KR20130116474A - Wind power generation which has the air volume adjuster - Google Patents

Abstract

PURPOSE: A wind power generator having an air volume control device is provided to control air volume, and to prevent a damage of the wind power generator and a wind collecting guide, and to prevent an excessive power generation of a generator and a windmill in a typhoon. CONSTITUTION: A wind power generator having an air volume control device comprises a wind collecting guide (20) and a turning type air volume control device (10). The wind collecting guide comprises a side inducing wall (21) around a windmill (1) and an upper part inducing wall (22). The turning type air volume control device comprises a pivot axis (11) and an adjusting plate (12) around the windmill inside the wind collecting guide.

Description

Wind power generation system with wind volume control device {Wind power generation which has the air volume adjuster}

The present invention relates to a wind power generator for producing electric power using wind power, and more particularly, to configure a wind collecting guide to maximize the rotation of the windmill in which direction the wind blows in any direction, the interior of the wind guide The wind speed is controlled according to the wind speed detected by the anemometer, and when a strong wind caused by a typhoon or the like stops the rotation of the windmill, it can completely wind the windmill inside the house wind guide while providing a sufficient discharge passage of the strong wind. The invention relates to a wind power generator that can secure the wind guide and wind power generator.

As is well known, a wind power generator is a device for converting wind energy into electrical energy. The wind power generator is a clean energy generator that generates electricity by rotating a blade using wind power and driving a generator through the rotational force of the blade.

The above-mentioned wind power generators have a fundamental problem in that efficiency is lowered when the uniformity of the wind volume and the wind direction is not satisfied. Compared with the conventional wind power generators that require a rated wind speed of 12 m / s, the average wind speed of each region in Korea is the most. Jeju Island, which has excellent wind resources, has an average of only 7 to 8 m / s per year, which causes the generation of 30 to 40% efficiency of the rated output.

In consideration of the above-mentioned problems of the wind power generator, there may be a large wind collecting guide for introducing the wind passing through the windmill into the windmill, but in this case, if the wind is too strong, the windmill or the power generator is damaged by excessive rotation. There is a problem in that adverse effects occur.

In order to prevent excessive rotation of the windmill, a wind speed adjusting device of a slide type is configured at a predetermined position of the wind collecting guide that introduces the wind into the windmill, and a method of protecting the windmill by closing the airflow adjusting device in the event of strong wind blowing. Although the configuration of the air volume control device is complicated, and when a strong wind such as a typhoon occurs, the exhaust passage of the strong wind introduced into the wind guide is not sufficiently secured, so that the wind guide is broken and the wind power generator is also damaged. There is a need for technology to control the amount of power generated according to the wind volume and to protect the wind power generator and wind guide even in strong winds such as typhoons.

The present invention was devised to solve the above problems, by effectively collecting the wind passing through the wind turbine sideways and configured to the vertical windmill configured to be used for the rotation of the windmill to operate the generator even in the weak winds It is possible to continue, and the amount of wind flowing into the windmill can be adjusted according to the wind speed, and when a strong wind such as a typhoon, the above wind collecting action can be stopped, while also ensuring a sufficient discharge passage of the strong wind, windmill and generator The aim is to prevent excessive power generation and damage of wind collection guides and wind turbines.

In order to achieve the above object, the present invention comprises a wind collecting guide around the vertical windmill, the wind collecting guide is composed of a large wind collecting guide that can wind up to the wind passing through the side and the top of the windmill, The rotational air flow control device is configured on the side guide wall of the wind collecting guide, and the rotational air flow adjusting device is positioned on the same line as the side guide wall of the air collecting guide when deployed, and is spaced apart from the side guide wall of the air collecting guide. It completely blocks the wind flowing into the windmill, characterized in that the strong wind movement passage is formed inside the house wind guide.

The present invention has the effect of greatly improving the power generation efficiency because it is used to generate power up to the wind passing through the side and the upper side of the windmill as a large wind guide to maximize the efficiency of the wind, the disadvantage of the existing vertical wind generators. .

In addition, the present invention has the effect of maintaining a stable wind power generation can always be a constant amount of wind flow into the wings of the windmill according to the operation of the rotational air volume control device that is controlled to operate according to the strength of the wind.

In addition, the present invention is spaced apart from the side guide wall of the wind blowing guide when the rotational air flow control device is closed, to form a sufficiently moving passage of the strong wind to prevent the wind guide is broken by the collision with the strong wind and also the wind power generator is also damaged at the same time It is a useful invention having great advantages in many ways, such as being effective.

1 is a partially exploded perspective view of a wind power generator according to the present invention
Figure 2 is an illustration of the action state at the time of deployment of the rotational air volume control device of the present invention
Figure 3 is an exemplary view of the operating state of the closed air flow control device of the present invention
Figure 4a is an illustration of the adjustment operation of the rotational air volume control device of the present invention
Figure 4b is a block diagram illustrating the operation of the rotational air flow control device of the present invention
FIG. 5 is a cross-sectional view taken along the line AA of FIG. 4A

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

Wind power generator according to the present invention is based on the vertical windmill (1), the generator is connected to drive the power generator by the rotation of the windmill, the rotation type according to the wind speed detected by the anemometer (not shown) It is a wind power generator that operates the airflow control device 10 by known means such as the motor 2 and the bevel gear 3.

