KR101088175B1 - Device for wind power generation - Google Patents

Abstract

The present invention relates to a wind turbine, and more particularly to a wind turbine coupled to the rotating shaft in the form of a closed curve while each blade has a curvature with the air guide.
Wind turbine according to the present invention, a plurality of blades having a curvature in the direction of rotational movement by the wind flowing along the air guide for guiding the flowing wind, so that the blade has a closed curve at different points on the same axis A rotating unit having a central axis coupled to and rotating by a rotational movement of the blade; A power generation unit for generating electricity by converting rotational kinetic energy of the rotation unit into electric energy; And a support unit for supporting the power generation unit; It is configured to include. The wind power generator according to the present invention can be expected to have an effect of smoothing the flow of air, the end of the blade is structurally supported on the rotating shaft by the blade having a form of a closed curve to the vibration caused by the rotational movement of the blade As it decreases, safety and durability may be improved, and durability and convenience of installation may be expected to be improved.

Description

Wind power generators {Device for wind power generation}

The present invention relates to a wind turbine, and more particularly to a wind turbine coupled to the rotating shaft in the form of a closed curve while each blade has a curvature with the air guide.

Electricity is generated by converting thermal energy generated by burning fossil fuels into electrical energy, or by converting energy generated from natural phenomena such as water or wind into electrical energy, and by using nuclear power. It is largely classified as a method of producing it.

However, due to the limited amount of fossil fuel, exhaustion of resources is expected. Due to the excessive use of fossil fuels, global environmental problems have occurred, and many countries around the world signed the Kyoto Protocol in 1997 to reduce greenhouse gases and develop alternative energy. Trying hard.

Under the Kyoto Protocol, which came into force in 2005, the development of alternative energy using clean green energy such as wind and solar energy is actively being carried out in each country. Wind power is a technology that uses wind as an energy source. There is no problem of pollution and it is one of the alternative energy.

Wind power generation is a facility that produces electricity by converting wind energy, which is one of the natural phenomena, into electrical energy, and this wind power uses the energy of wind to rotate the blade to produce electricity by the rotational force of the blade. do.

Facilities for wind power generation is largely composed of a blade that rotates by the energy of the wind, a transmission for shifting the rotational speed by the rotational movement of the blade, a generator for producing electricity.

The wind of Korea has many characteristics of turbulent wind, and if it is not a certain time, it has low wind speed and frequent typhoon or strong wind. Due to the characteristics of the wind in Korea, wind power generation has a problem that noise is greatly generated, durability is lowered due to vibration, and power generation efficiency is reduced while congestion operation by strong wind occurs.

Therefore, there is a demand for development of a facility for wind power generation that improves durability while reducing noise and vibration, and improves safety and efficiency.

In addition, in the case of a power plant using wind power, noise is generated by a vortex phenomenon, that is, a chip vortex phenomenon, generated at the end of a blade that rotates by using the force of wind. There is a problem that the safety is reduced.

An object of the present invention is to propose a wind power generator in which each blade is coupled to a rotating shaft in the form of a closed curve while having an air guide for guiding the flow of air.

Another object of the present invention is to propose a wind turbine generator having a curved shape in which each blade has a curvature in the same direction as the rotation direction.

Another object of the present invention is to propose a wind power generator having an integrated blade coupled to one end of the longitudinal direction is coupled to the first half of the rotary shaft, the other end is coupled to the second half of the rotary shaft.

Wind turbine according to the present invention, a plurality of blades having a curvature in the direction of rotational movement by the wind flowing along the air guide for guiding the flowing wind, so that the blade has a closed curve at different points on the same axis A rotating unit having a central axis coupled to and rotating by a rotational movement of the blade; A power generation unit for generating electricity by converting rotational kinetic energy of the rotation unit into electric energy; And a support unit for supporting the power generation unit; .

In addition, the wind power generator according to the present invention, the support unit is supported on the ground; A power generation unit which is supported by the support unit and converts rotational kinetic energy into electric energy to generate electric energy; And a rotation unit positioned in front of the power generation unit and axially coupled with the power generation unit, the rotation unit rotating by the flow of wind, wherein the rotation unit comprises: a rotation shaft coupled with the power generation unit; And a blade configured to rotate by an air guide for guiding the flow of wind flowing from the front of the rotating shaft to the rear, and the air guided by the air guide. It is configured to include.

