KR20120022226A - Vertical wind power generator - Google Patents

Abstract

PURPOSE: A vertical wind power generator is intended to protect environment through a vertical aerogenerator simply installable without limitation on installation and provide clean energy. CONSTITUTION: A vertical wind power generator comprises a generating housing(100), a shaft housing(200), and a vertical rotor(300). A generator and a power increase unit are formed in the generation housing. The power increase unit is connected to a generator and increase torque. The shaft housing is coupled to the upper part of the generation housing. A rotating shaft supplying torque is installed in the shaft housing which supports the rotation of the rotating shaft. A bearing housing is formed on the vertical rotor to be coupled to the rotating shaft. A rotating blade(320) generating torque by wind pressure is integrally formed on the vertical rotor to supply torque.

Description

Vertical wind power generator

The present invention relates to a vertical wind generator. More specifically, the vertical rotor which can be rotated even by the breeze can be provided with a large rotational force when rotating to improve the efficiency of the generated energy, and also to the vertical wind generator that maximizes the product productivity and power productivity through a simple configuration. will be.

In general, although wind power is mainly introduced in the power generation field, it is an energy source that is also used in fields such as pumping and heat conversion. Such wind power has emerged as an urgent task in which the reduction of greenhouse gases has been on the rise due to the climate change agreement since the 1990s, and wind power generation has become a chance to be used domestically as one of the countermeasures against thermal power or nuclear power generation. It is in a very rapid stage of development.

Wind turbines are commonly referred to as windmills, which are used to generate power using mechanical forces through a rotating shaft. Horizontal axis wind turbines are classified according to the direction in which the rotor's axis of rotation lies. turbines and vertical axis wind turbines, which have a larger and larger blade area than the horizontal axis, which is now the mainstream in the wind turbine market.

Here, the vertical axis wind turbine generators include a vertical axis wind turbine generator that applies a vertical shaft structure to improve the efficiency of the power plant. Vertical wind turbines have Darius Rotor, which uses the lift of the wind, and Savonius Rotor, which uses the drag of the wind. However, Darius has a weak output and does not start up on its own. There is a problem that an auxiliary one-rotation power device is required, and in the case of Savonius type, the drag speed of wind turbines is limited by the rotational speed of the rotating shaft because the rotation speed cannot be higher than the wind speed because it uses the drag of the wind. Mainly used as a motor, there was a problem that the use range is very limited.

In order to solve the above problems, the present invention can be provided with a high torque along with the initial maneuverability through the vertical rotor that can be rotated in the breeze, not only to improve the efficiency of power generation energy, but also the product productivity and power productivity through a simple configuration The purpose is to provide a vertical wind generator that maximizes the.

In addition, an object of the present invention is to provide an environment-friendly energy that can protect the environment through a vertical wind generator that can be easily installed without limitation of installation, and can receive infinite clean energy.

In addition, an object of the present invention is to provide a large rotational force during rotation through a vertical rotor to improve the efficiency of power generation energy.

In order to achieve the above object, the present invention provides a vertical wind generator, comprising: a generator housing having a generator and a power increasing means connected to the generator to increase rotational force therein; A shaft housing coupled to an upper portion of the power generation housing and having a rotating shaft configured to provide rotational force to a power increasing means to support rotation of the rotating shaft; And a bearing accommodating part to be coupled to the rotary shaft, and a rotary blade which is coupled to the rotary shaft to generate a rotational force by wind pressure to provide a rotational force is integrally formed, and an inflow hole through which wind is introduced from the outside is formed along the outer circumferential surface thereof. It provides a vertical wind generator comprising a; vertical rotor.

In addition, in the present invention, the power generation housing may include a housing main body provided with the generator and the power increasing means; A support housing detachably coupled to a lower portion of the housing body to support a vertical wind generator; And an upper cover detachably coupled to an upper portion of the housing body to which the shaft housing is coupled.

In addition, in the present invention, the shaft housing provides a bearing for supporting the rotation of the rotary shaft, and a vertical wind generator, characterized in that the bearing mounting member is provided on the inner peripheral surface so that the bearing is fixed.

In addition, in the present invention, both ends of the inlet hole of the vertical rotor and the end of the rotary blade is integrally connected to each other to provide a vertical power generator characterized in that to maximize the wind pressure.

In addition, in the present invention, the rotating blade is coupled to the rotating shaft to the center coupled to deliver the wind pressure generated during rotation, the primary focusing unit to focus the wind flowing through the inlet hole, and the primary It provides a vertical power generator, characterized in that the secondary focusing portion is formed integrally spaced apart from the focusing body to the inner peripheral surface of the vertical rotor.

