KR200378036Y1 - A windmill for power generation - Google Patents

Abstract

The present invention relates to a windmill for natural wind using natural wind, and in particular, a plurality of rotors are formed on a vertical axis of rotation while a layer is formed, and the rotors are accommodated in a frame made of frame so that the wind blows in all directions It is possible to obtain an efficient wind power generation through the ventilation, and to install a windmill for the wind power, there is little regard for the installation place relates to a windmill for wind power generation that can obtain a large amount of power by using various wind direction and air volume effectively.

Description

Windmills for Wind Power {A WINDMILL FOR POWER GENERATION}

The present invention relates to a windmill for natural wind using natural wind, and in particular, a plurality of rotors are formed on a vertical axis of rotation while a layer is formed, and the rotors are accommodated in a frame made of frame so that the wind blows in all directions It is possible to obtain an efficient wind power generation through the ventilation, and to install a windmill for the wind power, there is little regard for the installation place relates to a windmill for wind power generation that can obtain a large amount of power by using various wind direction and air volume effectively.

In general, wind power generation is realized by windmills. The windmills are provided with a rotating shaft extending in a horizontal direction on an upper portion of the support, forming a plurality of propellers on one end of the rotating shaft, and connecting a generator to the other side of the rotating shaft. It constitutes the windmill.

These windmills rotate propellers by natural winds, which are converted to electrical power generation by rotating the generators by increasing the speed using gear mechanisms. This method is called wind power generation. Since the generator needs to rotate at a constant speed irrespective of the wind speed, a method of increasing power generation efficiency has been sought by controlling such as changing the inclination of the windmill blade according to the wind speed.

Therefore, such windmills need strong winds to obtain a constant efficiency. For this reason, conventional windmills are installed along a coastline or in places that can receive a lot of wind, such as using high terrain such as mountains or land. In addition, such a windmill has a large body size in proportion to the power generation capacity to be obtained. Accordingly, as the propeller of the windmill grows, the height of the whole body is formed high from the ground to receive a lot of wind.

Such a conventional windmill for wind power generation can obtain a large-capacity power generation only when the windmill is enlarged in size. Therefore, the installation work is difficult due to the location of the windmill. Since this becomes large, it is not easy to put into practical use as well as there is a problem that the installation cost of the windmill is also very high. In addition, the direction to obtain wind power using natural wind is also limited to one direction, which makes it difficult to efficiently use various winds blowing from all directions.

The present invention is to solve the above problems, wind power can be obtained even if the wind blows in any direction, in particular, in installing the windmills for the wind power generation of the present invention has little regard for the place to effectively reduce the various wind direction and air volume It is to provide a windmill for wind power generation that can obtain a large amount of power generation.

To this end, in the windmill constituting the wind power generation, a vertical length is formed vertically and the upper end is coupled to the upper bearing of the body, while the lower end is connected to the generator and the rotating shaft for transmitting power, and is inserted into the rotating shaft Rotating body consisting of a ply is formed in a radially perpendicular to a plurality of panels on the central axis to be rotated integrally, and a plurality of the rotating body is formed on the rotation axis, but the rotor is formed up and down neighboring ply The drive unit is connected to the lower end of the rotary shaft, and is electrically configured to generate a rotational power, and the drive unit and the generator accommodates and supports, and is composed of a four-way frame structure. At this time, the rotating body is formed in the center is coupled to the rotating shaft is fixed to the center axis, the outer surface of the central shaft is formed of a panel of metal or synthetic resin material, while one end is fixed vertically to the central axis, while the panel is An object of the present invention is to provide a windmill for generating wind power, which is composed of a plurality of plies that form a curved surface as a whole.

On the basis of the accompanying drawings will be described the present invention in more detail.

As shown in FIGS. 1 to 3, the wind turbine for designing a wind turbine according to the present invention accommodates the driving unit 400 and the driving unit 400 formed of a plurality of rotating bodies 300 adjacent to each other up and down on a vertical rotation shaft 200. It is largely composed of a body (100).

