KR20140004359A - Wind power eletric generator with noise reduced - Google Patents

Abstract

Disclosed is a wind power generator with minimized noise caused by the rotation of blades using an aeromechanical method. The wind power generator uses a down-wind method to join a rotor to the rear end of a nacelle based on the flow of wind; and includes a noise reduction unit surrounding a tower by being joined to the bottom of the nacelle. The noise reduction unit has a streamlined horizontal cross-sectional shape based on the flow of wind.

Description

[0001] WIND POWER ELETRIC GENERATOR WITH NOISE REDUCED [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wind turbine generator, and more particularly to a wind turbine generator that aerodynamically minimizes noise caused by rotation of a blade. Further, the present invention relates to a wind power generator having improved adaptability even in a weather condition in which a change in wind direction is severe.

Wind power generation is a power generation method in which a blade receives energy from the wind to drive a rotating device and the rotating device generates electric power through a permanent magnet type power generation device, which is advantageous in that it can produce and utilize electric power in place of existing fossil fuel .

Various types of power generation devices for wind power generation have been proposed. Generally, a horizontal type wind power generation device includes a rotor, a tower, and a nacelle.

The rotor consists of a blade and a hub that holds the blade so that when the blade is rotated by the wind, the hub rotates. The nose nose may include components such as a housing connected to the hub for supporting the hub and a generator installed inside the housing.

In addition, a yaw system is installed between the nacelle and the tower so that the nacelle rotates horizontally according to the wind direction. As is well known, the yaw system winds the rotor and nacelle of the wind turbine. So that the efficiency of the wind power generator is maximized and the fatigue load acting on the entire wind power generator is reduced.

According to the above-described wind turbine generator, the rotational force transmitted to the nacelle according to the rotation of the hub can be converted into electric energy by the generator in the nacelle. Such a configuration is a general configuration in a wind power generator, and a detailed description thereof will be omitted.

Conventional horizontal type wind power generators are structurally divided into an UP WIND method and a DOWN WIND method.

Upwind is a structure in which the blade is installed on the front side based on the direction in which the wind is blown. Since the blade firstly bumps into the blade, the adaptability of the nacelle to the direction of wind blows down. When the wind is too strong, There is a problem that it can collide with the tower.

In order to solve such a problem, the above-mentioned problem can be solved because the blade is proposed in the downwind mode and the blade is installed in the downstream stage based on the wind direction.

However, in the case of such a downwind method, there is a fatal problem that noise due to rotation of the blade is large. As a result, it is not suitable for home use in densely populated areas.

At the same time, the noise generated in the power generator inside the nacelle is also a noise problem that can not be overlooked.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a wind power generator in which the noise due to the rotation of the blades is minimized aerodynamically.

Another object of the present invention is to provide a wind power generator capable of responding sensitively to a change of a wind direction.

It is another object of the present invention to provide a wind power generator capable of reducing noise in a nacelle.

The above object is achieved by a turbine rotor comprising a rotor composed of a blade and a hub for fixing the blade, a nacelle coupled with the rotor and containing a mechanical element including a generator therein, and a tower supporting the nacelle from the ground, Further comprising a noise reduction unit coupled to a lower portion of the nacelle to surround the tower, wherein the rotor is coupled to a rear end of the nacelle based on a flow of the wind, The present invention is achieved by a wind power generator with reduced noise, which has a streamlined horizontal cross-sectional shape on the basis of a flow.

Preferably, the interior of the noise reduction unit is empty and communicates with the interior of the nacelle.

Preferably, the length of the noise reduction unit is a length corresponding to the length of the blade.

Preferably, the rotor head further includes a rotor head covering the hub, and a recess is formed at a predetermined depth inwardly from an end of the rotor head, and a cone protrudes from the bottom center of the recess.

According to the above structure, it is possible to minimize the noise due to the plosive noise caused by the collision of the blade with the vortex due to the elimination of vortex generated by the tower, minimize the friction with the vortex and reduce the friction energy, Can be prevented.

