KR20100102365A - Tornado wild generator - Google Patents

Abstract

PURPOSE: A tornado type wind force generator, which makes electrical energy by amplifying air intake speed, is provided to obtain torque by reducing the air resistance of all moving objects including vehicle by using the intake wind. CONSTITUTION: A tornado type wind force generator comprises a front funnel inlet(110), an air duct(120) and a rear funnel expansion port(200). The front funnel inlet inhales the air flowing in the front. A guide blade(100) installs to the inner surface so that air revolves in the front funnel inlet. The air duct constitutes the path of the inhaled air. The air duct is composed so that the rotated air is rearward carried to the center of the pipe using centrifugal force in a vacuum state.

Description

Tornado wind generator {TORNADO WILD GENERATOR}

The present invention relates to a tornado-type wind generator, which is installed in a moving object [car train, etc.] or where the wind is blown, so that the sucked air is rotated to pass through the air pipe while rotating the funnel-shaped rotor. The rotating and rotating rotor relates to a tornado wind generator which is configured to discharge air at higher speeds into the rear low pressure section.

Tornadoes travel slowly over large areas of atmospheric circulation, such as high and low pressures, and when the air in the clouds rises, strong torrents cause convection and rotation of the internal air causing the tornado. Since all causes are different from their causes, tropical and temperate cyclones are distinguished. Tornadoes usually occur when the temperature inside the air becomes unstable due to a sudden change in temperature.

Tornadoes have two destructive forces: they are damaged by centrifugal forces on the outside of the tornado wind, and the air pressure is sucked into the upper part of the low, and the maximum speed of the whirlwind caused by the whirlwind is still not accurately measured. Scholars say more than 600 km.

The problem to be solved by the present invention is to give a rotational force to the wind sucked from the high-pressure part of the front to create a vacuum state in the center of the air tube with a centrifugal force coming from the rotational force to increase the suction force and to increase the speed of the wind is sucked into the rear of the funnel-shaped rotor To provide a tornado wind generator configured to discharge to the low pressure part.

Another object of the present invention is to provide a tornado-type wind generator having a structure that can reduce the air resistance of all moving objects such as automobiles and obtain rotational power by using the sucked wind.

The problem solving means of the present invention is a front funnel inlet having a guide blade mounted on the inner surface to rotate the air while the air introduced into the front; An air pipe which is a passage of sucked air and is a long pipe having a small diameter so that the rotated air is compressed; It is an extension that has a structure that discharges the air that is rotated at a higher speed by rotating the tube rear spiral funnel-shaped rotor that moves the air to the rear while making the center of the tube vacuum by centrifugal force as the sucked air rotates. There is a characteristic made.

Problem means of another embodiment of the present invention is the front funnel inlet is mounted on the inner surface of the guide blade to rotate while the air flowing into the front suction; A small diameter air tube through which the rotated air passes through the central portion of the tube by a centrifugal force in a vacuum; A rear funnel extension to expand amplified to allow the sucked air to spin faster and harder; A conical structure formed inside the rear funnel extension and having a braid formed spirally on an outer surface thereof; The front support and the rear support is configured to support the shaft configured in the rotating body, and the generator is configured in the rear support, it is characterized by consisting of a control unit for collecting and controlling the electrical energy generated by the generator.

By applying the tornado-type wind generator configured as described above to the car is characterized in that it can be used to reduce the air resistance and energy use or apply to airplanes, cars, speedboats, wind generators, shells and the like.

The tornado-type wind generator of the present invention, for example, a car running at 100 kilograms has an air resistance of 100 kilometers per hour on the front and a low pressure portion that does not allow air to flow into the rear of the vehicle. By rotating and moving in the conduit together, the centrifugal force creates a vacuum and goes to the rear to turn the rotor and the funnel-shaped rotor moves the air to the low pressure part faster and pulls the front air more quickly. By creating a barometer, the air in front of the car can be moved to the rear of the car to dramatically reduce the car's air resistance and use energy.

