KR100426609B1 - A fan for a wind-dynamotor - Google Patents

Abstract

The present invention relates to a wing of a wind turbine, and in particular, when the wind is in the forward direction, the wind is upright to meet the maximum wind, and in the reverse direction to rotate in that direction to minimize the resistance of the wind to form a wing of the wind power Maximize the efficiency and install the wing pivotally at the lower part of the wing to prevent damage of the wind turbine blades by minimizing the wind resistance when the wind is hit by strong winds such as typhoons. To the wings of a wind turbine.

The wing applied to the conventional wind generator has an impeller-type structure having a structure such as a propeller or a windmill or having a plurality of wings vertically concave around the vertical axis.

However, a wing of a structure such as a propeller or a wind power generator has a disadvantage in that a large amount of wind is lost because the blade is pushed and rotated as the wind passes through the slope, and the impeller-type wing has a concave wing that is formed by concave when the wind is hit. It is efficient because it can receive the wind, but when the wind is back, the wing still receives a lot of resistance, there was a problem that the wind energy is lost.

In addition, each wing has a fixed shape on the shaft, so when a strong wind such as a typhoon can not easily overcome the force can be damaged.

Accordingly, the present invention has a plurality of transverse shafts 11 which are radially horizontally arranged on top of the vertical shaft 10, and vertical vanes 20 are installed at the ends of the transverse shafts 11 so as to be rotated by wind power. In the blade of the wind power generator that operates the generator through the power transmission device for rotational force, the blade 20 is pivotally coupled up and down the horizontal axis 11 end so that the center of gravity is located below, the blade 20 ), A plurality of shafts 22 are installed at upper and lower portions of the frame, and a plurality of scale wings 23 longer than the interval of the shaft 22 are rotatably installed.

Description

Wings of Wind Power Generators {A fan for a wind-dynamotor}

The present invention relates to a wing of a wind turbine, and in particular, when the wind is in the forward direction, the wind is upright to meet the maximum wind, and in the reverse direction to rotate in that direction to minimize the resistance of the wind to form a wing of the wind power Maximize the efficiency and install the wing pivotally at the lower part of the wing to prevent damage of the wind turbine blades by minimizing the wind resistance when the wind is hit by strong winds such as typhoons. To the wings of a wind turbine.

In general, efforts are made to secure natural energy, such as solar power, tidal power, and wind power, which are endless and free of pollution, as a means of coping with the depletion of fossil fuels and severe environmental pollution caused by fossil fuels. have.

Since Korea has abundant sunshine and the difference between tides has severe natural conditions, wind power generation is also effective because it has favorable conditions for solar or tidal power generation and rich winds depending on the season. Can be.

Wind power is to generate electricity by operating the generator through the power transmission device to receive the rotational force of the blades rotated by the wind. In order to maximize the efficiency, it is necessary to make maximum use of the wind power without energy loss. It is most important to have.

The wing applied to the conventional wind generator has an impeller-like structure having a structure such as a propeller or a windmill or having a plurality of wings having a vertically concave shape around the vertical axis.

However, a wing of a structure such as a propeller or a wind power generator has a disadvantage in that a large amount of wind is lost because the blade is pushed and rotated as the wind passes through the slope, and the impeller-type wing has a concave wing that is formed by concave when the wind is hit. It is efficient because it can receive the wind, but when backing the wind to return to the wind direction, there was a problem that still receives a lot of wind resistance to lower the ashing force.

In addition, since the wind turbine blades are fixed to the shaft, when a strong wind such as a typhoon does not overcome its force, there is a fear that it is easily broken.

The present invention has been devised to solve such a conventional closed end, the object of which is to upright when the wind is in the forward direction to meet the maximum wind, and in the reverse direction to minimize the resistance of the wind by rotating in compliance with the wind By constructing a number of scale wings to form a wing to maximize the efficiency of wind power, and the wings are installed rotatably while positioning the center of gravity at the bottom, when the strong winds, such as typhoon, when rotated in the direction to comply with the wind It is to provide a wind turbine blade that prevents damage to the wind turbine blade by minimizing wind resistance.

1 is a perspective view of the wind turbine wing of the present invention

Figure 2a, 2b is a scale wing operating state of Figure 1 wing

3 is a wing operating state of the present invention.

