KR20080077921A - Wind power generator rotor - Google Patents

Abstract

A rotor of the wind power generator is provided to maximize the rotation of the rotor which is composed of a first fan rotated by wind and a second fan rotated by the rotation of the first fan. A rotor(200) of the wind power generator includes a first fan(210) which has arc shaped blades(214) placed in a radial direction on the circumference of hollow body(212) to be rotated by wind, and a second fan(220) which has screw shaped blades(224) placed in a radial direction on the circumference with one end inserted to the hollow body of the first fan and the other end extended from the first fan with being connected to a drive shaft of the wind power generator. The first fan is rotated by wind while the second fan is rotated by vortex or air stream created by the first fan.

Description

Rotor of wind power generator {WIND POWER GENERATOR ROTOR}

The present invention relates to a rotor of a wind generator, and more particularly, a rotor installed on a drive shaft of a wind generator comprises first and second fans so that the first fan is rotated by wind power and thus the second fan. The present invention relates to a rotor of a wind generator that rotates while maximizing the rotation of the first fan.

In general, a wind generator is a device that obtains power by converting into mechanical energy in the process of rotating the rotor using the aerodynamic characteristics of the kinetic energy in the air flow, depending on the direction of the axis of rotation with respect to the ground It is classified into horizontal type and vertical type, and its main components include a rotor composed of vanes and hubs, a speed increaser that drives the generator by increasing the rotation of the rotor, a control device that controls the generator and various safety devices, and hydraulic pressure. It consists of a brake device, a power control device and a steel tower.

Thus, the rotor, which is a main element provided in the wind power generator in the related art, has a structure in which a radial blade is provided on an outer circumferential surface of the body and a shaft which can be fixed to a drive shaft of the generator is provided in the body.

However, in the process of wind power generation by the rotation of the rotor, the rotor has a problem that the rotational force is lowered because the loss of wind is generated due to the shape of the blade or the wind direction.

The present invention has been made to solve the above-mentioned problems, the object is to comprise a rotor installed on the drive shaft of the wind power generator to the first, second fan and the first fan is rotated by the wind power while the second It is to provide a rotor of the wind generator that allows the fan to rotate while maximizing the rotation of the first fan.

In order to achieve the above object, the present invention, in the rotor of the wind power generator, the first fan (Fan) is provided with an arc-shaped first blade radially so as to be rotated by the wind power on the outer peripheral surface of the body formed hollow inside; And a second fan having one end provided inside the body of the first fan and a rotating shaft connected to the drive shaft of the wind power generator at the other end thereof, and having a screw-shaped second wing radially formed on an outer circumferential surface thereof. And the other end of the second fan extends further from the first fan.

In addition, the present invention, the rotor of the wind turbine, the first fan (Fan) rotated by the wind; A second fan rotated in a vortex or air stream formed by the rotation of the first fan; And a rotation shaft driven by the rotation of the first fan or the second fan. It is made, including.

The rotor of the wind generator according to the present invention comprises a rotor installed on the drive shaft of the wind generator, the first fan and the second fan so that the first fan is rotated by the wind power while the second fan is rotated along the first 1 has the effect of maximizing the rotation of the fan.

Hereinafter, with reference to the accompanying drawings, the rotor of the wind generator of the present invention will be described with reference to the embodiments.

The rotor 200 of the wind generator according to the preferred embodiment of the present invention is composed of a first fan 210 and a second fan 220 as shown in FIG.

The first fan (Fan) 210 is formed inside the hollow in the vertical direction, the upper and lower ends of the body 212 is a cylindrical body and the first wing 214 is rotated by a predetermined distance so as to be rotated by wind power on the outer peripheral surface of the body It is provided with a plurality of radially.

Here, the first wing 214 is formed in the shape of a plate bent at the center so as to have a curved line to guide the airflow in the center direction when the edge collision with air to minimize the stress concentration.

The second fan 220 has a top end located inside the body 212 of the first fan 210 and a rotary shaft 222 connected to a drive shaft of a wind power generator (not shown) is formed at the bottom of the second fan 220. A plurality of second wings 224 are provided radially on the outer circumferential surface of 222. At this time, the upper end of the second fan 220 is coupled to be inserted into the lower end of the first fan 210 and the rear end is provided to be exposed to the outside.

