KR100875438B1 - Apparatus for wind power generation with axis - Google Patents

Abstract

An apparatus for wind power generation with axis is provided to generate electricity within preset range regardless of intensity of wind delivered by a vertical windmill generator by adjusting a fastening bolt and thus interlocking or releasing a torque transmission axle and an axle. An apparatus for wind power generation with axis comprises an installation tool formed on one end of a transfer axle; a housing(2) of tubular type, having an operating space inside; a plurality of coupling protrusions(23) formed to penetrate with the operating space on the outer surface of the housing; a head(3) fitted to the housing on the end of an axle; a pressing member(4), an elastic spring(5), and a fastening bolt(6) sequentially formed in order to adjust pressing force of the pressing member by a rotation of the fastening bolt.

Description

Rotation speed reduction device for wind power generators {Apparatus for wind power generation with axis}

The present invention relates to a rotation speed reduction device for a wind turbine, and more particularly, by adjusting the tightening bolt to interlock or deactivate the rotational force transmission shaft and the shaft, the strength of the wind transmitted when the wind is transmitted to the vertical shaft wind turbine Regardless of the present invention, the present invention relates to a rotation speed reduction device for a wind power generator capable of generating wind power in a preset range.

In general, wind power is a wind power generator that uses wind power to turn windmills into natural winds and rotates generators by using gear mechanisms. Among the alternative energy sources that replace fossil fuels as natural pollution-free energy sources. It has been spotlighted as the most economical alternative energy source, and is divided into horizontal axis and vertical axis according to the position of the rotation axis of the wing.

However, the climate environment of Korea, unlike the climate environment of foreign countries, not only changes the direction of the wind at any time, but also the direction of each wind blowing in the upper and lower parts of each space is different. The strength of the wind is also a breeze, the wind power generators applied in Korea is being improved in the direction of improving the power generation efficiency by the wind.

For example, in the case of a conventional vertical shaft wind turbine generator registered in advance (registration number: 20-0019653), the wind turbine blades vertically stacked on the upper and lower parts of the wind are rotated by providing the wind turbine blades laminated along the vertical shaft. To be available.

However, the conventional vertical axis wind power generators are also strong because of the strong wind power transmitted to each windmill wing that is installed to be individually rotated on the vertical axis when the wind strength increases due to the strong wind or storm and rainy season according to the season. The rotation speed produced is also relatively high.

At this time, the generator connected to the vertical axis can expect the optimum power generation efficiency in a predetermined rotation speed range (for example, about 60Hz), the rotation speed range is set here is the climate environment of Korea (breeze) is applied Because of the set range, when a strong wind blows with strong wind intensity, the rotational force transmitted from the vertical axis to the generator exceeds a preset rotation speed range, thereby generating irregular power from the generator as well as overheating the generator.

Moreover, there is a closure that leads to safety accidents such as fires if the generator overheats.

The present invention is a wind power generator for generating electricity by the power of the rotational force is composed of a generator having a rotational force transmission shaft having a plurality of wings and a shaft connected to the end of the rotational force transmission shaft to transmit the rotational force by the wind, An end portion of the transfer shaft is provided with a tubular housing having an installation hole formed at one end thereof and having a working space therein, and the housing has a plurality of fastening protrusions having a structure penetrated in communication with the working space at an outer surface thereof. A head is provided at the end of the shaft to be fitted to the housing, and the fastening member is sequentially provided with a pressing member, an elastic spring, and a tightening bolt to pressurize and fix the head fitted to the housing, by rotating the tightening bolt. Characterized in that configured to adjust the pressing force of the pressing member.

In addition, the operating space is characterized in that the grease is further filled to prevent friction.

In addition, the outer periphery of the head is characterized in that the further groove-shaped groove portion is formed to be locked to the pressing member.

In addition, the pressing member is characterized in that the material is made of bronze.

The rotation speed reduction device for a wind power generator according to the present invention adjusts the tightening bolt to interlock or release the rotational force transmission shaft and the shaft, so that the wind is transmitted to the vertical wind turbine in a predetermined range regardless of the strength of the wind transmitted. It has the effect of being able to generate wind power.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of a rotation speed reduction device for a wind power generator according to the present invention with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

In addition, the following examples are not intended to limit the scope of the present invention but merely presented by way of example, and there may be various embodiments implemented through the present invention.

1 is a cross-sectional view showing a rotation speed reduction apparatus for a wind power generator according to the present invention, Figure 2 is a cross-sectional view showing a state in which a rotation speed reduction apparatus for a wind power generator according to the invention is installed, Figure 3 is a main part of Figure 1 It is an enlarged view, and it is a top view which shows the rotational speed reduction apparatus for wind turbines of this invention which concerns on FIG.

As shown in the drawings, the rotation speed reduction device 1 (hereinafter, referred to as a rotation speed reduction device) for a wind power generator according to the present invention includes a rotation force transmission shaft 200 having a plurality of wings 100 to transmit rotation force by wind. Comprised of a generator 400 having a shaft 300 connected to the end of the rotational force transmission shaft 200 is to be installed in the wind power generating device for generating electricity by the power of the rotational force transmitted, the transmission shaft of the 200 The end is provided with a tube-shaped housing 2 having an installation hole 21 formed at one end thereof and having an operating space 22 therein, and the housing 2 penetrates in communication with the operating space 22 on an outer surface thereof. A plurality of fastening protrusions 23 having a predetermined structure are provided, and an end of the shaft 300 is provided with a head 3 to be fitted to the housing 2, and the fastening protrusions 23 have a housing 2. In order to pressurize and fix the head 3 fitted in the), the pressing member (4) in sequence Elastic spring 5 and is a tightening bolt (6) installed, rotation of the fastening bolt (6) is configured to adjust the pressing force of the pressing member by the tightening.