Figure 4a, 4b is a structural diagram of the stopper installed on the wing of the present invention

5 is a structural diagram of a state in which the wing of the present invention is supported on the rail

*** Explanation of symbols for the main parts of the drawing ***

10-shaft 11-horizontal 12-'U' shaped support frame

20-Wings 21-Wings Frame 22-Shafts

23-Scalewing 30-Stopper 31-Bracket

32-Actuation 33-Spring 34-Return spring

40-rail 41-support roller 42-small generator

43-wires

Wing of the wind power generator of the present invention for achieving the above object,

In the blade of the wind power generator having a plurality of transverse axis radially horizontally on top of the vertically erected shafts, vertical wings are installed at the ends of the transverse shafts to operate the generator through the power transmission device when rotating by the wind power. ,

The wings are pivotally rotatable up and down the horizontal axis end so that the center of gravity is located at the bottom,

The inside of the wing is provided by installing a plurality of shafts in the upper and lower parts of the frame to install a plurality of rotatable wings of a length longer than the interval of the shaft.

These wind turbine blades are installed vertically in the wind in the forward direction of the wind to stand vertically to receive the maximum wind, the reverse wind in the direction of the wind to maximize the wind energy efficiency and In the case of strong winds above the limit, such as typhoons, the wing itself rotates in a direction that adapts to the wind, thereby minimizing wind resistance, thereby reducing damage to the wind turbine.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of the wind turbine blade of the present invention, Figures 2a, 2b is a view of the operating scale of the wing of Figure 1, Figure 3 is a view of the wing operating state of the present invention.

It has a plurality of horizontal axis 11 radially horizontally arranged on the upper part of the vertical axis 10, the vertical wing 20 is installed at the end of the horizontal axis 11 to transmit power by the rotational force when rotating by wind power In a wind turbine that runs a generator through a device,

The blade 20 extends and bends an end portion of the horizontal axis 11 in a 'U' shape to form a 'U' type support frame 12, which is axially coupled to be rotatable vertically. And the wing 20 is installed so that the center of gravity is located at the lower side always upright unless a large force is applied. If necessary, the stopper 30 to be rotated only when a strong wind such as a typhoon may be installed in the 'U' type support frame 12.

The wing 20 described above has a wing frame 21 in the shape of a wing 20, a plurality of shafts 22 provided at regular intervals on the inside and the bottom of the wing frame 21, and each shaft 22 on the periphery. It consists of the scale blades 23 which are rotatably installed.

The scale wings 23 have a length longer than the interval between the upper and lower shafts 22, and are rotatably arranged on each shaft 22 like the scales of fish. This is to receive the wind efficiently, the free end of each scale wing 23 is capable of rotating forward to be located in front of the lower shaft 22, but in the reverse direction is not rotated by the shaft 22 structure It is.

The wind turbine blades 20 of the present invention having such a structure is provided with the scale wings 23 installed on the blades 20 facing the wind when the wind blows, so that the lower end is supported by the lower shaft 22 and is fixed to FIGS. Since they stay vertically upright, they receive maximum wind resistance.

On the contrary, the scale blades 23 installed on the opposite wing 20 returning to the windy position are rotated in a direction that conforms to the wind as shown in FIG.

By this operation, the wing 20 of the wind power generator can use the power of the wind as much as possible, and the wing 20 returning to the wind is minimized because the wind resistance is minimized, so that it responds to the breeze and rotates. Wind energy efficiency can be maximized. This will soon increase the amount of power generated.

If a strong wind such as a typhoon blows, in response to the wind as shown in FIG. 3, the wing 20 is rotated to the rear side, thereby simply flowing a large amount of wind to reduce the resistance. Therefore, an excessive force does not act on the wing 20, there is an effect that is safely maintained in strong winds such as typhoons.

On the other hand, while the wing 20 can be safely maintained even in strong winds, the stopper 30 can be additionally installed to increase the utilization rate of the wind.

