KR20100116756A - A blade for wind power generator - Google Patents

Abstract

PURPOSE: A blade for wind power generator, which minimizes the dispersion of wind by mounting an air compressing part in front of a blade, is provided to reduce the resistance of the rear side of a blade since the force of wind and air is demoralized. CONSTITUTION: A wing(1) forms an opened front part. A U-formed rear part is formed on the rear side of a cut front part. A front face(10) combined in the rear part is formed. A plurality of grooves(11) combined in the front side is formed. An air compression place combined in groove is formed. A combined backside surface(20) is formed on the rear side of the air compression place.

Description

Blade for wind power generator {a blade for wind power generator}

The present invention relates to a wind turbine blade, and more particularly, the front surface of the blade comprises a plurality of grooves in which the air compression chamber is configured to maximize the compression of the air, the back of the wing is combined with the vortex phenomenon space The present invention relates to a wind turbine blade configured to further reduce the resistance of the back of the wing by using a vortex phenomenon generated at the same time by dispersing air by hitting the end of the protrusion by configuring a plurality of protrusions.

In general, a wind turbine is a rotor that combines one or more blades to generate electric energy by generating a generator coupled to the rotor by using the wind to obtain a rotational force, the front surface of the blade constituting the rotor is blown from the front The back of the wing while giving a rotational force of the rotor while being pushed back by the wind at the same time there was a problem that the rotational force is hampered by the resistance of the air on the back of the wing and the resistance of the wind blowing from the front.

Recognizing this problem, in recent years, the rotor is composed of a wing having an air inlet and an outlet to increase the air compression. However, at low wind speeds, the air is dispersed in a plane shape in front of the wing, The disadvantages of lowering the compression rate and the resistance of the air behind the wing and the wind blowing from the front as the rotor rotates still exist.

In addition, in order to reduce the resistance of the back of the wing due to the wind blowing from the front, a rotor having a low air resistance coefficient of "U" shape or a blade applied with the optimum angle of resistance has been developed, but this also reduces the resistance of the back of the wing. As the rotor rotates, the resistance of the air behind the wing and the wind blowing from the front still exist.

Therefore, in the present invention, the front surface of the "U" -shaped wing configured in the rotating body constitutes a plurality of grooves in which the air compression chamber is combined to maximize the compression of the air while reducing the dispersion of the air, and at the same time the rotating body To reduce the resistance of the air on the back of the wing and the wind blowing from the front, it consists of a number of protrusions that combine the space of the vortex on the back of the wing. It is an object of the present invention to provide a wind turbine blade for lowering the resistance coefficient of the back of the wing by using the vortex phenomenon generated while being dispersed while being bumped.

The configuration of the present invention forms a front part of the opening, forms a rear portion of the "U" shape that is configured to be coupled behind the front part of the opening, forms a front surface coupled to the rear portion, and a plurality of grooves configured to be coupled to the front surface And forming an air compression chamber coupled to the groove, forming a back surface coupled to the rear of the air compression chamber, forming a plurality of protrusions coupled to the rear surface, and forming a vortex space next to the protrusion. It is characterized in that the combination is configured to provide a wind turbine blade.

In addition, the rear part is characterized by consisting of a "U" form, a "V" form, an angled "I" form, a semi-spherical form, and an "S" form.

In addition, the blade is characterized in that the coupling is made of a vertical axis wind turbine generator.

In addition, the blade is characterized in that the coupling is made of a horizontal axis wind turbine generator.

By combining the wind turbine blade of the present invention with the rotor of the wind turbine, by the air compression chamber is configured on the front of the wing is a conventional wing front and the effect of minimizing wind dispersion due to the plane is a common wing The effect of reducing the size of the cross-sectional area and the effect of maximizing the compression of air can be obtained, and a plurality of protrusions formed on the back of the wing are rotated by the rotor to face the air on the back of the wing and the back of the wing. As the wind hits the projections, air and wind are dispersed while the air and wind force are lowered to obtain the effect of reducing the resistance of the back of the wing. It is effective to produce electric energy as generator is developed by supplying to So it will bring a very useful effect while the effect is sustainable renewable alternative energy industry.

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

1 is a front view showing a wind power generator configured by combining at least one wind turbine blade of the present invention, Figure 2 is a cross-sectional view showing a wind power generator configured by combining the wind turbine blades of the present invention, Figure 3 is the present invention Figure 4 is a side view showing a wind turbine blade of the present invention, Figure 4 is a perspective view showing various forms of the wind turbine blade of the present invention, Figure 5 is an explanatory view showing the effect of the wind turbine blade of the present invention, FIG. 6 is a perspective view showing another embodiment in which the wind turbine blade of the present invention is coupled to a wind turbine in the vertical axis form, and FIG. 7 is another embodiment in which the wind turbine blade of the present invention is coupled to the wind turbine in the horizontal axis form. Perspective view.