In addition, the wind power generator according to the present invention has a blade having an air guide for guiding the flow of air flowing in front of at least one surface, and both ends of the blade are rotated by the rotation of the blade while the same axis is the same axis. A rotating unit having a rotating shaft fixed at different points on the line; A power generation unit for converting rotational kinetic energy of the rotation unit into electrical energy; And a support unit supporting the rotation unit and the power generation unit. .

According to the wind power generator according to the present invention configured as described above, there is provided a wind power generator having an air guide is formed, the blade having a closed curve in combination with the rotating shaft.

The air guide is guided by the air flowing in front of the air guide can be expected to smooth the flow of air, the blade having a curved shape of the end of the blade is structurally supported on the rotating shaft by vibration of the blade rotational movement As this decreases, safety and durability can be expected to be improved.

In addition, it is possible to expect the effect of reducing the noise caused by the vortex of the air generated between the blade and the blade, it is possible to expect the effect of improving the safety while preventing damage to the blade due to vibration.

As the noise is reduced, it is possible to expect the effect of expanding the installation place of the wind power generator, and by expanding the installation place, it is possible to expect the effect of improving the convenience and usability of the installation by expanding the use range for home or industrial use. .

In addition, the air vortex between the blades is prevented, the blade is structurally fixed to the rotating shaft can be expected to extend the life of the device can be expected, the efficiency is improved, there is an advantage that the efficiency can be expected to generate high efficiency Will be.

In addition, as the air flows by the air guide for guiding the flowing wind, it is possible to expect the effect of preventing the consumption of the power required for the starting power as the system does not require the starting power.

1 is a schematic perspective view showing the appearance of a wind power generator according to an embodiment of the present invention.
Figure 2 is a front view showing a blade of the wind power generator according to the embodiment of the present invention.
3 is a cross-sectional view taken along line AA ′ of FIG. 2 according to an embodiment of the present invention;
4 is a graph showing the rotation speed of the blade according to the wind speed of the wind power generator according to the embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a wind turbine generator according to the present invention as described above will be described for an embodiment.

However, the spirit of the present invention is not limited to the implementation state by the embodiments described below, and those skilled in the art to understand the spirit of the present invention using other embodiments falling within the scope of the same technical spirit It may be easily proposed, but this will also be included in the technical idea of the present invention.

In the following description, the wind power generator is described through the embodiment for convenience of description, but the present invention is not limited thereto.

In addition, terms used in the present specification or claims are concepts selected for convenience of description and should be properly interpreted as meanings corresponding to the technical idea of the present invention in grasping the technical contents of the present invention.

1 is a schematic view showing the appearance of a wind power generator according to an embodiment of the present invention, Figure 2 is a front view showing a blade of the wind power generation politics according to an embodiment of the present invention. 3 is a cross-sectional view taken along line AA ′ of FIG. 2.

Looking at the wind turbine generator according to the present invention with reference to the accompanying drawings, the wind turbine generator according to the present invention is a rotary unit 10 and the rotational movement of the rotating unit by the flow of the wind, the rotational movement of the rotary unit 10 And a power generation unit 30 for converting rotational kinetic energy into electric energy, and a support unit 50 for supporting the rotation unit 10 and the power generation unit 30.

The rotary unit 10 is formed so that the rotary shaft 11 is formed in parallel with the ground to rotate the movement, the front end of the rotary shaft 11 is a blade 20 for rotational movement by the flow of wind.

The rear end of the rotary shaft 11 is the power generation unit 30 is organically connected to convert the rotational kinetic energy of the rotary shaft 11 into electrical energy. The power generation unit 30 has a rectangular parallelepiped shape having a predetermined internal space as a whole. Of course, the power generation unit 30 may also have a predetermined internal space, that is, a cylindrical shape lying in the horizontal direction or a hexagonal or octagonal configuration.

The inner space of the power generation unit 30 is connected to the rotary shaft 11, the gear box 31 receives the rotational movement of the rotary shaft 11 and the rotational kinetic energy transmitted from the gear box 31 There are a number of components, including a generator 32 that converts energy.

The gear box 31 has a plurality of gears are built to generate a constant rotational kinetic energy by the rotational movement of the rotary shaft (11). In detail, a plurality of gears are rotated while receiving the rotational kinetic energy of the rotating shaft 11 so that the rotational kinetic energy can be uniformly transmitted to the generator 32 by the plurality of gears.