In addition, by rotating and sucking the discarded wind, the funnel-type rotor is rotated while making the central part vacuum with the centrifugal force. This rotor sends the air to the front and back of the front part faster and amplifies the air speed which is sucked faster to obtain electric energy. It is a very useful invention because it has an outstanding effect.

Specific details for one embodiment of the tornado-type wind turbine generator of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a tornado-type wind generator of a preferred embodiment of the present invention, a sectional view of the tornado-type wind generator of FIG. 2, FIG. 3 is a state diagram in which the tornado-type wind generator of FIG. 1 is applied to an automobile. 4 is a state diagram in which the tornado wind generator of the present invention is applied to a bus, and FIG. 5 is a partial cutaway view showing the tornado wind generator of the present invention, and FIG. 6 is a tornado wind generator of the present invention. 7 is a state diagram in which the tornado-type wind generator of the present invention is mounted on a vehicle, and FIG. 8 is a state diagram in which the tornado-type wind generator of another embodiment of the present invention is applied to a wind power generator, and FIG. 9 is a tornado of the present invention. FIG. 10 is a state diagram in which an auxiliary rotor is configured in a rotating body of the type wind generator, and FIG. 10 is a partial cutaway perspective view of the tornado wind generator of the present invention. 12 is a state diagram of a structure in which the air resistance of the tornado-type wind power generator of the present invention is minimized, and FIG. 12 is a state diagram in which resistance is generated.

1 to 3 is a tornado-type wind generator of the present invention front funnel inlet 110, the guide blade 100 is mounted on the inner surface so that the air rotates while the air flowing into the front is sucked; An air pipe 120 which is a long pipe which is a passage of sucked air and is configured to be moved to the rear while rotating air makes a vacuum state in the center of the pipe by centrifugal force; The inlet and intake air is characterized by consisting of the rear funnel expansion port 200 to amplify and discharge to the rear low pressure portion.

The air sucked as described above is rotated by the guide blade 100 so that the sucked air is rotated to pass through the air pipe 120 and the sucked air continues to be sucked in. It was formed into a structure that will discharge the amount.

The guide blade is formed on the inner surface of the front funnel inlet to rotate the inhaled air by advancing the tornado wind generator at a high speed or in a place where the wind speed is high so that the inhaled air rotates at a high speed and enters the air pipe. At the center of the air to be rotated, the air pressure drops, and the central part has a lower pressure than the rim so that a large amount of air enters, and the rear funnel is extended to the rear funnel, which is a funnel-shaped low pressure part to increase the suction power and speed up the intake wind. To provide a tornado wind generator configured to be discharged to a bulb.

3 and 4 is configured by applying the tornado wind generator of the present invention to the vehicle. The front funnel inlet was formed to minimize the friction of the air in the front of the car running at high speed, so that the air was introduced without friction.

5 to 9 of the tornado-type wind generator of the present invention to rotate the incoming air to be sucked by the suction air is rotated to proceed through the air pipe 120 in the rear funnel expansion slot 200 The main point is that the power generation is made by rotating the rotating body 220 when discharging while expanding. The rotating body forms a spiral funnel-shaped structure and a blade is formed on the outer surface.

The present invention is a wind power generator, the front funnel inlet 110 and the front funnel inlet 110 is mounted on the inner surface so that the air flowing into the front is sucked and rotated, the air is rotated and the air is rotated A long air pipe 120 having a small diameter to be compressed at a high speed, a rear funnel extension 200 to expand the rotated air, and an inside of the rear funnel extension and a braid 160 spirally formed on an outer surface thereof. The front support 140 and the rear support 170 are configured to support the rotating body 220 and the shaft 130 of the conical structure, and the generator 190 is configured on the rear support, There is a feature consisting of a control unit 210 for collecting and controlling the electrical energy generated by the generator.

The front funnel inlet 110 formed a guide braid to be rotated at the inlet to form a braid 100 having a spiral structure on the inner surface to rotate the incoming air.

The air introduced as described above constitutes a guide braid at the front to be rotated by being introduced into the long conduit, and the introduced air is configured to rotate the air in the air pipe 120.

The air introduced through the air pipe 120 is configured to be discharged through the rear funnel expansion port 200, and the inside of the spiral funnel-shaped rotating body 220 is configured to rotate.

