KR20220023870A - Horizontal-vertical combined use for wind power generator - Google Patents

Abstract

The present invention relates to a combined horizontal and vertical wind power generator, which can be used in either a horizontal or vertical type depending on generator purposes by simply arranging the rotary shaft of the generator in a horizontal or vertical direction. To this end, the combined horizontal and vertical wind power generator comprises: a plurality of blades; a power transmission unit including a rotary gear which is installed on the first rotary shaft for the blades to rotate the blades while rotating together with the first rotary shaft, a power transmission gear which is disposed on one side of the first rotary shaft and meshed with the rotary gear and transmits power to the rotary gear by rotating with a central shaft perpendicular to the first rotary shaft, and a manual rotating body connected to an end of the central shaft and for applying a rotational force to the central shaft by being rotated by external power; a blade position changing unit provided on the first rotary shaft to arrange the blades in the horizontal direction through a bevel gear; and a body disposed below the power transmission unit, and having a weight by water injected thereinto to support the blades.

Description

Horizontal and vertical wind generators {HORIZONTAL-VERTICAL COMBINED USE FOR WIND POWER GENERATOR}

The present invention relates to a combined horizontal and vertical wind turbine.

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.

The wind power generator for such wind power generation is divided into a vertical axis wind power generator and a horizontal axis wind power generator according to the direction of the axis of rotation. there is

However, in recent years, the demand for a vertical axis wind turbine as well as a horizontal axis wind turbine according to the installation location or size of the wind turbine generator is increasing.

In the conventional wind power generator, it is difficult to interchangeably use the horizontal axis wind power generator and the vertical axis wind power generator because the process of changing the design of the horizontal axis wind power generator into the vertical axis wind generator is difficult and expensive.

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. 10-1503358 (Title of the invention: horizontal wind power generator, announcement on March 18, 2015)

The present invention was devised in view of the above points, and it provides a combined horizontal and vertical wind power generator that can be used in both horizontal and vertical types according to the purpose of the generator by conveniently arranging the rotation shaft of the generator in the horizontal or vertical direction. There is a purpose.

According to a preferred embodiment for achieving the above object of the present invention, the combined horizontal and vertical wind power generator according to the present invention includes a plurality of blades, installed on the first rotational shaft of the blade, and rotating together with the first rotational shaft. A rotary gear for rotating the blades, a power transmission gear disposed on one side of the first rotary shaft and meshed with the rotary gear, and transmitting power to the rotary gear by rotating with a central axis perpendicular to the first rotary shaft And, a power transmission unit including a passive 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 wings are disposed in the horizontal direction through the bevel gear at the upper part of the first rotation shaft It may include a body having a weight by injecting water therein so as to be disposed under the wing position conversion unit, and the power transmission unit to support the wing.

A bearing may be provided at a lower end of the first rotation shaft, and a planetary gear may be installed under the bearing.

The wing position converting unit may further include an installation frame configured to be rotatably fixed while supporting the wing disposed in a horizontal direction.

The installation frame may be installed to be attached to or detached from the power transmission unit.

The wing position converting unit may further include a second rotation shaft connected to the bevel gear to rotate together with the wing.

The installation frame may be provided with bearings at the front and rear, respectively, to guide the rotation of the second rotating shaft.

A connecting shaft is assembled to an upper end of the first rotating shaft, and the bevel gear is connected to an upper end of the connecting shaft to transmit the rotational force of the first rotating shaft to the bevel gear through the connecting shaft.

According to the combined horizontal and vertical wind power generator according to the present invention, a horizontal generator is formed by connecting a blade to a horizontally arranged rotational shaft, or a vertical generator is formed by connecting a blade to a vertically arranged rotational shaft to form a generator installation condition or The rotating shaft can be conveniently arranged horizontally or vertically to suit the application.

In addition, since the wind power generator can be conveniently installed indoors or outdoors regardless of the installation location of the generator, the wind generator can be constructed more economically.

In addition, by easily rotating the blades of the wind power generator with a small force when initially driven, the rotation efficiency of the blades can be improved, thereby increasing the power generation efficiency of the wind generator.

1 is a view showing a combined horizontal and vertical wind power generator according to an embodiment of the present invention.
2 is a view showing a vertical wind power generator according to an embodiment of the present invention.
3 is a view showing the arrangement of the blades of the horizontal and vertical combined wind power generator according to an embodiment of the present invention.

Hereinafter, an embodiment of a combined horizontal and vertical 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 combined horizontal and vertical wind power generator according to an embodiment of the present invention.

