KR20110066002A - An entrance opening and shutting device of wind generator - Google Patents

Abstract

PURPOSE: An inlet opening device of a wind generator is provided to prevent accidents by automatically controlling the opening width of an inlet according to the intensity of inflow wind through an inlet. CONSTITUTION: An inlet opening device of a wind generator comprises a casing(5), a blade(7), a frame and a generator. The casing has an inlet port(2), an outer port(3) and a direction key(4). The blade is installed on the outer circumference of a rotary shaft(6) which is installed in the inner side of casing in a radial direction. The generator generates electricity using the torque of the rotary shaft.

Description

An entrance opening and shutting device of wind generator

The present invention relates to an inlet opening and closing device of a wind power generator, and more particularly, a plurality of dampers are installed at the rear of the wind turbine at intervals in a hinged manner and are installed at the rear of each damper. Each lever is hingedly connected as a hinge link, and an elastic support for resiliently supporting the damper of the outer damper to the rear is provided between the one damper installed on the outside of the damper and the outer wall surface of the casing. In order to automatically adjust the opening and closing width of the inlet according to the strength of the wind flowing into the inlet.

Conventional patent (10-0776319: vertical axis type wind turbine) and a plurality of wings 110 is fixed to the rotating shaft 111 provided vertically as shown in Figure 1; A generator 130 connected to the rotary shaft 111 to generate electricity; It is rotatably installed on the rotating shaft 111 and the body portion 121 surrounding the wing 110 to prevent the back wind on the wing 110, and fixed to the body portion 121 and the wing 110 Inlet guide portion 122 of the narrow tube type narrowing the cross-sectional area to increase the wind speed transmitted to the inlet guide, and the expansion tube type fixed to the body portion 121 is located opposite to the inlet guide portion 122 A casing 120 formed of an outlet guide part 123; A rudder 140 fixed to the casing 120 such that the opening of the inlet guide 122 is parallel to the wind direction; Is installed in the opening of the inlet guide portion 122 is composed of a rotary valve 150 for adjusting the cross-sectional area of the opening of the inlet guide portion 122 in accordance with the wind speed above the set wind speed.

The rotary valve 150 has a shield blade 152 installed so as to be rotatable while having a second rotating shaft 151 in a vertical direction in a portion of the opening of the inlet guide portion 122; A cylinder unit 153 installed on the casing; A piston 154 which moves back and forth in the cylinder part 153 according to wind speed; A rack (155) and pinion (156) for converting the linear motion of the piston (154) into the rotational motion of the shield blades; A stopper portion (not shown) protruding in the cylinder portion 153 to limit the front and rear movable displacement of the piston; It is comprised by the spring (not shown) for elastically supporting the said piston.

This conventional invention is the casing 120 is rotated by the rudder 140 in accordance with the wind direction, so that the inlet guide portion 122 is always positioned to direct the wind, the wind introduced into the inlet guide portion 122 The wind speed is increased to rotate the blade 111 and exhausted to the outlet guide portion 123, the power is generated in the generator 130 connected to the rotating shaft 111 by the rotation of the blade 111.

On the other hand, the rotary valve 150 installed in the inlet guide portion 122 is operated according to the wind speed to adjust the cross-sectional area of the opening of the inlet guide portion 122, so that only the rated air flow acts on the blade 110 to obtain a stable power source. To help.

However, this is a problem that the structure of the device portion (rotating valve 150) for adjusting the opening cross-sectional area of the inlet guide portion 122, the foreign matter flying with the wind between the rack 155 and the pinion 156 If caught, there was a problem that the rotary valve 150, including the shield blade 152 is unable to operate.

The present invention is to solve the above problems, in the casing installed on the outside of the blade is installed inlet opening and closing device for automatically controlling and blocking the opening and closing width of the inlet according to the strength of the wind flowing into the inlet, inlet opening and closing device If the damper constituting the damper is inclined and the wind flowing into the inlet is weak, the wind is concentrated in the outward direction of the blade so that the blade rotates quickly even in the weak wind, and if the wind is strong, the damper blocks the inlet and rotates the blade. It aims to lower the generator to prevent damage to the generator.

In order to achieve the above object, the present invention provides a casing provided with an inlet, an exhaust port, and a direction key, a plurality of blades radially installed on the outer periphery of a rotating shaft installed vertically inside the casing, and vertically below the center of the casing. In the wind turbine comprising a frame that is installed so that the lower end of the rotating shaft is rotated downwardly, and the generator to generate power by the rotational force of the rotating shaft, a plurality of dampers are installed at the inlet to the rear of the lever to protrude rearwards in a hinged manner. It is installed at intervals, each lever is hinged linkage is installed in the hinge, between the damper and the casing is installed in the outer side of the damper elastic support for elastically supporting the rear damper to the rear Earth is installed elastically.

