KR100808764B1 - Cylindrical Windmill Type Wind Power Generator - Google Patents

Abstract

The present invention relates to a cylindrical windmill-type wind power generator, the purpose of which is provided with a plurality of wings on the outside of the cylindrical body is capable of smooth power generation regardless of the wind direction, and can maintain a stable structure in the wind or gusts such as typhoons The present invention provides a cylindrical windmill-type wind power generator that is easy to maintain and repair.

The present invention for this purpose is installed on the ground; A cylindrical member installed at an upper end of the support and having a vertical axis of rotation, and having upper and lower guides of a conical shape arranged in a symmetrical structure to form an angular shape with the cylindrical axis at upper and lower portions of the vertical cylindrical axis, the cylindrical member being made heavier closer to the rotating axis; It is disposed outside the cylindrical member so as to have a circular array structure around the cylindrical member, installed to extend from the upper guide to the lower guide through the cylindrical shaft to cover the trapezoidal space formed by the cylindrical shaft and the upper and lower guides Receiving a plurality of wings; And a generator connected to the cylindrical member to convert wind energy generated by the wind into electrical energy. The present invention relates to a cylindrical windmill-type wind power generator.

Description

Wind turbine electric power generator

1 is a side view showing a typical wind power generator,

2 is a front view of a wind turbine according to a preferred embodiment of the present invention,

3 is a cross-sectional view showing the installation structure of the blade according to the present invention;

4 is a view showing another installation structure of the wing according to the present invention;

5 is a view showing another installation structure of the blade according to the invention,

FIG. 6 is a plan view of the same state as in FIG. 5; FIG.

<Description of the symbols for the main parts of the drawings>

(110): support (120): cylindrical member

(121): cylindrical shaft (122): upper guide

(123): Lower Guide (130): Wings

140: generator

The present invention relates to a wind power generator for converting wind energy into electrical energy, and more particularly, to a cylindrical windmill type wind power generator capable of smooth wind power generation regardless of the direction of the wind is provided with a plurality of wings on the outside of the cylindrical body. will be.

Existing fossil energy resources are not only gradually exhausted, but also pollute the global environment. For a long time, humankind has been trying to develop a clean alternative energy utilization device that is not exhausted and does not pollute the environment. Such clean alternative energy includes solar energy, wind energy, current energy, tidal energy, geo-thermal energy and bio-thermal energy. Etc. Meanwhile, a wind power generator is used as a means for generating electricity by using the wind energy.

1 is a side view showing a general wind power generator. Generally speaking, a wind power generator first considers a rotor type wind power generator, and a rotor type wind power generator has an advantage of high efficiency, but has the following disadvantages. Reference numeral 10 is a support, 20 is a rotating body, 30 is a generator, and 40 is an increase gear.

1) It is very disadvantageous in the area where the wind direction changes frequently. (The wind direction makes a big difference in efficiency and causes breakdown or damage.)

2) It is vulnerable to gusts of wind and gusts of wind.

3) Maintenance is difficult and operation costs are high.

4) Since the rotor, which is the most important core component of the wind power generator, should have no mass eccentricity at all, it is a geometrically simple structure, but it requires a high level of skill in manufacturing and possesses manufacturing technology worldwide. There aren't many places. If there is even a slight mass eccentricity in the rotor, vibration occurs during rotation, which causes a problem and easily breaks.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a plurality of wings on the outer side of the cylindrical body to enable smooth power generation regardless of the wind direction, and to maintain a stable structure against light winds and gusts such as typhoons. In addition, the present invention provides a cylindrical windmill-type wind power generator that is easy to maintain and repair.

Another object of the present invention is to provide a cylindrical windmill-type wind power generator that is easy to manufacture, and can reduce the manufacturing cost compared to the rotating body wind turbine.

The present invention to achieve the object as described above and to perform the problem for removing the conventional drawbacks are installed on the ground;

A cylindrical member installed at an upper end of the support and having a vertical axis of rotation, and having upper and lower guides of a conical shape arranged in a symmetrical structure to form an angular shape with the cylindrical axis at upper and lower portions of the vertical cylindrical shaft, the cylindrical member being heavier closer to the rotating shaft;

It is disposed outside the cylindrical member so as to have a circular array structure around the cylindrical member, installed to extend from the upper guide to the lower guide through the cylindrical shaft to cover the trapezoidal space formed by the cylindrical shaft and the upper and lower guides Receiving a plurality of wings; And

And a generator connected to the cylindrical member to convert the energy of the wind generated from the cylindrical member by the wind into electric energy.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 shows a front view of a wind turbine according to a preferred embodiment of the present invention. Referring to FIG. 2, the wind power generator according to the preferred embodiment of the present invention includes a support 110, a cylindrical member 120, a plurality of wings 130, and a generator 140. . The wind turbine is configured to be installed on the support 110 so that the cylindrical windmill consisting of the cylindrical member 120 and the blade 130 has a vertical axis of rotation (S) to perform power generation regardless of the wind direction, the cylindrical As the member 120 and the wing 130 are closer to the rotation shaft S, the weight becomes heavier, so that the members 120 and the wing 130 can generate power even at a low wind speed compared to the conventional one, and have a stable rotation structure. Explained as follows.

The support 110 is installed on the ground to support the cylindrical member 120, a plurality of beams are made to be coupled to each other, the lower portion of the cylindrical member 120 on the ground to support the rotation of the cylindrical member 120 It is installed to support the cylindrical member 120 to rotate by the wind while maintaining a predetermined height from the ground.