That is, the first gear, which is initially transmitted by the rotational movement of the rotational shaft 11 by the rotational movement of the rotational shaft 11, rotates to have different rotational speeds while meshing with a second gear having a different gear ratio and size. .

The second gear, which has received the rotational motion from the first gear, rotates to have different rotational speeds while meshing with a third gear having a different gear ratio and size.

As such, a plurality of gears are positioned in the internal space of the gearbox 31 to have different gear ratios and rotational numbers, and the rotational movements transmitted from the rotational shaft 11 are formed to have a certain range of rotational movements. That is, the gearbox 31 converts the rotational motion of the rotational shaft 11 into rotational kinetic energy of a predetermined range and transmits it to the generator 32.

The gearbox 31 transmits the rotational motion of the blade 20 due to wind to the generator 32 in a range of rotational kinetic energy. Thus, the gearbox 31 is to perform the function of power transmission.

In addition, the gearbox 31 transmits the rotational motion of the blade 20 to the generator 32 in a rotational kinetic energy state having a higher speed, thereby performing a function of increasing speed.

The range of rotational kinetic energy delivered to the generator 32 is converted into electrical energy. The generator 32 is also called a generator, and rotates by the rotational kinetic energy transmitted from the gear box 31, thereby producing electrical energy by the magnetic field.

The electric energy produced by the generator 32 is connected to each home or region, a power company and the like by a wire, and is connected to a storage battery to operate a plurality of electronic components located in the internal space of the power generation unit 30. It supplies electrical energy for

On the other hand, each of the blades 20 is fixed to one end portion is fastened to the first half of the rotary shaft 11, the other end is fastened to the second half of the rotary shaft (11).

As such, each of the blades 20 has an effect of preventing the vortices of air generated from the ends of the blades 20 and the vibration of the blades 20 while both ends are fixed to the rotary shaft 11. To have. As a result, the blade 20 has an advantage of improving safety and durability while reducing noise.

In detail, both ends of the blade 20 are supported by the rotating shaft 11 in the longitudinal direction, and the central portion of the blade 20 is located farthest from the rotating shaft 11.

Therefore, the blade 20 has a form extending from the first half to the second half of the rotary shaft 11 based on the rotary shaft 11. As such, the blade 20 has a continuous shape, so that wind flowing from the front flows along the front surface of the blade 20, and vortices of vibration and air generated at the farthest end with the rotation shaft 11 are generated. Will be reduced.

By reducing the vortex phenomena of the vibration and the air occurring at the farthest part from the rotary shaft 11, the noise due to the pressure and vortex applied to the blade 20, the resistance of the rotational movement is reduced, the blade 20 Its durability, efficiency and noise are reduced.

A hub 12 is positioned at the front end of the rotating shaft 11, that is, the center of the blade 20 when viewed from the front. The hub 12 has a conical shape lying in the transverse direction, and has a shape in which the diameter of the vertex is increased toward the rear in a form where the vertex is located in front.

The hub 12 is configured to be fastened and fixed by engagement by a fastening member such as a fitting coupling or a screw at the front end of the rotating shaft 11. One end of the blade 20 is coupled to the rotating shaft 11 and fixed to the rear side of the hub 12.

One end portion of the blade 20 is fixed to the rear side of the hub 12, and the other end portion of the blade 20 is fixed to the rotation shaft 11 at a position separated by a predetermined distance from the blade ( 20 is fixed to the rotating shaft 11 is rotatably coupled.

Three blades 20 are provided as a whole to rotate by the flowing wind. Of course, a configuration in which four are provided may be used, but three will be preferable in view of efficiency and cost.

The blade 20 is divided into a relatively front portion and a relatively rear portion, and the air guide 21 for guiding the movement of the air flow is formed at least in the relatively front portion. .

The air guide 21 is configured in such a way that when the blade 20 is viewed from the front, the central portion in the longitudinal direction has a predetermined curvature and is recessed to the rear. As such, when the longitudinal center portion of the blade 20 is recessed to the rear while having a predetermined curvature, the cross section is formed to have a substantially ")" shape when viewed from the right side.

Air flowing from the front of the blade 20 to the rear by the air guide 21 formed on the front of at least the front portion of the blade 20 flows along the front of the blade 20 It flows to the rear of the blade 20.