The present invention as described above, in the casing is installed on the outside of the blade is installed inlet opening and closing device for automatically adjusting and preventing the opening and closing width of the inlet according to the strength of the wind flowing into the inlet, If the damper is installed at an inclined angle and the wind flowing into the inlet is weak, the wind is concentrated in the outward direction of the blade so that the blade rotates quickly even in the weak wind.In the case of strong wind, the damper blocks the inlet to increase the rotation speed of the blade. Lowering it will have the effect of preventing damage to the generator.

In addition, since the structure of the components constituting the inlet opening and closing device is simple, the effect of reducing the manufacturing cost, and the structure is simple, the failure rate is significantly lower, there is an effect of improving the durability of the product.

Hereinafter, the inlet opening and closing device of the wind power generator according to the present invention will be described with reference to the accompanying drawings, FIGS. 2 to 4.

2 to 4, the present invention provides a casing 5 provided with an inlet port 2, an exhaust port 3, and a direction key 4, and a rotating shaft 6 installed vertically inside the casing 5; A plurality of blades 7 radially installed on the outer periphery, a frame (not shown) installed so that the lower end of the rotating shaft 6 vertically penetrates downwardly down the center of the casing 5, and the rotating shaft 6 It relates to a wind power generator (1) consisting of a generator (not shown) that generates power by the rotational force of h).

It is a feature of the present invention to adjust the opening width of the inlet opening 2 formed in front of the casing 5 in accordance with the wind speed so that only the rated air flow to rotate the blade 7 to obtain a stable power and damage the generator Inlet opening and closing device 13 for preventing the wind, and when the wind is weak so that the wind is concentrated to the outside of the blade (7) is installed.

The inlet opening and closing device 13 is provided with a plurality of dampers (8,8a) are hingedly spaced in the inlet (2), the dampers (8, 8a) is a rear side of the damper plate body 8b formed in a plate shape Hinge portions 9 are provided at upper and lower portions, respectively, and levers 10 and 10a are provided at the rear of the damper plate main body 8b so as to protrude to the rear, respectively.

Each of the levers 10 and 10a adjacent to each other is hingedly connected to each other as a hinge link 12, and one of the dampers 8a and 8a is installed at an outer side of the dampers 8 and 8a. An elastic support 11 is elastically installed between the damper and the outer wall surface of the corresponding casing 5 to elastically support that the outer damper 8a is turned back.

In addition, the dampers (8, 8a) are inclined so as to face the outside of the blade (7), the hinge portion (9) is the upper and lower rear side of the damper plate body (8b) as shown in "A" of FIG. It is possible to install the hinge portion 9 or to penetrate through the hinge portion 9 in the form of a hinge pin in the upper and lower portions of the casing 5 so that the respective dampers 8 and 8a can pivot in a hinged manner.

Although the dampers 8 and 8a are not shown in the drawing as another example, the hinge portions 9 are provided at the upper, lower, middle, and middle rear sides of the damper plate body 8b, and are provided at the rear of the damper plate body 8b. In the state in which the levers 10 and 10a are not installed, a hinge part for connecting the hinge link 12 may be formed, and the hinge link 12 may be connected to the hinge part.

The elastic support 11 may be installed in the form of a rod installed on the tip after inserting the compression spring inside the cylindrical tube, or may be installed by selecting any one of the compression spring, torsion spring, shock absorber. .

At this time, the elasticity of the elastic support 11 is to rotate the blade (7) normally so that the wind is enough to not damage the generator connected to the rotating shaft (6) by the overload elastic support (11) is elastically supported. The damper 8a on the outside should be elastic enough to guide the wind blowing into the wind turbine 1 to the inlet 2 without being turned back.

Referring to Figures 2 to 4 the working relationship of the present invention configured as described above is as follows.

First, when wind blows into the wind turbine 1 according to the present invention, the inlet 2 formed in front of the casing 5 by the direction key 4 installed at the rear of the casing 5 faces the wind blowing front. The casing 5 is installed in a state in which a bearing is interposed on the rotating shaft 6 so that the rotation of the casing 5 is supported by the rotating shaft 6 so that the inlet 2 faces the direction in which the wind blows.

In such a situation, the wind is introduced into the inlet 2 as shown in "B" of FIG. 2, and the inlet 2 is provided with several dampers 8 and 8a, respectively. Since the installation angle is installed toward the outer circumferential side of the blade 7, the wind flowing into the inlet 2 is blown outwardly of the blade 7 according to the installed angles of the dampers 8 and 8a. .

The portion where the installation angles of the dampers 8 and 8a are installed to face the outer circumferential side of the blade 7 from above is directed to an outer portion of the direction in which the blade 7 rotates without the wind flowing in the direction of the rotation axis 6. This means that the wind is introduced, it can be displayed in the "C" direction in the case of FIG.

