KR100897164B1 - A blade for wind power generator - Google Patents

Abstract

The present invention relates to a blade for a wind turbine generator which utilizes the action and reaction of a wind direction to increase the centrifugal force and increase the air density in the inside of the wind turbine, and more particularly, As a result of this, the wind direction with accelerated acceleration is increased while the centrifugal force is increased while the accelerated wind direction is entered into the large dust collecting device, the wind direction accelerated through the large dust collecting device is further collected by the rear wind direction collecting plate through the small dust collecting device, And a propelling force is increased by action and reaction generated when the wind direction collected by the wind direction collecting plate and the wind direction having a high density are extracted to the wind direction outlet port and a curve shape And a rear surface Wind power will be appointed on the wings.

The present invention provides the wind turbine generator of the present invention with the vertical axis type wind turbine generating electricity by using the wind direction and has the effect of producing the electric energy. Since it is the pollution free resource development, it has the effect of being environmentally friendly, .

The front, the large dust collector, the small dust collector, the wind direction collecting plate, the wind direction outlet, the curved rear surface,

Description

A blade for wind power generator

The present invention relates to a blade for a wind turbine generator which utilizes the action and reaction of a wind direction to increase the centrifugal force and increase the air density in the inside of the wind turbine, and more particularly, The wind direction of the wind from the front is collected by the large dust collecting device and becomes a large amount of wind direction so as to be changed to a higher wind speed than the wind direction of the wind direction from the front and to swing the right end portion of the rear surface, The wind direction is increased by centrifugal force when the wind turbine rotating body rotates by the large dust collecting device and then collected again by the small dust collecting device and the dust collecting device connected to the small dust collecting device So as to increase the air density inside the wing, And a rear surface of the curved shape capable of reducing the resistance of the rear surface of the wing behind the wind direction discharge outlet so as to increase the rotational force when the wind power generator rotating body rotates due to the action and reaction generated when the high- The present invention relates to a wing for a wind turbine generator.

Generally, the blades that are coupled to the wind turbine rotor have a problem in that the wind can not collect the wind direction in the wing itself so that the wind may flow to the outside of the wing at the low wind speed of less than 3 m / sec, , The centrifugal force is increased while the rotating body rotates, but the wind direction directly affects the rotor blades, so that the centrifugal force can not be increased. The wider blade section can have a high generating capacity, There is a problem that can not be obtained. After the wing is operated by the wind direction blowing from the front, the wind direction is directly flowed to the outside of the wing, and there is a problem that the wind direction is used once and the wind direction which exits to the wing out is the principle of action and reaction And the rotor does not increase the propulsive force during rotation The power generation efficiency drops due to the resistance of the wind direction to the back of the wing at a high wind speed of 3 m / sec or more per second, and the rotation force of the rotating body is too high at a wind speed of 25 m / sec or more per second. There is an uneasy problem.
Conventionally, a wind turbine of a horizontal axis type has been developed in Shinanpyeong, No. 02-147872 (Dec. 14, 1990) in Japan, and the blade of the wind turbine constructed as described above is peeled off so as to use a part of the wind direction blowing in front of the blade (Holes) are formed on the front surface of the blades so as to allow air to flow thereinto. This has the problem that a suction slot (hole) is formed on the front surface of the blade to use only a part of the wind direction from the front, The wind direction inside the wing through the suction slot (hole) is pulled out of the wing by the discharge nozzle shown only in the figure, so that the rotating power of the wind power generator can increase the propulsive force when rotating, There is a problem that the centrifugal force can not be increased so that the rotating body of the wind turbine can rotate, There is a problem in that it is not possible to have a high generating capacity while having a narrow cross-sectional area, and a frame provided inside the wing is not equipped with a more positive use of the wind direction as a frame for safety of the wing at the time of manufacturing the wing And is limited to the range limited to the horizontal axis wind turbine generator.
Japanese Unexamined Patent Publication (Kokai) No. 17-248935 (2005.09.15) has been developed for a wind turbine in the form of a vertical axis, and the wing of the wind turbine constructed as above has a main wing and a sub wing in a vertical axis wind power generator The U-shaped water-receiving portion with the water-filled portion maximizing the air pressure in the water-filled portion has the upper and lower ends of the water-filled portion opened, and only the main wing is connected to the center of the U- There is a problem that it is not possible to maximize the air pressure although it is possible to assist the rotation force of the wing due to the absence of the internal space to be in the water supply portion for a short time by riding on the main wing, Although it can help the rotational force, it also maximizes the collection of the air pressure and the wind direction because there is no internal space where the wind direction is concentrated. There is a problem that there is a problem that there is a problem that the U-shaped back of the water receptacle and the rear side of the main wing are aligned with the wind direction from the front, which is a combination of the main wings coupled to the water- There is a problem of resistance, and there is a problem that the wind direction is used once as in a general wind power generator.

