KR20130086399A - Emitted into the air inlet into the air to get the torque to get the momentum you have configured the wind turbine rotor blades - Google Patents

Abstract

PURPOSE: A wind power generator with a connection bar is provided to obtain rotational force from incoming air and as the air pushes the blade back and to obtain thrust by not discharging directly. CONSTITUTION: A wind power generator with a connection bar comprises a rotator (1) connected to a central shaft (2) of a power generator. The rotator comprises an air inlet (11), an air passage (30), and an air outlet (21). The air inlet is connected to the front side of a blade having a high resistance coefficient. The air passage is connected to the air inlet. The air outlet is connected to the air passage. The air outlet is connected to the rear surface (20) of the blade.

Description

Wind turbines with rotors gaining torque by inhalation and propulsion by exhausting air {Emitted into the air inlet into the air to get the torque to get the momentum you have configured the wind turbine rotor blades}

The present invention relates to a wind power generator comprising a rotor that obtains rotational force by air suction and propulsion force by discharged air. More specifically, the wind blowing in front of the rotational direction of the rotor is formed on the front of the blade having a high resistance coefficient. Regarding the wind power generator comprising a rotating body that obtains the rotational force and the propulsion force with the discharged air, characterized in that to maximize the propulsion of the rotor while being introduced into the air inlet and discharged to the outlet of the air on the opposite side of the straight line will be.

Wind power generators use the aerodynamic properties of the kinetic energy of the air flow to rotate the rotor and convert it into mechanical energy, which is used to obtain electricity. Therefore, the rotor in the wind turbine is composed of one or more wings to lower the resistance of the rotational force generated by the inflow of air, while obtaining a rotational force by the inflow of air, the air introduced into the front of the wing is a wing There was a problem ending in giving a rotational force of the rotating body while pushing the rear.

Therefore, in the present invention, the air introduced into the front surface of the wing configured in the rotating body pushes the wing backwards to give the rotational force of the rotating body and to obtain the rotational force by the air suction which gives the driving force of the rotating body without being discharged directly into the air discharged. An object of the present invention is to provide a wind turbine comprising a rotating body that obtains propulsion.

The configuration of the present invention comprises a rotating body coupled to the generator central axis; The rotating body includes an air inlet port coupled with a front surface of a wing having a high coefficient of resistance, an air passageway coupled with the air inlet port, an air outlet port coupled with the air passage, and an air outlet port of the air. It provides a wind power generator comprising a rotating body to obtain a rotational force by the air intake, characterized in that the wing and the back of the blade is configured to obtain a propulsion force to the discharged air.

In addition, the movement path of the air is characterized in that the reduction of the air is configured to combine with the large inlet, the reduction of the air and the small discharge port is composed of a combination.

In addition, the air movement path is characterized in that consisting of a cylindrical.

In addition, the cylindrical is characterized in that the spiral.

In addition, in the conventional Savonius type, the support base coupled with the generator central axis, the large inlet port coupled with the support base, the small outlet port coupled with the large suction port, and the small outlet port and at least one semicircular shape The wing is characterized in that the configuration is made.

The wind power generator constituting the rotating body to obtain the rotational force by the air intake of the present invention and the propulsion force to the discharged air, the inlet of the air is combined with the front surface of the blade configured in the rotating body is the air introduced into the front gives the rotational force of the rotating body Instead of being immediately discharged, it is introduced into the inlet of the air, and the air introduced into the inlet of the air is discharged to the outlet of the air configured in the rear side of the rear side which is arranged in a straight line with the front side through the air movement path, thereby improving the driving force of the rotor. It is effective to increase.

Therefore, there is an effect of producing electrical energy by using a wind power generator composed of a rotating body that obtains rotational force by air intake and propulsion force by discharged air according to the present invention. It will have a very useful effect in industry.

1 is a front view showing a wind power generator constituting a rotating body to obtain a rotational force by the air suction of the present invention and the propulsion force to the discharged air.
Figure 2 is a cross-sectional view showing a cylindrical path of the air in the wind power generator constituting a rotating body to obtain a rotational force by the air suction of the present invention and the propulsion force to the discharged air.
Figure 3 is a cross-sectional view showing a spiral path of the air in the wind power generator constituting a rotating body to obtain a rotational force by the air suction of the present invention and the propulsion force to the discharged air.
Figure 4 is a front view showing the movement path of the air by using the support in the Savonius type in the conventional wind turbine generator having a rotating body to obtain a rotational force by the air intake of the present invention and the propulsion force to the discharged air.

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 comprising a rotating body to obtain a rotational force by the air intake of the present invention and the propulsion force to the discharged air, Figure 2 is a rotational force by the air intake of the present invention to obtain the propulsion force to the discharged air 3 is a cross-sectional view showing a cylindrical path of the air in the wind power generator constituting the rotating body, Figure 3 is a flow path of the air in the wind power generator comprising a rotating body to obtain a rotational force by the air intake of the present invention and the propulsion force to the discharged air 4 is a cross-sectional view of the spiral, and FIG. 4 illustrates a movement path of air by using a support for a savonius type in a wind power generator having a rotating body that obtains rotational force by air suction and propulsion force by discharged air of the present invention. One front view.

As shown in Figures 1 to 4, the present invention comprises a rotating body (1) coupled to the generator central axis (2); The rotating body 1 includes an air inlet port 11 coupled to the wing front surface 10 having a high resistance coefficient, an air path 30 coupled to the air inlet port 11, and the air The air outlet 21 is coupled to the moving path 30, and the air outlet 21 and the wing back 20 is configured to be coupled to the air intake, characterized in that the rotational force is obtained and discharged by the air propulsion force It provides a wind turbine comprising a rotating body to obtain.