In this case, grease is further filled in the working space 22 to prevent friction, and the housing 2 and the head 3 are integrally formed at ends of the rotational force transmission shaft 200 and the shaft 300. Can be detachably fitted and installed.

Here, the fastening protrusion 23 is formed to protrude on the outer circumference of the housing 2, the screw thread is formed on the inner circumference of the end portion to be screwed with the tightening bolt (6). As shown in FIG. 4, the fastening protrusions 23 form a plurality of radially around the outer circumference of the housing 2 and preferably form three.

That is, when the tightening bolt 6 is fastened by rotating the fastening bolt 6 fastened to the fastening protrusion 23, the outer circumferential surface of the head 2 corresponding to the pressing member 4 by elasticity of the elastic spring 5 is tightened. By being pressurized, the rotational force transmission shaft 200 and the shaft 300 are interlocked with each other so that the rotational force of the rotational force transmission shaft 200 is transmitted to the generator 400.

At this time, if a strong wind (Bopert wind class 9-17) blows due to irregular weather abnormalities such as a storm or typhoon, the generator 400 is overheated as the rotational force transmission shaft 200 rotates at a high speed and the generator continues when the overheated state continues. Since a safety accident such as 400 is damaged, an operator may release the tightening bolt 6 to separate the housing 2 and the head 3 interlocked with each other when the meteorological abnormality occurs. By allowing the rotational force transmission shaft 200 to idle, the generator 400 may be prevented from overheating.

Alternatively, the pressing member 4 pressurizes the head 3 with an appropriate pressing force, thereby interlocking the housing 2 and the head 3 in a breeze (Borpert wind class 1 to 8), and in the case of a strong wind. The operator is tightened by adjusting the tightening bolt 6 in advance so that the head (3) is idle.

That is, when the rotational force transmission shaft 200 is rapidly rotated during a strong wind, the head 3 slides in the pressing member 4 to idle, and when the rotational speed decreases, the pressing member 4 moves to the head 3. By pressurizing), it is possible to generate wind power in a preset range regardless of the strength of the wind when the wind is delivered to the wind power generator.

At this time, if the tightening bolt 6 is excessively tightened, the rotational force transmission shaft 200 is not idling during high winds, and if tightened loosely, idling even in the normal wind, the operator through the empirical test the tightening bolt (6) The tightening bolt (not shown) is formed on the threaded portion of the tightening bolt (6) based on the data obtained through the test so that the display line is coincident with the end of the fastening protrusion (23) ( 6) It is preferable to fasten.

Here, the outer periphery of the head (3) is further formed with a ring-shaped groove portion 31 to be caught by the pressing member (4), to prevent the head (3) from falling out of the housing (2).

In addition, the pressing member 4 is preferably formed of bronze, which is a material excellent in castability and corrosion resistance, and any material may be used as long as the material is excellent in corrosion resistance.

5 is a view showing another embodiment of a rotation speed reduction device for a wind power generator according to the present invention.

Referring to Figure 5, in the above by adjusting the tightening bolt (6) by pressing the pressing member 4 to the head 3, the rotational force transmission shaft 200 and the shaft 300 to be described and described as Although it is shown to but is not limited to this.

For example, it is also possible to form a plurality of support protrusions 331 in the groove portion 31 in the longitudinal direction, so that the support protrusions 331 are caught by the pressing member 4.

That is, as described above, in the case of the breeze, the support protrusion 331 is caught by the pressing member 4 so that the rotational force transmission shaft 200 is interlocked with the shaft 300, and in the case of the strong wind, By the strength, the support protrusion 331 is pushed while pressing the pressing member 4 so that the rotational force transmission shaft 200 is idle.

1 is a cross-sectional view showing a rotation speed reduction device for a wind power generator according to the present invention.

2 is a cross-sectional view showing a state in which a rotation speed reduction device for a wind power generator according to the present invention is installed.

3 is an enlarged view illustrating main parts of FIG. 1.

Figure 4 is a plan view showing a rotation speed reduction device for a wind power generator according to the present invention.

5 is a view showing another embodiment of a rotation speed reduction device for a wind power generator according to the present invention.

Description of the main parts of the drawing

100: wing 200: rotational force transmission axis

300: axis 400: generator

1: rotation speed reduction device 2: housing

3: head 4: pressure member

5: Elastic Spring 6: Tightening Bolt

21: installation port 22: operating space

23: fastening protrusion 31: groove portion

311: support protrusion

Claims (4)

In the wind power generator for generating electricity by the power of the rotational force is composed of a generator having a rotational force transmission shaft having a plurality of wings and a shaft connected to the end of the rotational force transmission shaft to transmit the rotational force by the wind, An end portion of the transmission shaft is provided with a tubular housing having an installation hole formed at one end thereof and having a working space therein, and the housing has a plurality of fastening protrusions having a structure penetrated in communication with the working space at an outer surface thereof. An end of the shaft is provided with a head to fit in the housing, The fastening protrusion is provided with a pressing member, an elastic spring and a tightening bolt in order to pressurize and fix the head fitted in the housing, wind power, characterized in that configured to adjust the pressing force of the pressing member by the rotation of the tightening bolt. Rotation speed reduction device for power generation device. The method of claim 1, The rotation speed reduction device for a wind power generator, characterized in that the operating space is further filled with grease to prevent friction. The method of claim 1, Rotational speed reduction apparatus for a wind turbine, characterized in that the outer periphery of the head is further formed with a groove-shaped groove portion to be locked to the pressing member. The method of claim 4, wherein The groove portion is formed with a plurality of support projections, the rotation speed reduction device for wind power, characterized in that configured to be locked to the pressing member.

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