When the air is guided by the air guide 21 and flows to the rear of the blade 20, the air is smoothly moved while guiding the air to the end of the blade 20 at the position farthest from the rotating shaft 11. .

In detail, the blade 20 is coupled to the rotating shaft 11 in a substantially "∩" form when viewed from the right side, the air flows backward from the front end. At this time, the air flowing toward the blade 20 is guided by the air guide 21 formed on at least the front surface of the blade 20, and smoothly flows to the rear of the blade 20.

The air guide 21 may be formed in an integral form formed recessed in the front of the blade 20, the guide having a curvature at both ends in the longitudinal direction on the front of the blade 20, respectively It will be possible to configure the form.

On the other hand, the blade 20 has a predetermined curvature in the same direction as the rotational direction of the blade 20 from the portion coupled to the rotary shaft 11 to the end portion which is located farthest from the rotary shaft 11. It takes the form of a curve.

In detail, when viewed from the front of the blade 20, the blade 20 is formed in a shape having a curve toward the upper side toward the right from the portion coupled to the rotary shaft 11 and then downward again.

In other words, the first half of the blade 20, which is located relatively forward, has a parabolic shape as a whole with a curve having a central curvature upward.

In other words, assuming that the blade 20 rotates in a clockwise direction, a predetermined angle moves toward the direction away from the rotary shaft 11 from an end of the blade 20 coupled with the rotary shaft 11. It is directed upward, and is made in a curved form while having a curvature curved toward a direction away from the rotation axis 11 as a whole toward the downward direction toward the direction away from the rotation axis 11 in the center portion.

Since the blade 20 is curved in the same direction as the direction of rotation, the wind flowing toward the blade 20 is guided by the air guide 20, while curved in the same direction as the direction of rotation While flowing along the front surface of the blade 20 having a rotational movement of the blade 20.

In addition, while the air flowing through the blade 20 smoothly flows backward by the curved blade 20, the vortex phenomenon occurring between the blade 20 and the blade 20 is reduced, thereby It has the advantage that the rotational efficiency of the blade 20 is improved, and the noise is reduced.

Then, the blades 20 have a curvature in the same direction as the rotational direction and the blades 20 form a curved shape so that the wind flows in the same direction as the rotational direction, thereby continuously rotating the blade 20.

In addition, the blade 20 is formed so that both ends are fixed while being coupled to the rotary shaft 11, the central portion in the longitudinal direction is located at the position farthest from the rotary shaft 11, both ends are the It is made of a form fixed to the rotary shaft (11).

At this time, the longitudinal center portion of the blade 20 is supported by both sides, in detail by the portion coupled to the rotating shaft 11 has the advantage that the structural safety is improved.

In addition, both ends of the blade 20 are combined with the rotation shaft 11 so that the rotation shaft 11 and the blade 20 form a closed curve. While the blade 20 is formed in the shape of a closed curve, both ends of the blade 20 are fixed, thereby improving structural safety.

On the other hand, Figure 4 is a graph showing the correlation between the rotational speed and the wind speed of the blade according to the present invention. This is a graph showing the results of the wind tunnel experiment at the Institute of Industrial Technology.

Referring to FIG. 4, the rotation speed of the blade 20 also increases as the wind speed increases according to the shape of the blade 20 formed in the form of a closed curve. In detail, when the wind speed has a speed of 5 meters per second, the blade 20 is rotated to have a rotational speed of approximately 200 rpm (rpm).

And, if the wind speed is doubled to have a speed of 10 meters per second, the blade 20 is rotated with a rotational speed of approximately 450 rpm (rpm).

In addition, if the wind speed has a speed of 15 meters per second, the blade 20 is rotated to have a rotational speed of approximately 500rpm (rpm).

Looking at this, if the wind speed is increased from the speed of 5 meters per second to the speed of 10 meters per second, the blade 20 is to increase the rotational movement from approximately 200 to 450 alpha PM.

At this time, if the wind speed is increased at a speed of 15 meters per second, the blade 20 is increased to approximately 500 alpha to rotate the movement.

As such, when the wind speed is increased at a speed of 15 meters per second, the blade 20 is increased to approximately 500 LPM and rotates.

Therefore, if the wind speed increases above the speed of 15 meters per second, the graph showing the rotational speed of the blade 20 is more gentle while the rate of increase in the rotational speed of the blade 20 is reduced.