1 to 7, in the wind turbine blade 1 of the present invention, the blade 1 forms an open front portion 12, and is configured to be coupled behind the open front portion 12. " U " Form the back portion 23 of the form 15, form the front surface 10 that is configured to be coupled to the rear portion 23, and form the plurality of grooves 11 that are coupled to the front surface 10, A plurality of protrusions are formed to form an air compression chamber 13 coupled to the groove 11, and a back side 20 coupled to the back of the air compression chamber 13, and coupled to the back side 20. (21) is formed, characterized in that the space 22 of the vortex phenomenon is configured to be coupled to the projection (21).

In addition, the rear part 23 has a "U" shape 15, a "V" shape 16, an angled "I" shape 18, a semispherical shape 17, and an "S" shape (not shown). Characterized in that consists of.

In addition, the blade (1) is characterized in that it is made by coupling to the wind generator 100 of the vertical axis form.

In addition, the blade (1) is characterized in that it is made by coupling to the wind generator 200 of the horizontal axis form.

Looking at the effect of the wind turbine blade of the present invention configured as described above are as follows.

First, looking at the effect of the combination of the blade (1) to the wind turbine 100 of the vertical axis form, the wind turbine 100 of the vertical axis form is typically a rotor (b) in any direction blows wind (W) 40 has the advantage of obtaining a rotational force, at this time the wind (W) blowing in the rotational direction to the rotor 40 enters the open front portion 12, the rear portion 23 of the "U" shape 15 It is possible to obtain the effect of pushing the front surface 10 that is coupled to the "U" form 15 by increasing the length of the rear portion 23 of the vertical portion than the size of the horizontal to efficiently the wind speed by the "wind change altitude table" The effect that can be used can be obtained.

By configuring the front surface 10 is composed of a plurality of grooves 11 are coupled to the air compression chamber 13, the front surface 10 according to the present invention if there is a problem that the wind is dispersed by a conventional front surface of the plane is By the plurality of grooves 11 having the air compression chamber 13 coupled to each other, the effect of minimizing wind dispersion and reducing the size of a conventional wing cross-sectional area and the effect of maximizing air compression can be obtained.

By constructing a plurality of projections 21, the vortex vortex space 22 is configured to combine the rear surface 20, the back of the normal wing is made of a plane of the resistance of the air on the back of the wing and the resistance of the wind blowing from the front If there was a problem, the rear surface 20 according to the present invention is rotated by the plurality of protrusions 21 configured by the vortex development space 22 and the rotor 40 rotates with air in the rear surface 20 of the wings 1. As the wind (W) facing the rear surface 20 of the wing (1) strikes the protrusion 21, the air and the wind (W) are dispersed, the force of the air and the wind (W) is lowered and at the same time the vortex-shaped space Vortex phenomena are generated in (22) to obtain the effect of reducing the resistance of the back surface 20 of the wing (1) by pushing the air and the wind blowing from the front of the wing (1) back (20) .

Therefore, the resistance of the rear surface 20 of the wing 1 is lowered and the air compression of the front surface 10 of the wing 1 is increased, so that the rotational force of the rotor 40 can be maximized.

When manufacturing the wing (1), if the air compression chamber 13 is composed of a plurality of grooves 11 are coupled to the front surface 10, the air compression chamber 13 is coupled to the plurality of grooves 11 As it protrudes backwards, a plurality of protrusions 21 configured to combine the space 22 of the vortex phenomenon is naturally formed on the rear surface 20, and the back of the air compression chamber 13 configured in the front surface 10 is the rear surface ( It is a convenient manufacturing method used as the processus | protrusion 21 of 20).

In addition, the rear part 23 has a "U" shape 15, a "V" shape 16, an angled "I" shape 18, a semispherical shape 17, and an "S" shape (not shown). The front wind 10 of the "U" form 15, the semi-spherical form 17 or the "V" form 16 by the front wind 12 blowing from the front (W) is characterized in that consisting of The air compression of the air compression chamber (13), which is collected and coupled to the plurality of grooves (11), can be further maximized.

The angled " I " form 18 and the " S " form (not shown) are blown from the front by forming an angle and a curve in the rotational direction of the rotating body 40 to be coupled to the shaft 32 of the rotating body 40. By the air compression of the air compression chamber 13, the coming wind is coupled to the plurality of grooves 11, the rotational force of the rotor 40 is further maximized and at the same time the angle (1) and the back of the blade (1) The resistance of 20 may be further reduced due to the plurality of protrusions 21 in which the space 22 of the vortex phenomenon is coupled to the rear surface 20.