Therefore, the present invention is a wing, which is one of the main components of a wind power generator capable of producing electric energy using a wind direction, and the wing should be able to apply the principle of centrifugal force by using a wind direction, In order to maximize the power generation capacity by reducing the cross-sectional area of the wing, the wing should be capable of increasing the air density, And the wing should be able to minimize the resistance of the rear side. The wing is not finished using the wind direction at once even though the rotor rotates even at a low wind speed of 3 m / sec or less, And the wing is made to be used in front of the wing, The wind turbine is configured to use the entire wind direction that does not flow to the outside of the wing while the wind direction does not flow to the outside of the wing, The purpose of the wing is to provide.

The configuration of the present invention is characterized in that the upper housing is formed, a right front face coupled to the front right side of the upper housing is formed, a lower housing coupled to the rear lower side of the right front face is formed, Wherein at least one of the wind direction collecting plates is coupled to the right side of the wind direction outlet and one or more wind direction collecting plates are formed at the left end of the wind direction collecting plate, Wherein the dust collecting device is formed in front of the small dust collecting device and the front surface giving an angle of 15 degrees or more in the back surface direction is combined with the dust collecting device.

In addition, when two or more wind direction collecting plates coupled to the right side of the wind direction outlet are formed and at least one small dust collecting device coupled to the right side of the wind direction collecting plate is formed, the small dust collecting device is formed to be wide, And is configured to be narrower than that of the small dust collecting device by a half or more.

Further, the present invention is characterized in that the wing is coupled to a vertical wind power generator.

The front surface is coupled to the wind direction outlet, the wind direction collecting plate, and the small dust collecting device at an angle of 15 degrees or more in the rear direction.

The wind turbine blades according to the present invention have the effect of increasing the centrifugal force by the rear right surface of the wind turbine blades while collecting the wind while the front wind blows against the front of the blades. The wind turbine blades increase air density inside the wind turbine blades, There is an effect that action and reaction can be utilized by the wind direction exhaust port and the wind direction collecting plate and the rotating body having a high generating capacity can be made by reducing the cross sectional area of the wing by the wing, It has the effect of producing electric energy by providing it to the vertical axis type wind turbine generating electricity. It is environment-friendly because it is pollution-free resource development and it will have a very useful effect in the renewable and renewable energy industry.

The present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a blade for a wind power generator according to the present invention, FIG. 2 is a perspective view showing a rear surface of a rear surface of a blade for a wind power generator of the present invention, 5 is a view for explaining the operational effect of the blade for a wind power generator of the present invention, and FIG. 6 is a view for explaining the effect of the blade for a wind power generator of the present invention, And FIG.

1 to 6, the present invention is characterized in that an upper housing 27 is formed, a right front face 26 formed to be coupled to a front right side of the upper housing 27 is formed, A lower housing 28 coupled to a rear lower portion of the lower housing 28 and formed with a curved rear face 20 coupled to the rear of the lower housing 28, And at least one small dust collecting device (not shown) connected to the right side of the wind-direction collecting plate 25 and having a wind direction outlet 22, two or more wind direction collecting plates 25 coupled to the right side of the wind direction outlet 22 23 and a front surface 10 is formed on the small dust collecting device 23 at an angle of 15 degrees or more in the direction of the rear surface 20 to form a front surface 10, So that the left end of the large dust collecting device (26) is symmetrical so that the large dust collecting device (21) The present invention provides a wind power generator vane (100) having the following advantages.

There is an effect of entering the inside of the wing 100 without the wind direction blown from the front by the upper housing 27 and the lower housing 28 flowing to the outside of the wing 100, The wind direction does not flow to the outside of the wing 100 but is collected to the right by the front surface 10 giving an angle of 15 degrees or more in the direction of the rear surface 20 and passes through the large dust collector 21, And the centrifugal force is increased even at low wind speeds while striking the curved right side surface of the curved rear surface 20. The curved rear surface 20 constitutes the wind direction of the rear surface 20, The resistance applied to the rear surface of the blade 100 can be minimized while flowing backward along the curves of the rear surface 20 'and' 'bar' 'and' ', 1 or more And the airflow is maximized within the airflow collecting plate 25 as in the case of a wind direction 'A' while the wind direction is discharged from the inside of the blades 100 to the outside, and by the principle of operation and reaction, The wing 100 is provided with two or more wind direction collecting plates 25 which are coupled to the right side of the wind direction outlet 22 so as to reduce the cross sectional area of the wing 100 It is possible to form the wings 100 having a high generating capacity and by forming one or more small dust collectors 23 coupled to the right side of the wind direction collecting plate 25, 23), and the air is collected by the wind direction collecting plate (25) to the wind direction outlet (22), and the density of the air inside the blade (100) is increased to increase the power of the wind direction. And the right end of the front face (10) and the left end of the right front face (26) are symmetrically joined to each other. The front face (10) Dust collecting device 21 with the effect of pushing the front face 10 giving an angle of 15 degrees or more such that the wind direction blowing from the front winds the wind direction 100 to push back the wing 100, The effect of centrifugally pushing the right end a of the rear face 20 as in the case of the wind direction 'I' and having the effect of centrifugal force while pushing the rear face b of the rear face 20 and pushing the wing 100 backward have.

