KR20210149276A - Apparatus for wind generator - Google Patents

Abstract

The present invention relates to a power transmission apparatus for a wind power generator, which is able to easily rotate a blade of the wind power generator with little force when initially driving the blade of the wind power generator, enhance rotation efficiency of the blade, manually or automatically transmit power to the blade, and increase power generation efficiency of the wind power generator. To this end, the power transmission apparatus for the wind power generator comprises: a rotary gear installed on a rotary shaft of the blade, and rotating along with the rotary shaft, and rotating the blade; a power transmission gear placed on one side of the rotary shaft, and simultaneously engaged with the rotary gear, and rotating by the rotation of a central shaft, which is vertical to the rotary shaft, and transmitting power to the rotary gear; and a rotor connected to an end unit of the central shaft, and rotated by an external power, and applying rotation force to the central shaft.

Description

Power transmission device for wind power generator {APPARATUS FOR WIND GENERATOR}

The present invention relates to a power transmission device for a wind power generator.

In general, wind power generation refers to a power generation method in which wind energy is converted into mechanical energy (rotational force) through a rotating shaft using a windmill, and this mechanical energy is converted into electrical energy by driving a generator to obtain power. Among the new and renewable energy sources developed so far, it is not only the most economical, but also has the advantage of being able to generate electricity using wind, which is an indefinite, cost-free, clean energy source. Investments are being made.

In particular, wind power generation is cost-effective, such as improving the price competitiveness of electricity production cost and minimizing the area required for power generation system installation, as well as social and environmental aspects such as an alternative energy source for fossil energy depletion and global environmental protection such as prevention of global warming. Because of the economic advantages of supply stability and reduced dependence on energy imports, the government is actively supporting the spread of wind power generation.

However, compared to thermal power generation or other power generation, wind power generation has a low capacity factor (a value obtained by dividing an actual operation rate by a theoretical maximum value), so there is a problem in effectiveness.

Therefore, in the prior art, in order to increase the efficiency of the wind power generator, a device for effectively using the wind power is being developed. In addition, a power transmission device for effectively rotating the blades of the wind power generator even with a small power or wind is being developed. There is a problem that the efficiency is not high.

In addition, since most of the electric power such as a motor is used to transmit power to initially rotate the blades of the wind power generator, energy efficiency is low, and the configuration of the power transmission device used in the wind power generator is complicated and requires excessive manufacturing cost. there is a problem to be

Republic of Korea Patent Publication No. 10-1527967 (Title of the invention: high-efficiency vertical wind power generator, published on September 24, 2014) Republic of Korea Patent Publication No. 10-1626715 (Title of the invention: vertical wind power generator, 2016. 06. 01. Announcement)

The present invention was devised in view of the above points, and by easily rotating the blades of the wind power generator with a small force during initial driving, the rotational efficiency of the blades is improved, and power is transmitted to the blades manually or automatically. An object of the present invention is to provide a power transmission device for a wind power generator capable of increasing power generation efficiency.

According to a preferred embodiment for achieving the above object of the present invention, the power transmission device for a wind power generator according to the present invention is a rotary gear installed on the rotary shaft of the blade so that the blade is rotated while rotating together with the rotary shaft, the A power transmission gear that is disposed on one side of the rotational shaft and meshed with the rotational gear and transmits power to the rotational gear by rotating with a central axis perpendicular to the rotational shaft, and is connected to the end of the central shaft to use external power It may include a rotating body for applying a rotational force to the central axis by being rotated.

It may further include a clutch bearing installed inside the rotation gear to cut off the transmission of the rotational force of the blades to the power transmission gear as necessary.

A plurality of shaft bearings may be installed outside the central shaft to increase the rotational force of the central shaft by the rotating body.

One end of the belt may be fixed between the rotating body and the central shaft, and the central shaft may be rotated through movement of the belt.

A rotating power means is connected to the other end of the belt so that the central axis can be rotated through the rotation of the rotary power means.

According to the power transmission device for a wind power generator according to the present invention, by easily rotating the blades of the wind turbine with a small force during initial driving, the rotational efficiency of the blades can be improved, thereby increasing the power generation efficiency of the wind turbine.

In addition, by rotating the blades of the wind power generator manually or automatically, and rotating the handle of the power transmission device connected to the blades using a belt, power transmission for rotation of the blades can be more effectively performed.

1 is a view showing a power transmission device for a wind power generator according to an embodiment of the present invention.
2 is an enlarged view showing a power transmission device for a wind power generator according to an embodiment of the present invention.
3 is a view showing a state in which the rotary power device is connected to the belt of the power transmission device according to an embodiment of the present invention.

Hereinafter, an embodiment of a power transmission device for a wind power generator according to the present invention will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of known functions or configurations may be omitted in order to clarify the gist of the present invention.

1 is a view showing a power transmission device for a wind power generator according to an embodiment of the present invention. 2 is an enlarged view showing a power transmission device for a wind power generator according to an embodiment of the present invention.

1 and 2, the power transmission device 1 for a wind power generator according to the present invention includes a rotation gear 10, a power transmission gear 20, and a rotation body 30, and the rotation body ( 30) by rotating the blades 110 of the wind power generator 100 can generate electricity.

In this embodiment, the rotation gear 10 of the power transmission device 1 for the wind power generator is installed on the rotation shaft 120 of the blade 110 and the blade 110 rotates together with the rotation shaft 120 . By making it rotate, the wind power generator 100 can be operated while the blade 110 is rotated through the rotation of the rotary gear 10 .