In addition, in the present invention, a vertical power generator is provided between the primary focusing portion and the secondary focusing portion of the rotary blade is formed integrally with the contact panel which is directly in contact with the incoming wind.

Further, in the present invention, the primary focusing portion and the secondary focusing portion of the rotating blade is a curved curvature having an arc is formed, the wind is focused to the center side of the curvature, the vertical type, characterized in that to rotate the rotating blade Provide a power generator.

In addition, in the present invention, the rotary blade provides a vertical power generator, characterized in that the arc of the curvature of the secondary focusing portion is larger than the arc of the curvature of the primary focusing in order to increase the wind focusing ratio. do.

In addition, in the present invention, the rotary blade is a vertical type characterized in that the induction panel is further formed to be formed integrally with one end of the inlet hole to be guided to the inlet hole side up to the wind does not flow into the inlet hole Provide a power generator.

In addition, in the present invention, the rotary blades are formed in a total of three inside the vertical rotor to form a radial around the coupling portion, each of the space between the rotary blades and the other rotary blades to form a space It provides a vertical wind generator, characterized in that the rotation through the focused wind through the primary focusing portion and the secondary focusing part even in the weak wind strength.

In addition, in the present invention, the upper side of the vertical rotor provides a vertical wind generator, characterized in that the coupling hole is formed so that the plurality of vertical rotor can be vertically connected to each other.

According to the present invention, it is possible to provide a high torque with the initial maneuvering power through the vertical rotor that can be rotated in the breeze, not only to improve the efficiency of the generated energy, but also to maximize the product productivity and power productivity through a simple configuration It can be effective.

In addition, according to the present invention, it is possible to protect the environment through a vertical wind generator that can be easily installed without limiting the installation, there is an effect that can be provided with environmentally friendly energy that can receive infinite clean energy.

1 is a perspective view showing a vertical wind generator according to a preferred embodiment of the present invention,
Figure 2 is an exploded perspective view showing a vertical wind generator according to a preferred embodiment of the present invention,
3 is a main portion coupling cross-sectional view showing a vertical wind generator according to a preferred embodiment of the present invention,
4 is a view showing a rotating blade of a vertical wind generator according to a preferred embodiment of the present invention,
5 is a graph showing the output of the rotary blade of the vertical wind generator according to a preferred embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used to refer to the same components, even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view showing a vertical wind generator according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view showing a vertical wind generator according to a preferred embodiment of the present invention, Figure 3 according to a preferred embodiment of the present invention 4 is a cross-sectional view illustrating main parts of a vertical wind generator. FIG. 4 is a view illustrating a rotating blade of a vertical wind generator according to a preferred embodiment of the present invention. FIG. 5 is a diagram showing a rotating blade of a vertical wind generator according to a preferred embodiment of the present invention. This graph shows the output of.

As shown, the vertical wind generator of the present invention is a power generation housing 100 having a generator 102 therein, a rotating shaft 230 coupled to the upper portion of the power generation housing 100 to transmit a rotational force to the generator 102 ) Is connected to the shaft housing 200, the upper portion of the rotary shaft 230 is built, and comprises a vertical rotor 300 by the wind.

The power generation housing 100 is fixedly coupled to a lower portion of the housing main body 130 and the housing main body 130 in which the generator 102 connected to the rotating shaft 230 is supported therein, and supports the vertical wind generator on the ground. It is configured to include a support housing 110 and the upper cover 120 is fixed to the upper portion of the housing main body 130 is configured to be installed stably so that the shaft housing 200 is coupled.

The interior of the housing body 130 has a generator 102 for generating electric power by the rotational force transmitted from the rotary shaft 230 connected to the vertical rotor 300, there is built between the end of the rotary shaft 230 and the generator 102 Is configured to be provided with a power increasing means 104 composed of a plurality of gears to increase the rotational force of the rotary shaft 230.

The support housing 110 is detachably coupled to a lower end of the housing body 130 by screws, fixing bolts, etc. so that the vertical rotor 300 can rotate the rotary blade 320 through wind pressure efficiently and stably. It is a component installed on the ground.

The upper cover 120 is detachably coupled to an upper portion of the housing body 130, and a shaft is formed through the center so that the rotation shaft 230 penetrates, and the shaft housing 200 may be stably seated along the inner circumferential surface of the center side. The seating end 122 is formed to protrude so that a plurality of fastening holes 124 may be formed to be spaced apart from the seating end 122 to be detachably fastened to the shaft housing 200.

The shaft housing 200 rotatably supports the rotating shaft 230 connected to the vertical rotor 300, and has a bearing 210 supporting the rotation of the rotating shaft 230 at an inner circumference thereof. Bearing mounting member 220 is provided to support the upper portion and the lower portion of the fixed to the shaft housing 200.