Unlike the conventional windmills, the inventive wind turbine for the present invention is configured as described above, and the rotation shaft 200 is vertically formed from the ground. The rotation shaft 200 is configured in the shape of a round bar formed to a predetermined length. The upper end of the rotating shaft 200 is coupled to the upper bearing portion 110 provided on the upper body 100 to facilitate smooth rotation and upper support during rotation. At this time, the lower end of the rotating shaft 200 is connected to the generator 500 for converting the rotational power into electrical power to generate wind power is converted into electrical power.

In order to rotate the rotary shaft 200 is realized by the driving unit 400 formed on the rotary shaft 200, that is, a plurality of the rotating body 300, the rotating body 300 is the rotating shaft ( 200 is coupled to form a central axis 310 is fixed, and at this time, a plurality of ply 320 formed of a panel of metal or synthetic resin material is fixed to one end with respect to the central axis 310 to form a radial 300 is configured. In this case, the ply 320 is preferably formed in the shape of the entire panel to be curved so that the front end is vertically formed with respect to the central axis 310 to receive the wind according to the specific area or the strength of the wind.

On the other hand, a plurality of the rotating body 300 is formed on the rotating shaft 200 to be neighbored up and down to form a drive unit 400 to be integrally rotated from the wind is formed at this time the rotating body 300 of the drive unit 400 The number configuration is also preferably used by adjusting the quantity according to the specific area or the strength of the wind.

One drive unit 400 including a plurality of rotating bodies 300 and a rotating shaft 200 configured as described above is formed by a body 100 formed as a frame together with a generator 500 that is connected to a lower end of the rotating shaft 200 and is developed. The body 100 formed as described above is fixed by being accommodated in the frame structure formed only as a skeleton so that there is no regard for the direction of the wind as described above, so that the wind is blown in any direction and smoothly applied to the fly 320. It can be rotated to achieve excellent power generation efficiency.

In addition, the wind turbine for wind power is formed by rotating the shaft 200 vertically, as the rotating body 300 rotates in a vertical state with respect to the rotating shaft 200, the resistance to the rotational resistance and its own weight is less rotational force even in the fine wind Excellent, in particular, can be set in a variety of positions of the fly ply 320 to receive the wind, it can be carried out in a low wind area to obtain an efficient wind power generation. In this way, the windmill is easily rotated even in weak power, such as the weak wind is possible by using a ball bearing attached to the bottom of the rotating shaft 200 as the spinning top on the ice plate.

In this way, the wind turbine for wind power generation of the present invention can obtain wind power even when the wind is blown from all directions, and in particular, the installation of the windmill has little regard for the place, and thus, the large-scale power generation can be obtained effectively by using various wind directions and wind volumes. While effective, the installation is easy and the installation cost is low.

1 is a side cross-sectional view of the coupling state of the present invention,

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a perspective view of a rotating body according to the present invention.

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

100 Body 110 Top Bearing

200 ... rotating shaft 300 ... rotating body

310 ... center axis 320 ... fly

400 ... Drive 500 ... Generator

Claims (2)

In the windmill constituting the wind power generation, It forms a vertical length vertically and is coupled to the upper bearing 110 of the body 100 at the top, while the lower end is connected to the generator 500 and the rotating shaft 200 for transmitting power, and the rotating shaft 200 The rotating body 300 is composed of a fly 320, the plurality of panels are radially vertically formed on the central axis 310 is integrally rotated to be inserted into the plurality of the rotating body 300 on the rotating shaft 200 And a driving unit 400 that is formed as a single ply by forming the rotor 300 up and down, and the generator 500 is connected to the lower end of the rotary shaft 200 to electrically generate rotational power; While receiving and fixing the drive unit 400 and the generator 500, the wind turbine for wind power, characterized in that consisting of a body 100 formed of a four-way frame structure. According to claim 1, The rotating body 300 is formed in the center of the central shaft 310 is coupled to the fixed to the rotating shaft 200, the center axis 310 is formed of a panel of metal or synthetic resin material, Windmill for wind power generation, characterized in that the front end is fixed vertically to the central axis (310), the panel consists of a plurality of ply (320) as a whole forming a curved surface.