Referring to FIG. 1 , the combined horizontal and vertical wind power generator 1 according to the present invention includes a blade 10 , a power transmission unit 20 , a blade position converting unit 30 , and a body 40 , and the Electricity may be generated by rotating the blade 10 with the power transmission unit 20 , and the blade 10 may be disposed in a horizontal or vertical direction through the blade position converting unit 30 .

When the blades 10 of the horizontal and vertical combined wind power generator 1 are horizontally disposed and used as the horizontal wind power generator 1, the blades 10 are placed outside in a state in which the wind power generator 1 is installed indoors. It can be built to be placed.

In this embodiment, a plurality of blades 10 of the wind power generator 1 may be installed on the upper portion of the main body 40 so as to generate electricity through rotation in contact with the wind.

In addition, the power transmission unit 20 is installed on the first rotation shaft 21 of the blade 10 and rotates together with the first rotation shaft 21 to rotate the blade 10, the rotation gear 22, the It is disposed on one side of the first rotational shaft 21 and is meshed with the rotational gear 22 , and rotates with the central shaft 23 that is perpendicular to the first rotational shaft 21 to provide power to the rotational gear 22 . It may include a power transmission gear 24 for transmitting the power transmission gear 24, and a manual rotation body 25 connected to the end of the central shaft 23 and applied to the rotational force on the central shaft 23 by being rotated by external power.

A bearing 26 may be provided at a lower end of the first rotating shaft 21 , and a planetary gear 27 may be installed at a lower portion of the bearing 26 . Through the bearing 26 and the planetary gear 27, the rotation of the first rotating shaft 21 can be made more smoothly, and electricity can be effectively generated through this.

In addition, the wing position converting unit 30 horizontally disposes the wing 10 through the bevel gear 31 at the upper portion of the first rotational shaft 21 , and in the upper portion of the power transmission unit 20 . The wings 10 may be horizontally disposed on the first rotational shaft 21 .

In addition, the main body 40 of the wind power generator 1 is disposed under the power transmission unit 20 and water is injected therein to support the wing 10 to have a weight, and the main body 40 may be configured as a water tank, and may give weight to the body 40 by filling the water tank with water.

In this embodiment, the blade position converting unit 30 of the wind power generator 1 includes an installation frame 32 that is rotatably fixed while supporting the blade 10 disposed in the horizontal direction, and the installation frame ( 32 ) may be installed to be attached to or detached from the power transmission unit 20 .

The installation frame 32 is for fixing the wings 10 installed in the horizontal direction, and may be installed or removed from the upper portion of the power transmission unit 20 as needed.

In addition, the wing position converting unit 30 is connected to the bevel gear 31 and includes a second rotation shaft 33 rotating together with the wing 10 , and the installation frame 32 has a front and a rear bearing, respectively. A 34 may be provided to guide the rotation of the second rotation shaft 33 .

That is, by installing the second rotation shaft 33 through the bevel gear 31 on the upper end of the first rotation shaft 21, the rotational force of the first rotation shaft 21 is transmitted to the second rotation shaft 33, and the second rotation shaft 33 is 2 The blades 10 installed in the horizontal direction may be rotated through the rotation of the rotation shaft 33 .

A connecting shaft 35 is assembled to the upper end of the first rotating shaft 21 , and a bevel gear 31 is connected to the upper end of the connecting shaft 35 to transmit the rotational force of the first rotating shaft 21 to the connecting shaft 35 . ) can be transmitted to the bevel gear 31 as a medium.

Therefore, the blades 10 can be horizontally disposed through the blade position converting unit 30 of the wind power generator 1, and the blades 10 of the wind turbine 1 installed indoors are taken out to the outside. Electricity can be generated through the rotational force of (10). The wing 10 may be disposed outside the window.

2 is a view showing a vertical wind power generator according to an embodiment of the present invention.

Referring to FIG. 2 , the wind power generator 1 is a vertical wind power generator 1 in which blades 10 are arranged in a vertical direction, and the blade 10 can generate electricity through rotation in contact with the wind. A plurality may be installed on the upper portion of the main body 40 so as to

In addition, the power transmission unit 20 is installed on the first rotation shaft 21 of the blade 10 and rotates together with the first rotation shaft 21 to rotate the blade 10, the rotation gear 22, the It is disposed on one side of the first rotary shaft 21 and is meshed with the rotary gear 22 , and rotates with the central shaft 23 that is perpendicular to the first rotary shaft 21 to power the rotary gear 22 . It may include a power transmission gear 24 for transmitting the power transmission gear 24, and a manual rotation body 25 connected to the end of the central shaft 23 and applied to the rotational force on the central shaft 23 by being rotated by external power.