As shown in FIG. 1, a wind collecting guide 20 is formed around the windmill 1. The wind collecting guide 20 is a fixed structure such as concrete, and has a side guide wall 21 and an upper guide wall 22. ), The side guide wall 21 is configured in a straight line so as to face the edge of the windmill 1 around the windmill 1, and six are formed at a uniform angle around the windmill.

The upper guide wall 22 is configured to be narrowed toward the windmill 1 on the upper side of the side guide wall 21, the side guide wall 21 and the upper guide wall 22 is the upper and left, It becomes narrower toward the right side.

A motor 2 and a bevel gear 3 for driving the airflow control device 10 are formed at the upper portion of the wind collecting guide 20.

As shown in Figures 2, 3, 4, the rotational air volume control device 10 is configured around the windmill (1) inside the wind collecting guide 20, the rotational air flow control device 10 is a windmill (1) Six rotating shafts 11 are installed at positions close to the rotating shaft 11, and the six adjusting plates 12 are rotated about the rotating shafts 11, and the rotating shafts 11 extend on the inner side of the side guide wall 21. It is comprised in the position close to the windmill 1, and the opposite end part of the rotational shaft 11 is in close contact with the front-end | tip of the side guide wall 21 when it turns to the side guide wall 21. As shown in FIG.

The upper end of the rotating shaft 11 is configured with a motor and a bevel gear 3 for power transmission, the control plate 12 is configured to be coupled to the rotating shaft (11).

As shown in FIGS. 2 and 4, the throttle plate 12 is located at the same line as the inner end of the side guide wall 21 and the outer end of the throttle plate 12 in contact with each other. It is configured so that there is no resistance to the flow of the wind flowing into the, as shown in Figures 3 and 4 when the closing plate 12 is rotated toward the windmill (1) around the rotating shaft (11) to the front end portion Strong wind movement in the space provided by the operation of the throttle plate 12 between the windmill 1 and the side guide wall 21 while completely preventing the wind from entering the windmill 1 while being in close contact with the rear end of the throttle plate 12. The passage 13 is configured to be formed.

Hereinafter, the operation of the present invention will be described.

The wind guide and wind volume control device is configured around the windmill of the wind power generator according to the present invention to generate power by driving the generator while the windmill rotates by the wind, and adjusts the wind volume control device according to the wind speed detected by the anemometer. The operation of adjusting the rotation of the windmill is a known and obvious facts so detailed description is omitted.

As shown in FIG. 2, the present invention provides a fixed large wind guide 20 capable of collecting wind from the top, left and right winds in case the windmill 1 stops rotating when the amount of wind is small, such as a breeze. Is configured, and the wind speed guided by the wind collecting guide 20 formed to narrow the upper and left, right side toward the windmill (1) and the amount of air flowed into the wind guide (20) increases the windmill (1) even in the weak wind It keeps rotating and allows for power generation.

In addition, as shown in FIG. 2, in the state in which the control plate 12 of the rotational airflow control device 10 is deployed, the outer end of the control plate 12 and the inner end of the side guide wall 21 are in contact with each other and are located on the same line. So that the resistance to the flow of wind flowing into the windmill (1) completely disappears.

The present invention rotates the throttle plate 12 of the rotational air volume control device 10 to a predetermined position according to the wind speed sensed by the wind speed meter when the strong wind is blowing to adjust the amount of air flowing into the windmill 1, such as typhoon When the strong wind blows, as shown in FIG. 3, the throttle plate 12 rotates completely toward the windmill 1 around the pivot shaft 11 so that the throttle plate 12 closely adheres to the other throttle plate, so that the wind flows into the windmill 1. It will be completely prevented, it will be useful to work in such a way to completely block the wind when the repair or replacement work for the windmill (1).

When the inner end of the side guide wall 21 and the outer end of the control plate 12 is separated from the wind completely, a strong wind moving passage 13 is formed in the spaced space to the strong wind introduced into the wind guide 20 Minimizing the collision with the side guide wall 21 and to escape to the outside of the wind guide 20 to prevent damage or excessive action of the wind guide 20 and the wind turbine.

1: windmill 2: motor
3: Bevel Gear 10: Rotating Air Volume Control
11: pivot 12: throttle
13: Strong Wind Passage 20: Wind Guide
21: side guide wall 22: upper guide wall
23: pedestal

Claims (1)

In the wind power generator in which the generator is connected to the vertical windmill (1), the rotation of the windmill drives the generator,
In the periphery of the windmill 1, a wind guide 20 composed of a side guide wall 21 and an upper guide wall 22 is configured.
Side guide wall 21 is configured in a straight line to the direction of the edge of the windmill (1) in the vicinity of the windmill (1) consists of six uniform angles around the windmill,
The rotational air volume control device 10 is configured around the windmill 1 inside the air collection guide 20, but the rotational air volume control device 10 is located at a position close to the windmill 1 of the side guide wall 21. To configure the six rotating shaft 11 at a predetermined point on the inner extension line, and configure the six adjusting plate 12 to rotate about the rotating shaft 11,
The throttle plate 12 is positioned on the same line as the inner end of the side guide wall 21 and the outer end of the throttle plate 12 when deployed, so that there is no resistance to the flow of wind from the wind guide guide 20 into the windmill. Composed,
When closed, the control plate 12 is rotated toward the windmill 1 around the pivot shaft 11 so that the front end is in close contact with the rear end of the adjacent control plate 12 while completely preventing the wind from entering the windmill 1. A wind power generator comprising a wind volume control device configured to form a strong wind moving passage 13 in a space provided by the operation of the throttle plate 12 between the windmill 1 and the side guide wall 21.

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