Here, the second blade 224 is formed in the form of a screw-shaped winding plate, when the rotor 200 of the wind generator is applied to the street light, when the first blade 214 is rotated by the wind In conjunction  To form a vortex At atmospheric pressure  By allowing air from the ground to flow by the air flow caused by the convection phenomenon it sucks the air flowing through the lower part of the street lamp.

Furthermore, in the present embodiment, the second fan 220 is coupled to the inside of the first fan 210. Alternatively, the first and second fans 210 and 220 may be integrally formed. .

Meanwhile, as the second fan 220 further extends to the outside thereof, a cylindrical extension 216 may be connected to the lower end of the first fan 210 to surround the exposed portion. . (See Figure 2)

Therefore, in the rotor operating process of the wind generator according to the present invention, first, while the first fan 210 is rotated by the wind, the second fan 220 provided below it is also rotated along.

At this time, the second fan 220 is first rotated by the rotational force of the first fan 210, but when it starts to rotate to form a rising air flow by the vortex to rotate by the rising air flow so that the first fan 210 Maximize the rotation of the to facilitate the rotation is facilitated.

Here, if the rotor 200 of the wind power generator according to the present invention illustrates a state in which the street lamp 300 is applied as follows, as shown in Figure 3, the street lamp 300 to which the rotor 200 is applied The lamp is divided into a street lamp 310, an auxiliary fan 312, a lamp 314, a generator 316 and a control box 318 is configured.

The street lamp column 310 is fixed in a state spaced at a predetermined interval from the ground or a plurality of holes are formed in the lower circumferential surface of the outside air is introduced, the cover 320 is provided with a rotor 200 inside the top Is provided. Here, the cover 320 has a plurality of holes formed on the outer circumferential surface to facilitate the inflow of outside air.

The auxiliary fan 312 is provided at the inner lower end of the street lamp (310) is rotated without power by the air introduced through the lower portion of the hole or spaced street lamp (310) while the rising air is generated and the rising air The second fan 220 is added to increase the air to rotate.

The lamp 314 extends in a cantilever shape at both ends of the upper street lamp column 310 and faces downward at the end of the extended portion, and the rotating shaft 222 is rotated when the rotor 200 is rotated by wind power. It is connected to the drive shaft of the generator 316 to be described later is generated by the rotation to be turned on by the generated power.

The generator 316 is located inside the upper end of the street lamp (310) includes a power generation motor (not shown) connected to the drive shaft of the rotor 200 is included by the included battery (not shown in the figure) The generated power is stored and the battery and the lamp 314 are electrically connected.

The control box 318 may control the operation of the lamp 314 and the generator 316, and if the transmission and reception device (not shown in the drawing) is provided therein, each of the street lights 300, wireless remote control uniformly Is possible.

In addition, the rotor 200 of the wind generator may be applied to supply power to a speaker provided in a column in addition to a street lamp.

Rotor 100 of the wind generator according to an embodiment of the present invention is composed of a rotating shaft 102, the second fan 110 and the first fan 120 as shown in FIG.

The rotary shaft 102 is fixed on the drive shaft of the generator (not shown in the drawing) and the second fan 110 is fixed to the upper end of the rotation and the first fan 120 is fixed to the lower end of the rotation do.

That is, the rotating shaft 102 is composed of an inner shaft 102b to which the second fan 110 is fixed and an outer shaft 102a to which the first fan 120 is fixed by a frame. The outer shaft 102a is connected on the drive shaft of the generator. Here, the drive shaft of the generator should also be provided to the outside inside.

The second fan 110 is provided on the upper end of the inner shaft (102b) and a plurality of wings are provided radially interlocked by the rotation of the first fan 120 to be described later to be the same as the rotation direction is formed in a windmill shape.

The first fan 120 is fixed to the frame at the lower end of the outer shaft (102a) and is divided into a body 122, the outer wing 124 and the inner wing 126 is configured.

The body 122 has a penetrating cylindrical shape, the inner diameter of which is smaller than the outer diameter of the second fan 110. This is because when the wind flowing through the lower side of the first fan 120 moves along the inner blade 126, the wind must be transmitted to the blade so that the second fan 110 can be rotated.

The outer wing 124 is provided on the outer circumferential surface of the body 122 at least one radially at regular intervals and may be provided in an inclined state or in a straight state.

The inner blade 126 is radially provided on the inner circumferential surface of the body 122 to guide the air flow to the second fan 110 so that the second fan 110 can be rotated and at least one or more is provided. .

