KR200412890Y1 - Rudder structure of wind power generator - Google Patents

Abstract

The present invention relates to the structure of the direction key of the wind turbine, the purpose of which is to prevent the breakage of the vertical axis caused by strong winds and to trace the wind smoothly to form a streamlined direction key integrally to the maintenance part of the fuselage. To provide a direction key structure of the wind power generator. It is vertically installed at a constant height of the tower 10, the tower 10 is installed rotatably, the streamlined body 20 formed with a direction key 21 on the outer surface to match the direction of the wind, and A horizontal axis 30 rotatably installed on the body 20, the rear end of which protrudes to the outside of the rear of the body 20, and the front end of which is located inside the body 20, wherein the first bevel gear 31 is formed; Located on the rear side of the body 20, the blade 40 for rotating the horizontal shaft 30, the generator 50 is provided inside the tower 10, and the rotational force of the horizontal shaft 30 to the generator ( One end is formed with a second bevel gear 61 engaged with the first bevel gear 31 so as to be transmitted to the first bevel gear, and the other end is a vertical shaft coupled with the rotor shaft 51 of the generator 50. In the wind turbine including a 60, the body 20 is coupled to the outside of the vertical axis (60) The repair part of the streamlined lower direction key (21a) is formed integrally.

Wind Power, Generator, Blade, Horizontal Axis, Vertical Axis, Direction Key

Description

Rudder structure of wind power generator

1 is a cross-sectional view showing a conventional wind generator.

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

Figure 3 is a front view showing a wind generator according to the present invention.

4 is a cross-sectional view taken along the line B-B in FIG.

5 is a cross-sectional view taken along the line C-C in FIG.

<Description of Signs of Major Parts of Drawings>

10: Tower 20: Fuselage

21: arrow key 21a: lower arrow key

21b: upper direction key 30: horizontal axis

31: first bevel gear 32: gearbox

40: blade 50: generator

51: rotor axis 60: vertical axis

61: second bevel gear

The present invention relates to a structure of the direction key of the wind power generator, and more specifically, to prevent damage to the vertical axis due to strong winds, and to wind the wind smoothly to form a streamlined direction key integrally to the maintenance part of the fuselage It relates to the structure of the direction key of the generator.

In general, the wind turbine system converts the rotational energy of the blades rotated by the wind into electrical energy to supply electricity to each user. The propeller-type horizontal axis wind turbine system and the vertical axis such as the gyro mill type and Darius type according to the direction of the axis It is divided into a wind turbine system or a vertical-horizontal integrated wind turbine system. The installation cost and installation area are very economical compared to nuclear power, hydropower and thermal power, and do not cause environmental pollution.

As a conventional example of the example of the wind turbine system, it can be found in the "Single rotor type horizontal-vertical integrated wind generator system" of the patent application 2004-0013882 filed by the applicant.

1 and 2 are cross-sectional views showing a conventional wind power generator.

As shown in the figure, the wind generator is vertically installed at a predetermined height and a streamlined body in which the tower 10 is rotatably installed on the top of the tower 10 and the direction keys 2a are formed on the outer surface so as to match the direction of the wind. (2) and a horizontal axis rotatably installed on the body 2, the rear end of which protrudes to the outside of the rear of the body 2, and the front end of which is located inside the body 2, where the first bevel gear 3a is formed. (3), a blade (4) located on the rear side of the body (2), rotating the horizontal shaft (3), a generator (5) installed inside the tower (1), and the horizontal shaft (3). The second bevel gear (6a) is engaged with the first bevel gear (3a) is coupled to one end portion so as to transmit the rotational force of the generator (5), the other end is a rotor shaft of the generator (5) It includes a vertical axis 6 coupled with 5a).

Further, three direction keys 2a are radially formed on the outer surface of the body 2, and are formed in the rear side direction of the body 2.

Conventional wind generators configured as described above by the yaw operation to automatically match the wind direction by the direction key (2a) and the blade (4) provided on the rear side with respect to the center of rotation of the body (2) The blade 4 rotates by the blowing wind, and when the blade 4 rotates, the horizontal shaft 3 rotates together, and the rotational force of the horizontal shaft 3 causes the gearbox 8 to rotate. Through the generator 5 is increased to facilitate the power production.

In addition, the increased rotational force is transmitted to the second bevel gear 6a through the first bevel gear 3a, and the rotational force transmitted to the second bevel gear 6a rotates the vertical shaft 6 to generate the generator 5. The rotor shaft (5a) of the rotation is rotated, and when the rotor shaft (5a) is rotated in the generator 5 as the rotor (not shown) is rotated at high speed to produce power.

The electric power produced by the generator 5 is transmitted to the ground power line or power storage device through the electric wire (7).

However, the conventional wind generator has a problem that the vertical axis 6 is damaged by the strong wind.

That is, in order to prevent damage to the vertical axis 6 due to strong winds, the diameter of the vertical axis 6 or the boss part 6b should be enlarged, and if this is done, there is a problem in that the tracking of the wind is not easily performed.

The present invention has been made to solve such a conventional problem, and its purpose is to prevent the damage of the vertical axis due to strong winds, as well as to form a streamlined direction key integrally to the maintenance part of the fuselage to facilitate the tracking of the wind. The present invention provides a direction key structure of a wind power generator.

The present invention for achieving the above object is a tower installed vertically at a constant height, and installed rotatably on the top of the tower, a streamlined body formed with a direction key on the outer surface to match the direction of the wind, rotatable to the body It is horizontally installed so that the rear end protrudes to the outside of the rear of the fuselage and the front end is located inside the fuselage and the first bevel gear is formed, the rear side of the fuselage, a blade for rotating the horizontal axis, and inside the tower A generator is installed, and a second bevel gear is coupled to the first bevel gear in engagement with the first bevel gear so as to transmit the rotational force of the horizontal axis to the generator, the other end includes a vertical shaft coupled to the rotor shaft of the generator In the wind-tracking rear single-rotor wind turbine, the direction key is located at the lower end of the fuselage And, to the complement of the body coupled to an outside of the vertical portion of the lower direction key it is streamlined integrally formed.