When two or more wind direction collecting plates 25 are coupled to the right side of the wind direction outlet 22 and one or more small dust collectors 23 are coupled to the right side of the wind direction collecting plate 25, The small dust collecting device 23 is formed to be wider than the small dust collecting device 23 and the wind direction discharging opening 22 is configured to be narrower than the small dust collecting device 23 by a factor of two or more. Collecting device 23 is configured such that the wind direction of the wind direction entering the small dust collecting device 23 is smaller than the wind direction of the two or more wind direction collecting devices 23 coupled to the small dust collecting device 23, The airflow collected by the airflow collecting plate 25 is allowed to escape to the outside by the at least one wind direction outlet 22 connected to the airflow collecting plate 25, And the wind direction is high And when the wind direction due to the difference in the wind speeds enters the small dust collecting device 23 through the one large dust collecting device, The wind direction and wind speed can be efficiently utilized by the small dust collectors 23-a and 23-b and the two wind and dust collectors 23-a and 23- And 25-b are combined to maximize collection of the wind direction and the wind direction is collected in the space where the two or more wind direction collecting plates 25-a and 25-b are formed, It is possible to form a rotating body having a high generating capacity while reducing the cross sectional area of the wing by increasing the air density of the wind direction discharge port 22. The large wind direction dust collected by the wind direction collecting plate 25 is transmitted to the wind direction outlet 22, By the narrow space of The air density in the vanes 100 can be maximized by the theory of action and reaction as in the case of the wind direction 'Ma' as the wind speed is increased when the wind speed is high. When the wind speed is high, 22) is changed to a wind speed higher than the wind speed blowing from the front, and a variable wind direction is formed around the central axis, thereby minimizing anxiety of the central axis.

As shown in FIG. 6, the vanes 100 are coupled to the vertical wind turbine generator 200, so that even when the wind direction is generated in any direction of the vertical wind turbine generator 200 There is an effect that the rotational force of the rotating body 201 can be obtained by using the rear face 20 of the curved shape and the rotational force of the rotating body 201 can be maximized without the maximum resistance by the curved rear face 20, 25 can reduce the cross sectional area of the blade 100 and can produce a rotating body having a high generating capacity. The vertical axis type wind turbine generator 200 having the blades 100 coupled thereto can generate electric energy There is an effect that can be produced.

The front surface 10 is formed at an angle of 15 degrees or more in the direction of the rear surface 20 so as to be coupled to the wind direction outlet 22, the wind direction collecting plate 25 and the small dust collecting device 23. [ The front surface 10 has an effect of collecting the airflow blown from the front by the large dust collector 21 without flowing outside the vane 100 and the front surface 20 is rotated 15 degrees toward the rear surface 20 The wing 100 is pushed backward by actively using the principle of action and reaction while changing the direction of wind blowing from the front toward the large dust collecting device 21, Dust collecting device 21 having a smaller cross-sectional area than that of the front surface 10, and the front surface 10 is connected to the wind direction outlet 22 and the wind- Wind direction dust collection The wind direction of the wind from the front face 10 is collected by the large dust collecting device 21 and the wind speed of the rear face 20 is changed to be higher than the wind speed blowing from the front side 10, The wind direction is again picked up by the small dust collecting device 23 connected to the front surface 10 and the wind direction picked up by the small dust collecting device 23 is again transmitted to the wind direction collecting device 25 And the wind direction that maximizes the dust collection by the wind direction collecting plate 25 is discharged to the outside through the wind direction outlet 22. The front surface 10 is combined with the front wind direction, There is an effect that the utilization of the wind direction can be improved by using the coming direction more than once without using it.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1 is a perspective view showing a blade for a wind power generator of the present invention.

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a wind power generator,

3 is a perspective view showing the inside of a wing for a wind power generator of the present invention.

4 is a sectional view showing a blade for a wind power generator of the present invention.

Fig. 5 is an explanatory view showing an action and effect of a blade for a wind power generator of the present invention; Fig.

6 is a perspective view showing another embodiment of a blade for a wind power generator of the present invention.

Claims (4)

A lower housing coupled to a rear lower portion of the right front face, and a rear housing having a curved rear face coupled to the rear housing, the upper housing having a right front face coupled to a front right side of the upper housing, Wherein at least one of the plurality of wind direction collecting plates is formed on the right side of the wind direction collecting plate, and one or more wind direction collecting plates are formed on the right side of the wind direction collecting plate, And a large dust collecting device is provided on the small dust collecting device so as to form a combined front face with an angle of 15 degrees or more in the back face direction so that the right end of the front face and the left end of the right front face are symmetrical, And a blade for a wind power generator. The method according to claim 1, Wherein at least two windward dust collecting plates are formed to be coupled to the right side of the wind direction outlet, and when the at least one small dust collecting device is coupled to the right side of the wind direction collecting plate, the small dust collecting device is formed to be wide, Wherein the blade of the wind turbine generator The method according to claim 1, Wherein the blades are coupled to a wind turbine generator in the form of a vertical shaft. The method according to claim 1, Wherein the front surface is coupled to the wind direction outlet, the wind direction collecting plate, and the small dust collecting device at an angle of 15 degrees or more in the rear direction.

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