The cylindrical member 120 is rotated by the wind to convert the wind energy into electrical energy, it is composed of a cylindrical shaft 121 and the upper and lower guides (122,123). At this time, the cylindrical shaft 121 is formed in a cylindrical shape having the same diameter as a whole and vertically disposed, the upper and lower guides 122 and 123 are installed in the upper and lower portions of the cylindrical shaft 121 in a conical shape, respectively, the cylindrical shaft 121 and The cylindrical member 120 including the upper and lower guides 122 and 123 is installed to have a symmetrical structure with respect to the cylindrical shaft 121 so as to form an angular shape. As described above, the cylindrical member 120 having the janggu shape by the upper and lower guides 122 and 123 becomes heavier as it approaches the center, that is, the rotational axis S. As a result, the cylindrical member 120 can be rotated even at a low wind speed and stable structure during rotation. It can be maintained. In addition, the volume of the structure decreases as the rotary shaft approaches, thereby reducing the formation of vortices inside the cylindrical windmill by rotating the windmill.

Figure 3 shows a view showing the installation structure of the blade according to the present invention. Here, (a) is a perspective view which shows the state in which the wing | blade was installed in the cylindrical member, (b) is a conceptual diagram which attaches each wing | blade to a cylindrical member, (c) is a cross-sectional view. Referring to FIG. 3, the wings 130 rotate the cylindrical member 120 in response to wind power, and are installed to have a circular arrangement around the cylindrical member 120 at the outside of the cylindrical member 120. At this time, each wing 130 is formed in a flat cross-sectional structure that narrows the width away from the cylindrical shaft (121). This is to prevent the bending or breakage of the blades subjected to the wind as well as the weight becomes heavier toward the center of the cylindrical member 120, like the cylindrical member 120. These wings 130 may be attached to the cylindrical member 120 by bolts 132.

Figure 4 shows a view showing another installation structure of the wing according to the present invention. (A) is a perspective view of a cylindrical member and a wing | blade connected by a cantilever, (b) is a longitudinal cross-sectional view. Referring to FIG. 4, the wings 130 may be supported by a cantilever 131 extending from the cylindrical shaft 121, in which one or more cantilever 131 is supported to support each wing 130. Can be used.

Figure 5 shows a front view showing another installation structure of the blade according to the present invention, Figure 6 shows a plan view of the state as shown in FIG. 5 and 6, the blades 130 may be installed so that the upper and lower ends are fixed to the upper and lower guides 122 and 123 and maintain a constant distance from the cylindrical shaft 121. 6 (a) is a cross sectional view of a cylindrical windmill, and (b) is a plan view.

When the blades 130 are installed as shown in FIGS. 5 and 6, a space G is formed between each blade 130 and the cylindrical member 120 to rotate the cylindrical member 120. There is an advantage that can reduce the resistance of the wing air located on the side unaffected by the wind.

The wings 130 as described above may be made of any one material of aluminum, titanium, magnesium, or FRP to help reduce the weight of the cylindrical windmill consisting of the cylindrical member 120 and the wings 130.

The generator 140 is installed on the support 110 to be connected to the cylindrical member 120 to produce electricity by converting the energy of the wind generated by the rotation of the cylindrical member 120 into electrical energy. Meanwhile, the generator 140 may be installed at the lower end of the cylindrical member 120 as shown in FIG. 2A or may be installed at the upper end of the cylindrical member 120 as shown in FIG.

Cylindrical windmill-type wind power generator of the present invention as described above is rotated by the wind while the cylindrical windmill provided with a plurality of wings 130 is supported by the support 110 to convert the wind energy into electrical energy, cylindrical Energy of the wind generated by the rotation of the windmill is transmitted to the generator 140 is converted into electrical energy to generate electricity.

On the other hand, due to the shape of the cylindrical member 120 and the wing 130 in performing the electrical power generation as described above, the cylindrical windmill is lighter on the outside than the center, so that it can be rotated even at low wind speeds, and stable structure during rotation. Will be able to maintain.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

According to the present invention, a cylindrical windmill composed of a cylindrical member and wings is installed on a support to have a vertical axis of rotation, so that power generation can be continuously performed regardless of the wind direction, and furthermore, a cylindrical member having a long shape. Wings with a flat cross-section that decreases in cross section toward the outside and the outside form a heavy cylindrical windmill and the outside forms a light windmill that can rotate even at low wind speeds. It is possible to prevent the device from being damaged.

Claims (5)

A support 110 installed on the ground; In the upper end of the support 110 has a vertical axis of rotation (S), the upper and lower guides (122, 123) of the conical shape to the upper and lower portions of the vertical cylindrical shaft 121 to form a janggu shape with the cylindrical shaft 121 mutually symmetrical structure Cylindrical member 120 is arranged to be heavier closer to the rotation axis (S); The cylindrical member 120 is disposed outside the cylindrical member 120 to have a circular arrangement around the cylindrical member 120, and is installed to extend from the upper guide 122 through the cylindrical shaft 121 to the lower guide to the cylindrical shaft 121. And a plurality of wings 130 receiving wind power by covering the trapezoidal space formed by the upper and lower guides 122 and 123. And And a generator (140) connected to the cylindrical member (120) to convert energy of wind generated by the wind into electrical energy. The method of claim 1, wherein each of the wings 130, Cylindrical windmill-type wind power generator, characterized in that the farther away from the cylindrical shaft 121 is formed to have a flat cross-sectional structure narrower. The method of claim 1, wherein each of the wings 130, Cylindrical windmill-type wind power generator, characterized in that the side is supported by a cantilever 131 extending from the cylindrical shaft (121). The method of claim 1, wherein each of the wings 130, Cylindrical windmill-type wind power generator, characterized in that the upper and lower ends are supported by the upper and lower guides (122,123) provided in the upper and lower portions of the cylindrical shaft (121). The method of claim 1, wherein the wing 130, Cylindrical windmill-type wind turbine generator, characterized in that consisting of any one of aluminum, titanium, magnesium or FRP.

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