it may include a plurality of support lines.

2 and 3, the windmill 400 will be described. Windmill 400 is composed of a pinwheel 410 and a windmill wheel 420 and the rotating shaft 430, the pinwheel 410 is installed integrally inside the windmill wheel 420, the windmill wheel 420 is wind It is configured to perform the role of transmitting the rotational force of the pinwheel 410 is rotated by the kite 710.

In addition, the cross-sectional shape of the portion through which the kite 710 passes is preferably formed in a semi-circular shape so that the kite 710 does not leave the windmill wheel 420. At this time, the rotating shaft 430 is provided with a bearing so that the windmill 420 rotates smoothly.

Subsequently, referring to FIGS. 2 and 4, the kite cover 500 will be described as follows. The kite line cover 500 is installed in a semi-circular shape in the upper part of the windmill wheel 420 so that the kite string 710 does not leave the windmill wheel 420, the cross-sectional shape of the part that the kite string passes is configured in a semi-circular like the windmill wheel 420 It is preferable to.

That is, the gap between the windmill wheel 420 and the kite cover 500 is small so that the kite 710 does not escape from the windmill wheel 420.

Referring to Figure 1, the generator 600 is described as follows. The generator 600 includes a generator body 610, a driving wheel 620, and a rotating seat 630. The driving wheel 620 rotates by the rotational force transmitted by the string 710, and the driving wheel ( 620) Power can be generated by rotation. Since the direction of the kite 200 is changed according to the wind direction, it is necessary to change the direction of the generator 600 accordingly, and for this purpose, the generator main body 610 is installed on the rotatable seat 630.

Next, the winding apparatus 700 will be described with reference to FIG. 1. The winding device 700 is used for winding up and lowering the kite 200 and the windmill 300, and winding and unwinding the auxiliary kite 720 necessary to adjust the tension of the kite 710, in this case acts on the kite 200 It is desirable to have a tensile force that can withstand enough force.

In addition, the kite string 710 has a sufficient tensile force similar to the auxiliary string 720, and at the same time to use a material having a sufficient friction force to rotate the windmill wheel 420 and the driving wheel 620. That is, the kite 710 is light but has a sufficient tensile force not to be broken by the tension and wind by the kite 200, and can sufficiently transmit the rotational force of the windmill wheel 420 to the generator wheel 600 driving wheel 620 It is desirable to have a frictional force.

That is, as described above, the wind power generator 100 using the kite 200 according to the present invention uses a shield kite, stingray kite, etc. of a size capable of sufficiently lifting the weight of the windmill 400 and the kite 710. And, the windmill 400 is installed by the pinwheel 410 inside the windmill wheel 420 to be well rotated by the wind, in this case, the cross-sectional shape of the windmill wheel 420 is a semi-circular shape and the top of the windmill wheel 420 The semi-circular kite line cover 500 is installed in a 180-degree range, and the kite line 710 does not deviate from the windmill wheel 420, and the windmill support 300 and the rotating shaft 430 may be installed to install them. have.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of course, this is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the equivalents as well as the claims to be described later.

1 is a view showing a soft-wind generator according to the present invention.

2 is a view showing a windmill and a kite cover according to the present invention.

3 is a view showing a windmill according to the present invention.

4 is a view showing a kite lid according to the present invention.

*** Description of the main parts of the drawing ***

100: kite-wind generator 200: kite

300: windmill support 400: windmill

410: pinwheel 420: windmill wheel

430: axis of rotation 500: kite cover

600: generator 610: generator body

620: driving wheel 630: swivel

700: winding device 710: string

720: auxiliary connection

Claims (6)

In the wind power generator, Kites of various shapes that generate lift and drag using the wind; A windmill positioned below the lead and fixedly supported by a plurality of fixed lines and supports; A generator installed on the ground to produce electricity; And It includes; winding device used for winding up and down the kite and windmills, winding and unwinding the auxiliary cord necessary to adjust the tension of the kite, Wind power generation device using the kite characterized in that the tensile force for interlocking the driving wheel rotational force is maintained according to the windmill wheel rotational force by connecting the windmill wheel of the windmill and the driving wheel of the generator with a string The method of claim 1, The windmill is composed of a pinwheel and a windmill wheel and a rotating shaft, the pinwheel is integrally installed inside the windmill wheel, the windmill wheel is characterized in that to perform the role of transmitting the rotational force of the pinwheel rotated by the wind to the string. Wind power generator The method of claim 1, The kite cover is installed in a semicircular shape on the top of the windmill wheel so that the kite does not leave the windmill wheel, and the cross-sectional shape of the portion through which the kite passes is also configured in a semicircular shape to reduce the gap between the windmill wheel and the kite cover, thereby making the kite line in the windmill wheel. Wind power generator using a kite, characterized in that not to escape The method according to any one of claims 1 to 3, The generator is composed of a generator main body and a driving wheel and a rotating seat, the driving wheel is rotated by the rotational force transmitted to the kite, wind power generation using a kite characterized in that the power generation is possible by the driving wheel rotation. Device The method of claim 4, wherein The generator main body is a wind power generator using a kite characterized in that the direction of the kite is changed according to the change in the wind direction, so that the direction of the generator can be changed by installing on a rotating seat that can rotate The method of claim 5, The wind power generating device using the kite, which serves to support the rotating shaft of the windmill, comprises a windmill support configured to be formed in the lower portion of the kite and formed of a plurality of rows of flexible materials.

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