In addition, due to the end structure of the rotor head, since the nacelle responds sensitively and promptly to the change of the wind direction, the blade can always be vertically opposed to the wind to improve the rotation performance of the blade do.

Furthermore, by absorbing the machine noise generated inside the nacelle once more, the machine noise can be reduced.

1 is a perspective view showing a wind turbine generator according to an embodiment of the present invention.
2 is an exploded perspective view of a wind power generator according to an embodiment.
3 is a side view of a wind power generator according to an embodiment.
Fig. 4 shows the combination of the nose and the noise reduction unit.
5 illustrates the principle of reducing noise in the present invention.
Figure 6 illustrates the principle of rapid adaptation to wind direction changes.

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

FIG. 1 is a perspective view of a wind turbine according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a wind turbine generator according to an embodiment, and FIG. 3 is a side view of a wind turbine generator according to an embodiment.

A wind turbine generator 100 according to the present invention includes a rotor 40, a nacelle 10 coupled to the rotor 40, a tower 60 supporting the nacelle 10 from the ground, And a noise reduction unit 50 which is coupled to the lower portion of the tower 60 and surrounds the tower 60.

Nussel (10)

The nacelle 10 comprises a removably coupled housing and a mechanical element housed within the housing. As well known, there are mechanical components, such as a main shaft axially coupled to the rotor 40, a generator driven by rotation of the main shaft, and other supporting mechanical parts.

The nacelle 10 is rotated horizontally horizontally by a yaw system to position the nacelle 10 toward a wind direction. The blade 20 is installed downstream of the nacelle 10 in a downwind manner Thereby improving the adaptability to the wind direction.

Rotor (40)

The rotor 40 is composed of a blade 20 and a hub 30 for fixing the blade 20 at one end and the hub 30 is covered by the rotor head 32.

The hub 30 is engaged with the main shaft (not shown) housed in the nacelle 10, and the main shaft also rotates as the blade 20 rotates.

The wind turbine generator of the present invention has a down wind system in which the rotor 40 is coupled to the rear end of the nacelle 10 based on the flow of wind.

2 and 3, the rotor head 32 covering the hub 30 is formed with a recess 32a having a predetermined depth inwardly from the end thereof, and a cone (not shown) is formed at the center of the bottom of the recess 32a. 32b are protruded. According to this structure, the wind flowing along the surface of the nacelle 10 flows along the surface of the rotor head 32, the inner wall surface of the recess 32a, the bottom surface, and the surface of the cone 32b, To allow the nacelle (10) to respond sensitively and quickly to changes in the direction of the wind. Details thereof will be described later.

Tower (60)

The tower 60 supports the nacelle 10 from the ground. For example, the tower 60 can be made of a pipe in a small size and can be made of a concrete steel frame in a large size.

noise Abatement unit (50)

The noise reduction unit 50 is installed to surround the tower 60 by being coupled to the lower portion of the nacelle 10.

According to the study of the present inventor, since a blade rotates at a high speed while rotating at a high speed, a very strong plosive sound is generated. In particular, when the blade rotates, the largest plosive sound occurs at the portion overlapping with the tower, It was found that because of the location, users feel a louder noise.

Fig. 4 shows the combination of the nose and the noise reduction unit.

In this embodiment, the noise reduction unit 50 has a streamlined horizontal cross sectional shape based on the wind flow. That is, the portion corresponding to the head portion of the nacelle 10 has a large semicircular shape, and the shape gradually becomes narrower toward the tail portion, and has a cross-sectional shape similar to that of an airplane.

Since the noise is generated in the entire portion where the blade 20 and the tower 60 overlap, the length of the noise reduction unit 50 may be substantially the same as the length of the blade 20.

The flange 52 formed at the upper edge of the noise reduction unit 50 and the flange 12 formed at the lower portion of the nocelle 10 are flanged to form the nacelle 10 And the inside of the noise reduction unit 50 can communicate with each other.

Hereinafter, the operation of the wind power generator 100 having the above structure will be described with reference to Figs. 1 to 6. Fig.