The power generation housing 100 and the shaft housing 200 configured as described above have a structure that can be easily separated and combined with each other, so that each component, that is, the generator 102 embedded in the power generation housing 100, a power increasing means. Not only 104, the rotation shaft 230 and the vertical rotor 300 are easily replaced and maintained.

The vertical rotor 300 has a lower center portion fixedly coupled to the rotation shaft 230, and a bearing accommodation portion 310 is formed in which a bearing 210 for supporting the rotation of the rotation shaft 230 is accommodated. The rotating blade 320 to generate is a component formed integrally.

The vertical rotor 300 has a plurality of wind pressure, that is, the inlet hole 302 through which the wind flows is formed to be spaced apart at regular intervals along the outer circumferential surface of the vertical rotor 300, in the present invention such an inlet hole 302 Form a total of three.

In addition, both ends of the inlet hole 302 is connected to the end of the rotary blade 320 to form a space inside the vertical rotor 300, it is configured to maximize the drag force of the wind pressure.

Rotating blade 320 is coupled to the rotary shaft 230 in the center thereof is coupled to the coupling portion 325 is formed integrally to transmit the rotational force generated while rotating through the wind pressure, the inflow of the wind flowing through the inlet hole 302 The primary focusing portion 322 to which the incoming wind is focused to maximize the intensity, and is formed to be spaced apart from the primary focusing portion 322 to the inner peripheral surface of the body of the vertical rotor 300, the vertical rotor 300 It consists of a secondary focusing portion 324 connected to the body of).

In addition, a contact panel 328 is formed between the primary focusing portion 322 and the secondary focusing portion 324 of the rotary blade 320 to connect the focusing portions and directly contact the incoming wind. The vehicle focusing unit 322, the secondary focusing unit 324, and the contact panel 328 are all integrally connected to each other.

Here, the primary focusing portion 322 and the secondary focusing portion 324 are formed in a shape having a curved curvature having a predetermined arc, so that even if the weak wind flows, it is focused to the center side of the curvature and rotates as much as possible. The blade 320 can be rotated.

In addition, the value of the curvature formed in the secondary focusing portion 324 is greater than the curvature formed in the primary focusing portion 322, thereby reducing the wind generated by the secondary focusing portion 324 than the primary focusing portion 322. By making the focusing ratio larger, the rotation of the rotating blade 320 may be made easier.

In addition, the rotary blade 320 is guided to the inlet hole 302 to the wind not introduced into the open inlet hole 302, the induction panel 326 is a vertical rotor to further improve the strength of the wind, that is, wind pressure Is formed to be inclined to extend outward from the body of the 300 by a predetermined angle, preferably formed to extend integrally with one end of the inlet hole (302).

The rotating blade 320 is composed of a total of three is formed radially around the coupling portion 325 to form the respective space between the rotating blade 320 and the other rotating blade 320 to form the space between each other By not communicating with each other, even the weak wind strength can be rotated through the wind focused through the primary focusing unit 322 and the secondary focusing unit 324, so that it does not start by itself in the early stage of a conventional vertical blade. It can not overcome the problem of needing an auxiliary one-turn power device.

The rotating blade 320 configured as described above is a graph showing the output amount of the rotating blade 320 of FIG. 5 comparing the output amount of the conventional vertical blade and the rotating blade 320 of the present invention, and the experiment as shown in Table 1 below. As described in the results, the efficiency portion of the rotary blade 320 of the present invention compared with the conventional vertical blades, considering all the mechanical and morphological efficiency, mechanical transmission efficiency 0.6 and power generation efficiency 0.75, As calculated by the coefficient value determined only by the shape, it was found that the efficiency obtained by the maximum output amount was 157.22% higher than the existing shape.

Vertical axis Original Sabonius blade Invention Hybrid Sabonius blade Wing length (m) 0.234 0.234 Diameter (m) 0.27 0.27 (Simple) effective area (m ² ) 0.06318 0.06318 Air density (kg / m ³ ) 1.248 1.248 Flow rate (m / s) 3 3 Actual experiment maximum output (W) 0.00697 0.010218 Calculated Power Output (W) 1.06446 1.06446 efficiency 0.0173 0.0272

In the vertical wind generator of the present invention configured as described above, the external wind is introduced through the inlet hole 302 formed in the vertical rotor 300 and the induction panel 326 extending to one side of the inlet hole 302. Then, while focusing to the space formed by the rotary blade 320 to focus on the primary focusing portion 322 of the rotary blade 320 to rotate the rotary blade 320.