In addition, the air movement path 30 is characterized in that the reduced air 31 of the air coupled to the large inlet 12 is composed of, and the reduced air 31 and the small outlet 22 of the air combined. It is done.

In addition, the air movement path 30 is characterized in that consisting of a cylindrical (30a).

In addition, the cylindrical (30a) is characterized in that consisting of a spiral (30b).

In addition, in the conventional savonius type 40, the support base 3 which is comprised by the generator central axis 2, the large suction port 12 which is comprised by the support base 3, and the said large suction port ( The cow outlet 22 is configured to be coupled to the 12, characterized in that the cow outlet 22 and the wing 4 of one or more semi-circular shape is configured to be coupled.

Looking at the effect of the wind power generator constituting a rotating body to obtain a rotational force by the air intake of the present invention configured as described above as a driving force discharged air as follows.

The wing front surface 10 of the rotating body 1 has a high resistance coefficient, and air is introduced into the wing front surface 10 to give a rotational force to the rotating body 1, and the wing front surface 10 and The air inlet 11 of the combined air is introduced into the air inlet 11 of the air without being directly discharged to give the rotational force of the rotor 1 is the air introduced to the front surface 10, the air inlet 11 The air introduced into the air is discharged to the air outlet 21 formed in the inside of the back of the wing 20, which is arranged in a straight line with the wing front 10 through the air path 30 of the rotating body (1) It is effective to increase the driving force.

In addition, the air movement path 30 is characterized in that the reduced air 31 of the air coupled to the large inlet 12 is composed of, and the reduced air 31 and the small outlet 22 of the air combined. By doing so, the air introduced into the wing front surface 10 has the effect that a large amount of air can be introduced into the large suction port 12, the air introduced into the large suction port 12 is reduced by the air (31) There is an effect that can be compressed while passing through, and the compressed air in the reduction furnace 31 of the air is discharged to the small cattle outlet 22 has the effect of increasing the pressure and speed of the air.

In addition, the movement path of the air 30 is characterized in that consisting of a cylindrical (30a), there is an effect that the air introduced into the inlet 11 of the air is discharged without resistance to the air outlet 21 of the air.

In addition, the cylindrical shape (30a) is characterized in that consisting of a spiral (30b), the effect that the air introduced into the inlet 11 of the air is discharged without resistance to the outlet 21 of the air, and the rotating body (1) Although the length of) is short with the naked eye, the air path 30 is formed by the spiral 30b, so that the longer the wavelength is in the optical phenomenon of the atmosphere, the stronger the diffraction effect is.

In addition, in the conventional savonius type 40, the support base 3 which is comprised by the generator central axis 2, the large suction port 12 which is comprised by the support base 3, and the said large suction port ( 12, the cattle outlet 22 and the cattle outlet 22 and one or more semi-circular wings 4 are configured to be coupled, so that in the conventional savonius form 40 The front surface 10 of the semi-circular wing 4 has a high coefficient of resistance, and the back surface 20 of the wing 20 is formed in a curved shape with a low resistance coefficient and is completely fixed to the central axis 2 so that air is fixed to the front surface of the wing 10. Although the rotor 1 is rotated and discharged immediately while rotating, the support 2 is coupled to the central axis 2 to have an air flow, and the air is freed by the support 2. The air flowed into the large inlet 12 is discharged to the small outlet 22, Rotor 1 of the Bonius type 40 has the effect that can have a higher rotational force.

As described above, the present invention has been described with reference to the exemplary embodiments in the drawings, but this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1: rotor, 2: generator central axis, 3: support, 4: semi-circular wings, 10: wing front, 11: air inlet, 12: large inlet, 20: wing rear, 21: air outlet, 22 : Small discharge port, 30: Air movement path, 30a: Cylindrical type, 30b: Spiral type, 31: Reduction of air, 40: Savonius type

Claims (5)

A rotating body 1 coupled to the generator central shaft 2; The rotating body 1 includes an air inlet port 11 coupled to the wing front surface 10 having a high resistance coefficient, an air path 30 coupled to the air inlet port 11, and the air The air outlet 21 is coupled to the moving path 30, and the air outlet 21 and the wing back 20 is configured to be coupled to the air intake, characterized in that the rotational force is obtained and discharged by the air propulsion force Wind power generator consisting of a rotating body to obtain. The method of claim 1,
The movement path 30 of the air is characterized in that the reduction path 31 of the air coupled to the large inlet 12, and the reduction path 31 and the small outlet 22 of the air is configured to combine. A wind power generator composed of a rotor that gains rotational force by inhalation of air and propulsion by exhausting air. The method of claim 1,
The movement path of the air 30 is a wind turbine comprising a rotating body to obtain a rotational force by the air suction, characterized in that consisting of a cylindrical (30a) to obtain a driving force to the discharged air. The method of claim 3,
The cylindrical (30a) is a wind power generator comprising a rotating body to obtain a rotational force by the air suction, characterized in that consisting of a spiral (30b) and a propulsion force to the discharged air. In the conventional savonius type 40, the support base 3 coupled with the generator central shaft 2, the large suction port 12 coupled with the support 3, and the large suction port 12 Boiler outlet 22 which is configured to be combined with, and the bore outlet 22 and at least one semi-circular wing 4 is configured to combine the rotational force obtained by the air intake and the propulsion force to the discharged air The wind turbine that made up the whole.

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