Thus, each damper (8, 8a) is installed to be inclined toward the outer side of the blade (7) so that the wind flowing into the inlet is guided to each damper (8, 8a) side far from the rotary shaft (6) Wind is concentrated in the outward direction of the blade (7).

As the wind hits the outside of the blade (7) far from the rotary shaft (6) as described above, when the wind of the same intensity flows into the inlet, the blade (7) is rotated with greater force, If the strength is weak, there is an effect that it is possible to rotate the blade 7 even faster.

As the blade 7 rotates as described above, the rotational force is to generate electricity from the generator by driving the generator through the rotating shaft 6 as is known.

In this state, when the wind strength becomes stronger, the inlet opening and closing device 13, which is a feature of the present invention, acts to adjust the opening width of the inlet opening 2, in which case a plurality of dampers installed in the inlet opening 2 One of the dampers 8a provided at the outer edge of 8 and 8a strikes the wind, and the damper 8a provided at the edge tries to be folded backward by the strong blowing wind.

At this time, between the rear of the damper (8a) installed on the edge and the outer wall surface of the casing (5) corresponding to the rear of the resilient support (11) for elastically supporting the damper (8a) to be folded back by the wind The damper 8a is supported to be flipped backward by the elasticity of the resilient support 11. When the wind strength is stronger than the resilience of the resilient support 11, the damper 8a at the edge is rearward. Will be flipped.

When the edge dampers 8a are folded back in this way, as shown in FIGS. 2 to 4, the upper and lower rear portions of the dampers 8 a are hingedly installed on the casing 5, and the rear of the dampers 8 a. The lever 10a is installed to protrude rearward, so that the damper 8a rotates in the form of a lever.

When the damper 8a is rotated counterclockwise like "D" as in the imaginary line of FIGS. 2 and 3, the lever 10a installed at the rear of the damper 8a is centered around the hinge 9. And the lever 10a installed at the rear of the damper 8a and another lever 10 installed at the rear of the damper 8 adjacent thereto are connected by the hinge link 12. As the hinge link 12 moves in the "F" direction, the damper 8 rotates in the "G" direction to block the damper 8.

The wind blows into the wind generator (1) from the above, the wind hit the outer damper (8a) and described another way to block the inlet (2) by rotating a plurality of dampers (8), which will be described correctly Each of the dampers (8,8a) is folded in a hinged manner as the wind hits all of the dampers (8,8a), but the outer dampers (8a) rather than a plurality of dampers (8) that function to block the inlet The large damper (8a) does not function as a damper to block the inlet (2), but guides the wind blowing through the wind turbine (1) to the inlet (2) while the intensity of the wind In the strong case, the damper 8a is turned to the rear to close the plurality of dampers 8 installed next to each other. When the wind weakens, each damper 8 and 8a is caused by the elasticity of the elastic support 11. To return to the original position.

As described above, the strength of the wind is strong so that each damper (8,8a) is turned down to narrow the opening width of the inlet, thereby reducing the amount of wind flowing into the inlet of the casing (5) blade 7 ) Is not rotated at a higher speed than necessary, only the rated air flow rotates the blade (7) to obtain a stable power supply and to prevent damage to the generator.

When the strength of the wind is weaker than that of the elastic support 11, the damper 8a is returned to its original position by the elasticity of the elastic support 11. Is connected to the outer damper 8a and the hinge link 12 so that the outer damper 8a opens again in the same way as to return to the original position, thereby expanding the opening width of the inlet.

1 is a perspective view showing a conventional wind power generator.

2 is a plan view showing an installation state of the present invention.

Figure 3 is an enlarged partial excerpt of the main portion of the present invention.

4 is a perspective view showing the main part of the present invention;

Description of the Related Art

1: wind power generator 2: inlet 3: exhaust

4 direction key 5 casing 6 rotation axis

7: Blade 8: Damper 9: Hinge

10 lever 12 elastic support 12 hinge link

13: inlet opening and closing device

Claims (2)

A plurality of blades radially installed on the outer periphery of the casing (5) provided with the inlet (2), the exhaust port (3) and the direction key (4), and the rotating shaft (6) installed vertically inside the casing (5) 7), a wind turbine (1) comprising a frame installed so that the lower end of the rotating shaft (6) vertically penetrating downward into the center of the casing (5), and a generator for generating power by the rotating force of the rotating shaft (6). To The inlet (2) is provided with a plurality of dampers (8, 8a) hingedly spaced apart at the rear, the lever (10, 10a) protruding rearward, each of the lever (10, 10a) is a hinge link (12) is hingedly connected, and between the damper (8a) and the casing (5) that is installed on the outside of the dampers (8,8a), the outer damper (8a) is resilient to the outside to be attenuated Inlet opening and closing device of the wind power generator, characterized in that the resilient support 11 is installed elastically. 2. The inlet opening and closing device of a wind turbine according to claim 1, wherein each damper (8,8a) is inclined to face the outer circumference of the blade (7).

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