In addition, if the wind is continuously introduced, as well as the primary focusing unit 322, while contacting the contact panel 328 while focusing on the secondary focusing unit 324 while further rotating the rotating blade 320, the rotating blade 320 To improve the amount of rotation.

In addition, the rotational force generated by the rotation of the rotary blade 320 is transmitted to the power increasing means 104 through the rotating shaft 230, the power increasing means 104 is provided to the generator 102 by increasing the transmitted rotating force This is to produce power.

At this time, although not shown in the figure, it is preferable that the charging battery is provided so that the power produced by the generator 102 is charged, but is not limited thereto.

In addition, the vertical rotor 300 of the present invention is provided with a plurality of vertically connected to each other, the coupling portion 325 of the vertical rotor 300 provided on the upper side, the coupling of the vertical rotor 300 provided on the lower side It is preferable that the coupling hole 330 is formed on the upper side so that the parts 325 can be connected to each other, but is not limited thereto.

Since the vertical wind generator of the present invention can be provided with a high torque along with the initial maneuverability through the vertical rotor 300 that can be rotated even in the breeze, not only improves the efficiency of the generated energy, but also the productivity of the product through a simple configuration And a very useful inventor who can maximize power productivity, protect the environment with a vertical wind generator that can be easily installed without any restriction on the installation location, and can receive environmentally friendly energy that can provide infinite clean energy. will be.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: power generation housing 102: generator
104: power increase means 110: support housing
120: upper cover 122: seating end
124: fastener 200: shaft housing
210: bearing 220: bearing mounting member
230: axis of rotation 300: vertical rotor
310: bearing receiving portion 320: rotating blade
322: primary focusing unit 324: secondary focusing unit
326: induction panel 328: contact panel
330: coupling hole

Claims (11)

In a vertical wind generator,
A power generation housing connected to the generator and a power increasing means configured to increase rotational force therein;
A shaft housing coupled to an upper portion of the power generation housing and having a rotating shaft configured to provide rotational force to a power increasing means to support rotation of the rotating shaft; And
The bearing receiving portion is formed to be coupled to the rotating shaft, the rotary blade is coupled to the rotating shaft to generate a rotational force by the wind pressure to provide a rotational force is integrally formed, the vertical in which the inlet hole through which the wind flows from the outside along the outer peripheral surface is formed Type rotor;
Vertical wind generator comprising a.
The method of claim 1,
The power generation housing
A housing body provided with the generator and a power increasing means;
A support housing detachably coupled to a lower portion of the housing body to support a vertical wind generator; And
An upper cover detachably coupled to an upper portion of the housing main body to which the shaft housing is coupled;
Vertical wind generator comprising a.
The method of claim 1,
The shaft housing is a vertical wind generator, characterized in that the bearing for supporting the rotation of the rotating shaft, and the bearing mounting member is provided on the inner peripheral surface so that the bearing is fixed.
The method of claim 1,
Both ends of the inlet hole of the vertical rotor and the end of the rotary blade is connected to each other in a vertical power generator, characterized in that to maximize the wind pressure.
The method of claim 1,
The rotating blade is coupled to the rotating shaft in the center to transmit the wind pressure generated during rotation, the primary focusing portion to focus the wind flowing through the inlet hole, and from the primary focusing portion of the vertical rotor Vertical power generator, characterized in that the secondary focusing portion is formed integrally spaced apart from the inner peripheral surface of the body.
The method of claim 5, wherein
Vertical power generator, characterized in that between the primary focusing portion and the secondary focusing portion of the rotary blade is a contact panel which is directly in contact with the incoming wind is formed integrally.
The method of claim 5, wherein
The primary focusing part and the secondary focusing part of the rotary blade are curved curvature having an arc is formed, the wind is focused to the center of the curvature of the vertical power generator, characterized in that for rotating the rotating blades.
The method of claim 7, wherein
The rotary blade is a vertical power generator, characterized in that the arc of the curvature of the secondary focusing portion is formed larger than the arc of the curvature of the primary focusing in order to increase the wind focusing ratio.
The method of claim 5, wherein
The rotary blade is a vertical power generator, characterized in that the induction panel is further formed to be formed integrally with one end of the inlet hole to be guided to the inlet hole side up to the wind does not flow into the inlet hole.
The method of claim 1,
The rotating blade is composed of a total of three inside the vertical rotor is formed radially around the coupling portion, each space portion is formed so as not to communicate with each other between the rotating blade and the other rotating blade even in the weak wind strength Vertical wind generator, characterized in that for rotating through the focused wind through the primary focusing unit and the secondary focusing unit.
The method of claim 1,
The vertical wind generator, characterized in that the coupling hole is formed on the upper side of the vertical rotor so that the plurality of vertical rotor can be connected to each other vertically.

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