This is because the blade 20 has a closed curve, and both ends of the longitudinal direction are coupled to the rotating shaft 11, so that the blade 20 is located in a relatively forward portion and a rear portion. Is formed.

At this time, while the portion positioned in the front and the portion positioned in the rear relatively interfere with each other, when the wind speed increases over a certain wind speed, the rotation speed of the blade 20 itself lowers.

As such, when the wind speed is increased above a certain wind speed, the rotation speed is lowered by the shape of the blade 20, thereby preventing the congestion of the blade 20 due to excessive rotational movement. To have.

In other words, while the blade 20 is congested by a high wind speed of more than a certain wind speed, damage to the blade 20 is generated. In order to prevent this, by providing a separate device to reduce the rotational speed of the blade 20 during the runaway of the blade 20.

In the blade 20 according to the present invention, even if a portion located in the first half and a portion located in the second half relatively interfere with each other, even if the wind speed is faster than a certain wind speed, the blade 20 is not provided with a separate device. ) Has the advantage that the number of revolutions does not increase above a certain number of revolutions.

That is, the blade 20 has a magnetic deceleration function. As a result, damage to the blade 20 is prevented, and a separate deceleration device is not required, thereby improving productivity and assemblability.

According to the wind power generator according to the present invention configured as described above, there is provided an air guide for guiding flowing wind, a plurality of blades having a curvature in the same direction as the rotation direction, the blade has a closed curve on the rotation axis It will have a configuration to combine so that.

The wind power generator according to the present invention has the effect of reducing the vortex between the blades and the vibration of the blade, has the effect of improving the rotational efficiency.

The wind power generator according to the present invention having such an effect will be highly applicable to the industry for producing electrical energy.

10. Rotating unit 11. Rotating shaft
12. Hub 20. Blade
21. Air guide 30. Power generation unit
31. Gearbox 32. Generator
50. Support Unit

Claims (13)

A plurality of blades having a curvature in the direction of rotational movement by the wind flowing along the air guide for guiding the flowing wind, the blade is coupled to have a closed curve at different points on the same axis, and the rotational movement of the blade A rotating unit having a central axis rotated by;
A power generation unit for generating electricity by converting rotational kinetic energy of the rotation unit into electric energy; And
A support unit for supporting the power generation unit; Wind power generator is configured to include. The method of claim 1,
The air guide is integrally formed on the front surface of the blade. The method of claim 1,
One end portion of the blade is fixed to the first half of the central shaft coupled to, and the other end is coupled to the second half of the central shaft fixed to form a wind turbine. The method of claim 1,
The air guide is a wind power generation device consisting of a groove formed recessed rear from the front of the blade. The method of claim 1,
The blade is a wind turbine generator having a curved shape having a curvature in the rotational direction of the rotational movement by the wind. A support unit supported on the ground;
A power generation unit which is supported by the support unit and converts rotational kinetic energy into electric energy to generate electric energy; And
Located in front of the power unit is coupled to the power unit and the shaft, a rotation unit that includes a rotary movement by the flow of wind is included,
The rotating unit,
A rotating shaft coupled to the power generating unit; And
An air guide for guiding the flow of wind flowing from the front of the rotating shaft to the rear, and a blade for rotating by the air guided by the air guide; Wind power generator is configured to include. The method according to claim 6,
The air guide is a wind power generation device consisting of a groove formed recessed rearward in front of the blade. The method according to claim 6,
The blade is fixed to one end is coupled to the first half of the rotary shaft, the other end is fixed to the second half of the rotary shaft fixed. The method according to claim 6,
The blade is a wind turbine generator configured to be away from the rotation axis while having a curvature in the same direction as the rotation direction. The method according to claim 6,
The blade is a wind turbine generator is coupled to the axis of rotation is located on the same axis. A blade having an air guide for guiding the flow of air flowing in front of at least one surface thereof, and a rotating shaft having both ends of the blade fixed at different points on the same axis while being rotated by the rotation of the blade; Rotating unit;
A power generation unit for converting rotational kinetic energy of the rotation unit into electrical energy; And
A support unit for supporting the rotation unit and the power generation unit; Wind power generator is configured to include. The method of claim 11,
The blade is a wind turbine is the air guide is formed at a portion located at least relatively forward. The method of claim 11,
The air guide is integrally formed with the blade while the central portion in the longitudinal direction of the blade is recessed to the rear.

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