The shape of the wing 1 is "U" form 15, "V" form 16, angled "I" form 18, semi-spherical form 17, "S" form (not shown) By doing so, there is an effect that the wings 1 of the wind turbine generator 100 in the vertical axis shape can be made in various designs.

In addition, the blade (1) is characterized in that it is configured to be coupled to the wind turbine 100 of the vertical axis form, the maximum advantage of the wind turbine 100 of the vertical axis form that can be used in any direction wind (W) At the same time, using the vortex phenomena generated by the protrusions 21 coupled to the back side 20, the resistance of the back side 20, which is the biggest disadvantage of the wind turbine generator 100 in the vertical axis form ( 1) by minimizing the resistance of the rear surface 20 has the effect of maximizing the rotational force of the rotating body 40, by using the rotational force of the rotating body 40 coupled to the rotating body 40 As electricity 50 is generated, an effect of obtaining electrical energy can be obtained.

When the blade 1 is coupled to the wind turbine generator 100 having a vertical shaft shape, a central shaft 51 coupled with the generator 50 is formed, and the rotating body 40 coupled with the central shaft 51 is formed. ); The rotating body 40 forms a covering 31 coupled with the central axis 51, forms three or more shafts 32 coupled with the covering 31, and the shaft 32 of the shaft 32. Two or more cables 33 are formed on the upper and lower ends, and the cable 33 and the blade 1 are formed to be coupled.

In addition, the blade (1) is characterized in that it is configured to be coupled to the wind turbine 200 of the horizontal axis form, the wind turbine 200 of the horizontal axis form, unlike the wind generator 100 of the vertical axis form wing (2) When the rotor 41 rotates more than the resistance on the back side, the tip 201 of the blade 2 should rotate while cutting the air below the tip 201 and the wind blowing from the front. A resistance is generated at the end portion 201 and a plurality of protrusions 21 and the vortex development space 22 at the end portion 201 of the blade 2 in the rotational direction 202 of the rotor 41 to reduce the resistance. By dispersing the air and the wind (W) under the wing (2) end portion 201 by the protrusion 21 is reduced the force of the wind, the vortex phenomenon in the vortex-shaped space 22 It can be generated to obtain an effect that can maximize the rotational force of the rotating body (41).

In addition, the blade (1) is not limited to the wind turbine, it can also be configured as a wing of the tidal generator using the difference between tidal and hydroelectric generator using the flowing water, the rotor in the tidal generator and the hydroelectric generator The water 40 flowing from the front by the plurality of grooves 11 having the air compression chamber 13 coupled to the front surface 10 of the blade 1 is not dispersed in the front surface 10 of the blade 1. There is an effect that the force to push back the blade (1) without having to increase, by the plurality of projections (21) coupled to the vortex-shaped space 22 on the back (20) of the wing (1) 1) The wing (1) according to the present invention in the tidal generator using the difference between the tidal wave and the hydroelectric generator using the flowing water can be obtained by reducing the resistance of the water on the back and the water flowing down the front. Rotational force of the rotating body 40 configured to combine Capable of dialogue can achieve the effect.

As described above, the present invention has been described with reference to the embodiments in the drawings, but this is only an example, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1 is a front view showing a wind turbine comprising a combination of one or more wind turbine blades of the present invention.

Figure 2 is a cross-sectional view showing a wind turbine with a combined configuration for the wind turbine blade of the present invention.

Figure 3 is a side view showing a wind turbine blade of the present invention.

Figure 4 is a perspective view showing various forms of the wind turbine blade of the present invention.

Figure 5 is an explanatory diagram showing the effect of the wind turbine blade of the present invention.

Figure 6 is a perspective view showing another embodiment in which the wind turbine blade of the present invention coupled to the wind turbine of the vertical axis form.

7 is a perspective view showing another embodiment in which the wind turbine blade of the present invention is coupled to the wind turbine of the horizontal axis type configuration

Claims (6)

Forming the front part of the front, forming a rear portion of the "U" shape that is configured behind the front part of the open, forming the front surface is configured in front of the rear portion, characterized in that the back side is made of a combination behind the front wing. The method of claim 1, The rear portion is a wind turbine blade, characterized in that the "U" shape, "V" shape, angled "I" shape, semi-spherical shape, "S" shape. The method of claim 1, The front surface of the wind turbine blade, characterized in that consisting of a plurality of grooves are configured to combine the air compression chamber. The method of claim 1, The back of the wind turbine blade, characterized in that consisting of a plurality of projections are configured to combine the space of the vortex phenomenon. The method of claim 1, The wind turbine blades, characterized in that the blade is configured by coupling to the wind turbine of the vertical axis form. The method of claim 1, The wind turbine blade, characterized in that the blade is configured by coupling to the wind turbine of the horizontal axis form.

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