In addition, the power transmission gear 20 is disposed on one side of the rotation shaft 120 and meshed with the rotation gear 10 at the same time, and rotates together with a central shaft 21 that is perpendicular to the rotation shaft 120 to rotate the rotation shaft 120 . By transmitting power to the gear 10 , when the power transmission gear 20 rotates to rotate the blade 110 , the rotation gear 10 meshed therewith rotates to rotate the rotation shaft 120 and the blade (110) is a structure that rotates together.

The rotating body 30 is connected to the end of the central shaft 21 and rotated by external power to apply a rotational force to the central shaft 21 , and the rotating body 30 may be configured as a handle. The blade 110 may be rotated by manually or automatically rotating the handle.

That is, the power transmission device 1 rotates the blades 110 of the wind power generator 100 , and when the rotating body 30 is rotated using external power, the center connected to the rotating body 30 . The shaft 21 rotates while rotating the power transmission gear 20 at the end, and as the rotation gear 10 meshed with the power transmission gear 20 rotates, the rotation shaft 120 constituting the wind power generator 100 rotates. And the wing 110 may rotate.

The power transmission gear 20 and the rotation gear 10 form a bevel gear to transmit external power in a vertical direction.

In addition, it may include a clutch bearing 11 installed inside the rotary gear 10 to cut off the transmission of the rotational force of the blade 110 to the power transmission gear 20 as necessary. The clutch bearing 11 may prevent the rotational force from being transmitted to the power transmission gear 20 even when the wing 110 rotates by separating the rotation gear 10 and the power transmission gear 20 from each other.

Accordingly, when the blades 110 of the wind power generator 100 are normally rotated, the rotational force of the blades 110 is transmitted only to the rotation shaft 120 to produce electricity. A power generation motor 130 is installed at the lower end of the rotary shaft 120 so that the power generation motor 130 can generate electricity using the rotational force of the rotary shaft 120 . Separate bearings 120a and 120b are respectively installed on the upper and lower portions of the rotary shaft 120 so that the rotational force of the rotary shaft 120 can be transmitted to the power generation motor 130 without loss.

In addition, a plurality of shaft bearings 21a and 21b are installed outside the central shaft 21 to increase the rotational force of the central shaft 21 by the rotating body 30 . Since the rotary shaft 120 can easily rotate through the shaft bearings 21a and 21b, even when a small force is applied to the rotating body 30, the power can be effectively transmitted.

In this embodiment, in the power transmission device 1, one end of the belt 40 is fixed between the rotating body 30 and the central shaft 21 and the central shaft 21 through the movement of the belt 40 ) can be rotated, and electricity can be generated by manually or automatically moving the belt 40 to rotate the wing 110 .

3 is a view showing a state in which the rotary power device is connected to the belt of the power transmission device according to an embodiment of the present invention.

Referring to FIG. 3 , in the power transmission device 1 , a rotary power means 50 is connected to the other end of the belt 40 , and the central shaft 21 rotates through the rotation of the rotary power means 50 . can be An exercise bicycle or a treadmill may be used as the rotational power means 50 , and the central shaft 21 may be rotated by rotating the belt 40 through the rotation of the rotational power means 50 . have.

That is, by connecting the rotational power means 50 to the power transmission device 1 via the belt 40 , the rotational force of the rotational power means 50 is transmitted to the central shaft 21 through the belt 40 and , it is possible to rotate the blade 110 of the wind power generator 100 by rotating the rotation shaft 120 through the power transmission gear 20 and the rotation gear 10 with the rotation of the central shaft 21 .

Therefore, by easily rotating the blade 110 of the wind power generator 100 through the power transmission device 1 with a small force when initially driving, the rotation efficiency of the blade 110 is improved, thereby increasing the power generation efficiency of the wind power generator 100 can elevate

In addition, by manually or automatically rotating the blade 110 of the wind power generator 100, and rotating the handle of the power transmission device 1 connected to the blade 110 using the belt 40, the blade 110 Power transmission for rotation can be performed more effectively.

In the foregoing, the present invention has been shown and described in connection with preferred embodiments for illustrating the principles of the present invention, but the present invention is not limited to the construction and operation as shown and described as such. Rather, it will be apparent to those skilled in the art that many changes and modifications can be made to the present invention without departing from the spirit and scope of the appended claims.

1: power train 10: rotation gear
11: clutch bearing 20: power transmission gear
21: central shaft 21a, 21b: shaft bearing
30: rotating body 40: belt
50: rotational power means 100: wind power generator
110: wing 120: axis of rotation
120a, 120b: bearing 130: power generation motor

Claims (5)

a rotation gear installed on the rotation shaft of the blade to rotate the blade while rotating together with the rotation shaft;
a power transmission gear disposed on one side of the rotation shaft and meshed with the rotation gear, and transmitting power to the rotation gear by rotating with a central axis perpendicular to the rotation shaft; and
A power transmission device for a wind power generator comprising a; a rotating body connected to the end of the central shaft and rotating by external power to apply a rotational force to the central shaft. The method of claim 1,
The power transmission device for a wind power generator further comprising a clutch bearing installed inside the rotation gear to cut off the transmission of the rotational force of the blades to the power transmission gear as necessary. The method of claim 1,
A plurality of shaft bearings are installed outside the central shaft to increase the rotational force of the central shaft by the rotating body. The method of claim 1,
One end of the belt is fixed between the rotating body and the central shaft, and the power transmission device for a wind power generator, characterized in that the central shaft is rotated through the movement of the belt. 5. The method of claim 4,
A power transmission device for a wind power generator, characterized in that the rotational power means is connected to the other end of the belt so that the central shaft is rotated through the rotation of the rotary power means.

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