Furthermore, the inner blade 126 may be formed to be the same as the number of outer blades 124 of the first fan 120 or increase or decrease.

In addition, the inner wing 126 is formed in an oblique or curved shape, but in the present exemplary embodiment, the curved shape may be described and may be formed in any one of unevenness.

Here, although not shown in the drawing, a hole 122a for increasing air inflow during rotation of the first fan 120 is formed between the outer blades 124 on the outer circumferential surface of the body 122 so as to penetrate the second. The inflow of wind, which is the driving force for rotating the fan 110, may be increased, and the wind speed may be increased.

In particular, the hole 122a may be formed between adjacent inner blades 126 and may be formed in an inclined rectangular shape or a plurality of arranged circular shapes. In the present embodiment, the hole 122a is illustrated as a rectangular shape. Although only one hole 122a is illustrated in FIG. 1, all of the holes 122a are provided between neighboring inner blades 126.

Therefore, the rotor operating process of the wind generator according to the present invention, first, when the first fan 120 is rotated by the wind from the lower side of the body 122 is introduced into the air due to the air introduced into the inner peripheral surface An upward airflow is generated along the formed inner blades 126 and causes the second fan 110 to interlock in the same state as the rotation direction of the first fan 120.

Here, the outer shaft 102a to which the first fan 120 is fixed is connected to the generator drive shaft to generate power, and the second fan 110 is caused by an airflow generated by the rotation of the first fan 120. As the second fan 110 is rotated while the inner shaft 102b is connected to the generator drive shaft to generate power, the amount of power generation is maximized.

That is, when the first fan 120 is rotated by the wind that causes the outer blade 124 to drive, vortex is generated in the air flowing into the inner blade 126 of the first fan 120 and the vortex Since the second fan 110 is interlocked by the air flow formed therein, the first fan 120 naturally rotates and the second fan 110 is artificially rotated by the rotation of the first fan 120. The amount of power generated may be maximized by rotating the first and second fans 110 and 120.

1 is a perspective view showing a rotor of a wind generator according to an embodiment of the present invention.

2 is an exploded perspective view according to another embodiment of the rotor of the wind generator.

Figure 3 is a front view showing a state in which the rotor of the wind generator is grafted to the street light.

Figure 4 is an exploded perspective view showing a rotor of the wind generator according to another embodiment of the present invention.

5 is a side cross-sectional view of the rotor of the wind generator.

<Description of Symbols for Major Parts of Drawings>

100: a rotor 102 according to an embodiment

110: second fan 120: first fan

122: body 122a: hole

124: outer wing 126: inner wing

200: rotor 210 according to another embodiment: first fan

212 body 214 first wings

220: second fan 222: rotating shaft

224: second wing

Claims (9)

In the rotor of the wind turbine, A first fan having an arc-shaped first wing radially provided on the outer circumferential surface of the body in which the hollow is formed; And A second fan having one end provided inside the body of the first fan and a rotating shaft connected to the drive shaft of the wind turbine at the other end thereof, and having a screw-shaped second wing radially formed on an outer circumferential surface thereof; Including; The other end of the second fan further extends from the first fan of the rotor of the wind generator. The method of claim 1, The first fan and the second fan of the rotor of the wind generator, characterized in that formed integrally. The method of claim 1, The second fan is by the first fan In conjunction  The rotor of the wind generator, characterized in that the rotation by sucking the incoming air after entering the air from the ground by the air flow. The method of claim 1, The first fan is a rotor of the wind generator, characterized in that the extension portion is further formed surrounding the other end of the second fan is extended. In the rotor of the wind turbine, A first fan rotated by wind power; A second fan rotated by a vortex formed by the rotation of the first fan; And Rotating shafts individually driven by rotation of the first fan or the second fan; Rotor of the wind turbine, characterized in that comprises a. The method of claim 5, At least one inner wing is radially provided on the inner circumferential surface of the first fan to form a vortex for rotating the second fan, and at least one outer wing is radially provided on the outer circumferential surface of the first fan. Rotor of wind turbine. The method of claim 6, The inner blade is a rotor of the wind turbine, characterized in that formed in a diagonal or curved form. The method of claim 6, The rotor of the wind turbine, characterized in that the through-hole is formed between the outer blades to increase the air inflow during rotation. The method of claim 5, wherein the rotation axis, The rotor of the wind turbine, characterized in that the inner shaft is connected to the second fan, the outer shaft is connected to the first fan.

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