In addition, the main body 40 of the wind power generator 1 is disposed under the power transmission unit 20 and water is injected therein to support the wing 10 to have a weight, and the main body 40 may be configured as a water tank, and may give weight to the body 40 by filling the water tank with water.

That is, the wind power generator 1 can induce the rotation of the blade 10 more effectively, and facilitate the movement of the main body 40 so that the construction of the wind power generator 10 can be performed more effectively.

3 is a view showing the arrangement of the blades of the horizontal and vertical combined wind power generator according to an embodiment of the present invention.

Referring to FIG. 3 , the wind power generator 1 forms a vertical wind power generator 1 when the blades 10 are directly connected to the upper end of the first rotation shaft 21 in the vertical direction, and the first rotation shaft (21) If the blade position conversion unit 30 is installed on the upper part, the horizontal wind power generator 1 can be formed.

That is, the connecting shaft 35 is installed on the first rotating shaft 21 in a vertical direction, and the second rotating shaft 33 on which the connecting shaft 35 and the wing 10 are installed is a bevel gear 31 . When connected through, the rotational force of the first rotational shaft 21 may be transmitted to the second rotational shaft 33 to rotate the wing 10 .

Conversely, when the rotational force of the blade 10 is transmitted to the first rotational shaft 21 through the second rotational shaft 33 and the bevel gear 31, the power generation motor 50 through the rotation of the first rotational shaft 21 can be operated to generate electricity.

Therefore, by connecting the blade 10 to the second rotation shaft 33 that is horizontally arranged through the horizontal and vertical combined wind generator 1, a horizontal generator is formed or a blade ( 10) is connected to form a vertical generator so that the rotating shaft can be conveniently arranged in the horizontal or vertical direction to suit the installation conditions and use of the generator.

In addition, since the wind power generator 1 can be conveniently installed indoors or outdoors regardless of the installation location of the wind power generator 1, the wind power generator 1 can be constructed more economically.

In addition, by easily rotating the blade 10 of the wind power generator 1 with a small force when initially driving, the rotation efficiency of the blade 10 can be improved, thereby increasing the power generation efficiency of the wind power generator 1 .

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: wind generator 10: wing
20: power transmission unit 21: first rotating shaft
22: rotation gear 23: central shaft
24: power transmission gear 25: manual rotation body
26: bearing 27: planetary gear
30: wing position conversion unit 31: bevel gear
32: installation frame 33: second rotation shaft
34: bearing 35: connecting shaft
40: body 50: power generation motor

Claims (7)

a plurality of wings;
A rotary gear installed on the first rotary shaft of the blade to rotate the blade while rotating with the first rotary shaft, is disposed on one side of the first rotary shaft and meshed with the rotary gear at the same time, and is perpendicular to the first rotary shaft A power transmission unit including a power transmission gear for transmitting power to the rotary gear by rotating together with a central shaft constituting ;
a wing position conversion unit for arranging the wing in a horizontal direction through a bevel gear at an upper portion of the first rotational shaft; and
A combined horizontal and vertical wind power generator comprising a; it is disposed under the power transmission unit and has a body in which water is injected to support the blades and has a weight. The method of claim 1,
A bearing is provided at a lower end of the first rotating shaft, and a planetary gear is installed at a lower portion of the bearing. The method of claim 1,
The wing position conversion unit horizontally and vertically combined wind power generator further comprising an installation frame for rotatably fixing the wing while supporting the wing disposed in the horizontal direction. 4. The method of claim 3,
The installation frame is a combined horizontal and vertical wind generator, characterized in that it is installed to be attached to or detached from the power transmission unit. 4. The method of claim 3,
The blade position conversion unit is connected to the bevel gear, the horizontal and vertical combined wind power generator further comprising a second rotation shaft rotating together with the blade. 6. The method of claim 5,
The installation frame is provided with bearings at the front and rear, respectively, to guide the rotation of the second rotary shaft. The method of claim 1,
The first rotating shaft has a connecting shaft assembled to an upper end, and the bevel gear is connected to an upper end of the connecting shaft, so that the rotational force of the first rotating shaft is transmitted to the bevel gear through the connecting shaft. Horizontal and vertical combined use wind generator.

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