The stopper 30 installs the bracket 31 at the lower end of the 'U'-shaped support frame 12, and protrudes to the rear side of the wing 20 so that the rotational movement is freely established and the bracket ( It is elastically installed in 31) consists of a spring 33 for applying the elastic force so as not to rotate to the rear until the operating port 32 is applied beyond the limit and a return spring 34 to return to its original position when rotating forward have. At this time, the spring is predicted the strength of each part according to the wind in advance, the tension is adjusted to suit the strength, and the return spring 34 is to have a weak tension enough to simply return the operating port (32) have.

When the strong wind (that is, the wind speed above the tension of the set spring 33) is blown above the limit by this structure, the stopper 30 is flipped to the rear side by the rotational force of the blade 20, so that the wing 20 Direction to reduce resistance as much as possible. Therefore, damage or breakage due to excessive rotation of the blade 20 can be prevented.

However, if the wind speed below the limit does not rotate at all, most of the wind can be converted into the rotational force of the wing (20).

The stopper 30 having such a complicated structure may be simply composed of a magnet.

On the other hand, since the torque increases as the blade | wing 20 increases in size, power generation efficiency can be improved. However, when the wing 20 is enlarged, the load is increased in proportion to this, so that the strength of each wing 20 frame or the horizontal axis 11 and the like should be increased. However, this results in an increase in load and thus a loss of rotational force.

In addition, if the size of the wing 20 is enlarged, the strength of the other part is reduced, so that the desired torque can be safely obtained by reinforcing it.

In order to enable this, as shown in FIG. 5, rails 40 and 26 are formed on the ground to coincide with the rotational trajectory of the wing 20, and the rail 40 is supported under the 'U' shaped support frame 12. The supporting roller 41 is installed to support the load.

Since the wing 20 is supported and rotated by the rail 40 by such a structure, the rail 40 supports the load even if the size of the wing 20 increases, so that the wing frame 21 or the transverse shaft 11 or the like is provided. Since it is not necessary to reinforce the strength in proportion to the wing 20 in proportion to the force, a large torque can be obtained by reducing the weight.

On the other hand, if the small generator 42 that rotates by receiving the rotational force of the support roller 41 in the lower portion of the 'U' shaped support frame 12 has an effect that can further improve the power generation efficiency.

Electricity of the small generator 42 at this time can install the electric wire 43 in the rail 40, and can collect the electricity generated through the electric wire 43.

As described above, according to the wing of the wind power generator of the present invention, the plurality of scale wings installed in the wing are upright when the wind is in the forward direction to receive the maximum wind, and in the reverse direction, the wind is rotated in a direction that conforms to the wind. It has the advantage of maximizing the efficiency of use of wind power, and it is installed so that the wing has a center of gravity at the bottom and it is equipped with a stopper that rotates when the force is applied above the limit. When hit, it is effective to prevent the wind turbine blade from being damaged by excessive force by minimizing the resistance of the wind by turning away from the stopper and acclimating to the wind.

Claims (6)

It has a plurality of transverse shafts 11 which are radially horizontally arranged on top of the vertical shaft 10, and vertical vanes 20 are installed at the ends of the transverse shafts 11 to transmit the rotational force when rotating by wind power. In the wing of a wind turbine for driving a generator through a device, The wing 20 is installed in the 'U' shaped support frame 12 for supporting the wing 20 at the end of the horizontal axis 11, while being axially coupled to rotate in the 'U' shaped support frame 12 The center of gravity is located at the bottom, In the wing 20, a plurality of shafts 22 are installed on the upper and lower portions of the wing frame 21, and a plurality of scale wings 23 longer than the interval of the shaft 22 are rotatably installed. A wing of the wind turbine characterized by the above-mentioned. delete The method of claim 1, wherein the rail 40 is formed on the ground coincides with the rotational trajectory of the blade 20, and the rail 40 is supported under the 'U' shaped support frame for supporting the blade 20. Wing of the wind turbine, characterized in that the support roller 41 is installed. 4. The wing of a wind turbine according to claim 3, wherein a small generator (42) is installed at a lower portion of the 'U' shaped support frame (12) to rotate and receive rotational force of the support roller (41). The wind turbine of claim 1, wherein a stopper 30 is provided between the lower portion of the wing 20 and the U-shaped support frame 12 to free the wing 20 when a strong wind blows above a limit. Wings of the generator. 6. The wing of a wind turbine according to claim 5, wherein the stopper (30) is a magnet.