Fig. 5 explains the principle of reducing noise in the present invention, and Fig. 6 explains the principle of quick adaptation to wind direction change.

1, the blade 20 rotates, so that the main shaft axially coupled to the hub 30 and the hub 30, which fixes the blade 20, rotates. Thereafter, Is transmitted to generate power. Since this is a well-known technique in general, a detailed description thereof will be omitted.

As described above, when the blade 20 rotates at a high speed, a plosive sound is generated due to friction with the wind. Referring to FIG. 5 (a), in the conventional case, the tower 60 'is mostly circular in its horizontal section, and an eddy current E is generated at the rear end of the tower 60' . Since this vortex is formed over a wide range, the blade 20 collides with the vortex while colliding with the vortex so that a large plague sound is generated.

5 (b), the noise reduction unit 50 of the present invention has a horizontal cross section formed in a streamlined shape like an airplane wing, so that wind flows while maintaining a narrow range at the rear end of the noise reduction unit 50 The vortex does not occur and the blades 20 collide with the wind in a very narrow range, so that the plosive sound is minimized.

As a result, when the blade 20 comes to the lower vertical position, the user most certainly recognizes the plosive sound, and this plosive sound acts as noise to the user. In the case of the present invention, by the noise reduction unit 50 installed at this position, Thereby minimizing the noise perceived by the user. At the same time, it is possible to eliminate the vortex so as to minimize the friction of the blade 20 with the wind, and as a result, the friction energy is reduced, thereby preventing the rotation speed of the blade from decreasing.

The internal noise of the noise reduction unit 50 is vacant and the inside of the noise reduction unit 50 is communicated with the nacelle 10 so that the machine noise generated from the mechanical element inside the nacelle 10 is discharged through the noise reduction unit 50 do. As a result, the mechanical noises generated from the mechanical elements inside the nacelle 10 are absorbed once again by passing through the inside of the noise reduction unit 50, so that the mechanical noises can be reduced.

As described above, the wind turbine generator of the present invention has a down wind system in which the rotor 40 is coupled to the rear end of the nacelle 10 on the basis of the flow of wind, The end of the coupling rotor head 32 has a special shape.

6, the wind flowing along the surface of the nacelle 10 flows from the surface of the rotor head 32 through the inner wall surface of the recess 32a, and then flows from the bottom of the recess 32a to the cone 32b. ≪ / RTI >

Thus, the rotor head 32 itself performs the function of a rudder so that the nacelle 10 responds sensitively and quickly to changes in the direction of the wind. As a result, since the blade 20 is always vertically opposed to the wind because the nacelle 10 and the blade 20 coupled thereto rapidly react to the change of the wind direction, the rotation efficiency is improved with respect to the intensity of wind of the same size .

This characteristic has an advantage that it can be appropriately applied to an environment in which protruding winds with many changes in wind direction are generated, as in the case of Korea.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Accordingly, the scope of the present invention should not be construed as being limited to the embodiments described above, but should be construed in accordance with the following claims.

10: nacelle
12, 52: flange
20: blade
30: hub
32: rotor head
32a: recess
32b: cone
40: rotor
50: Noise reduction unit
60: tower

Claims (4)

1. A wind turbine generator comprising a rotor composed of a blade and a hub for fixing the blade, a nacelle coupled to the rotor and containing a mechanical element including a generator, and a tower for supporting the nacelle from the ground,
The wind power generator includes:
(DOWN WIND) system in which the rotor is coupled to the rear end of the nucelle on the basis of the wind flow,
And a noise reduction unit coupled to a lower portion of the nacelle and surrounding the tower,
Wherein the noise reduction unit has a streamlined horizontal sectional shape based on the wind flow. The method according to claim 1,
Wherein the interior of the noise reduction unit is empty and communicates with the interior of the nacelle. The method according to claim 1,
Wherein the length of the noise reduction unit is a length corresponding to a length of the blade. The method according to claim 1,
Further comprising a rotor head covering the hub,
Wherein a recess is formed at a predetermined depth inwardly from an end of the rotor head and a cone is protruded at a center of the bottom of the recess.

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