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

3 is a front view showing a wind generator according to the present invention, Figure 4 is a cross-sectional view taken along the line B-B of Figure 3, Figure 4 is a cross-sectional view taken along the line C-C of FIG.

As shown, the wind turbine of the present invention is vertically installed at a constant height of the tower 10 and the top of the tower 10 is rotatably installed, the direction key 21 is formed on the outer surface to match the direction of the wind The streamlined body 20 and the horizontal body is rotatably installed in the body 20, the rear end protrudes to the outside of the rear end of the body 20, the front end is located inside the body 20, the first bevel gear 31 is A horizontal shaft 30 formed on the rear side of the body 20, a blade 40 for rotating the horizontal shaft 30, a generator 50 installed inside the tower 10, and the horizontal shaft A second bevel gear 61 is formed at one end to be engaged with the first bevel gear 31 so as to transmit the rotational force of the generator 30 to the generator 50, and the other end of the rotor of the generator 50. It comprises a vertical axis 60 coupled with the axis 51.

In addition, the maintenance part of the body 20 coupled to the outside of the vertical shaft 60 to form a streamlined lower direction key 21a integrally to prevent the vertical shaft 60 from being damaged by strong wind.

In addition, an upper direction key 21b having a wider lateral area than the lower direction key 21a is formed on the upper side of the fuselage 20 so that the tracking of the wind can be made easier.

In addition, it is preferable that the inside of the body 20 is made to have a hollow shape for weight reduction, and the first and second bevel gears formed at the ends of the horizontal axis 30 and the vertical axis 60 in the interior of the body 20. (31) (61) is in the engaged state.

The first and second bevel gears 31 and 61 preferably use spiral bevel gears to reduce noise and the like.

In addition, the gearbox 32 for increasing the rotational force of the horizontal shaft 30 rotated by the blade 40 is installed on the horizontal shaft 30, the rotational force is increased in the gearbox 32 generator 50 To the side.

The gear box 32 is provided with a plurality of gears, such as planetary gears and ring gears (not shown) for increasing the rotational force, and since it is a well known technology, a detailed description thereof will be omitted here.

In addition, the variable means 70 is installed between the horizontal axis 30 and the blade 40 to be variable in the front and rear directions according to the wind pressure, the variable means 70 is a technique already disclosed in the prior art here Detailed description will be omitted.

On the other hand, reference numeral 71 denotes a wire for transmitting electricity stored in the generator to the power transmission line or power storage device.

Referring to the operation according to the present invention in detail as follows.

Wind generator according to the present invention by the yaw operation to automatically match the wind direction by the direction key 21 and the blade 40 provided on the rear side with respect to the center of rotation of the body 20, the wind blowing at the same time The blade 40 is rotated by.

At this time, the direction key 21 is moved by the upper and lower direction keys (21a, 21b) formed in the upper and lower ends of the body 20 in accordance with the direction of the wind and is provided with the wind in a stable state.

This helps the body 20 to smoothly rotate along the wind while maintaining the balance between the two direction keys 21 arranged up and down, and at the same time, the vertical direction keys (up and down) The ability of 21a) and 21b to track the wind direction along the wind is improved to facilitate the tracking of the wind.

In addition, the lower direction key 21a is installed in a streamlined shape on the outside of the vertical shaft 60 supporting the body 20 to prevent the vertical shaft 60 from being damaged by strong winds.

In addition, when the blade 40 rotates, the horizontal shaft 30 is rotated together, wherein the rotational force of the horizontal shaft 30 is increased to facilitate the power production in the generator 50 through the gear box 32 do.

In addition, the increased rotational force is transmitted to the second bevel gear 61 through the first bevel gear 31, and the rotational force transmitted to the second bevel gear 61 rotates the vertical shaft 60 to generate the generator 50. The rotor shaft 51 is rotated, and when the rotor shaft 51 is rotated, power is produced in the generator 50 as the rotor (not shown) rotates at a high speed.

The electric power produced by the generator 50 is transmitted to the ground power transmission line or power storage device (not shown) through the electric wire 71.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, it will be understood that various modifications and other embodiments are possible to those skilled in the art.

The direction key structure of the wind power generator according to the present invention as described in detail above is to form a streamlined direction key integrally to the maintenance part of the fuselage coupled to the outside of the vertical axis, to prevent damage to the vertical axis due to strong winds and to track the wind. It can also be made smoothly.

Claims (1)

A streamlined body 20 having a tower 10 vertically installed at a predetermined height, rotatably installed at an upper end of the tower 10, and having a direction key 21 formed on an outer surface so as to coincide with a wind direction, and the body. A horizontal axis 30 rotatably installed on the horizontal axis 30, the rear end of which protrudes to the outside of the rear end of the body 20, and the front end of which is located inside the body 20, wherein the first bevel gear 31 is formed; Located on the rear side of the 20, the blade 40 for rotating the horizontal shaft 30, the generator 50 installed in the interior of the tower 10, and the rotational force of the horizontal shaft 30 to the generator 50 One end portion is formed with a second bevel gear 61 is engaged with the first bevel gear 31 so as to be transmitted to the other end, and the other end is a vertical shaft 60 coupled with the rotor shaft 51 of the generator 50. In the wind turbine comprising: The maintenance part of the body 20 coupled to the outside of the vertical shaft 60, the direction key structure of the wind turbine, characterized in that the streamlined lower direction key (21a) is formed integrally.

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