The rotating body 220 is configured to fix the front support 140 and the rear support 170, respectively, which is fixed to the shaft 130 of the rotating body, and to configure the bearing 150 in the connection portion to minimize the friction force It was.

The rear support 170 was mounted to be fixed by the vertical support 180 for supporting the generator. Air discharged to the rear as described above is made to rotate the rotating body.

 The present invention is configured to the front so that the air has a rotational force by configuring the braid so that the incoming air is rotated. In addition, while the incoming air rotates and passes through the small diameter air pipe 120, the center of the rotated air is generated to suck air by generating a low pressure. At this time, the air passing through the air pipe is configured to rotate the rotating body 220 of the conical structure while passing through a diameter that increases in the expansion type, such as a funnel.

Tornado wind turbine generator of another embodiment of the present invention was configured as follows so that the rotation is easily made using the air through the inside and the outside air. Rotating body is configured to be coupled to the rotating support to the rotation support 250 to rotate the auxiliary rotor 270 as one.

In addition, the auxiliary rotating body 270 is formed in the expansion structure on the extension line on the rear funnel expansion port 200 to configure the braid on the outer surface to be rotated using the outside air. The rotating body 220 and the subsidiary rotating body 270 are combined with each other so as to be rotated together with the rotating body. To support the shaft 130 of the rotating body to form a "c" shaped support 260 on the outer surface of the rear funnel expansion port, the front and rear support and the connecting portion constituted a bearing 150. In addition, by connecting the vertical support 280 to the rear support 170 is characterized in that configured to secure the generator 190.

The air introduced into the configuration through the front funnel inlet through the air pipe is rotated while rotating through the rear funnel expansion port is equipped with a rotating body, and at the same time connected to the rotating body 220 The auxiliary rotor 270 is rotated. It is preferable that the structure of the present invention is installed at a position where the wind speed is strong, and the rotating hole 300 is provided at a portion to which the vertical column beam 290 to be supported according to the wind speed is configured to rotate in the direction of the wind. , By configuring the rudder on the top of the rear funnel expansion port 200 has a feature configured to be located in the wind blowing direction.

The present invention constitutes a braid on the inner surface of the rear funnel extension of the tornado-type wind turbine of another embodiment, and the inner surface of the rear funnel is formed so that the entire structure of the rear funnel expansion can be rotated. .

In addition, the rotating body configured in the rear funnel expansion port was configured to obtain a strong rotational force and suction power by configuring the rotating body in a structure that is equipped with a plurality of braids, such as a turbojet engine.

As described above, the present invention has been described with reference to the embodiment illustrated in the drawings, but this is only an example, and those skilled in the art may make various forms of deformation and other equivalent embodiments therefrom. Will understand. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. In addition, the technical spirit of the present invention can be seen that the modification by the shape of the claims of the present invention.

1 is a perspective view of a tornado-type wind generator of a preferred embodiment of the present invention.

2 is a cross-sectional view illustrating the tornado-type wind generator of FIG. 1.

Figure 3 is a state diagram used to apply the tornado wind generator of Figure 1 in an automobile.

Figure 4 is a state of use applied to the tornado wind turbine of the present invention to the bus.

Figure 5 is a partial cutaway view showing a tornado wind generator of the present invention.

Figure 6 is a cross-sectional view showing a tornado-type wind generator of the present invention.

7 is a state in which the tornado-type wind generator of the present invention mounted on the vehicle.

Figure 8 is a state of use applied to the tornado-type wind generator of another embodiment of the present invention as a wind power generator.

Figure 9 is a state diagram configured an auxiliary rotor in the rotor of the tornado-type wind generator of the present invention.

10 is a partial cutaway perspective view of a tornado wind generator of the present invention.

11 is a state diagram of a structure in which the air resistance of the tornado-type wind turbine of the present invention is minimized.

12 is a state diagram in which resistance is generated.

Detailed description of the major symbols in the drawings

100: braid 110: front funnel inlet

120: compression tube 130: shaft

140: support 150: bearing

160: braid 170: rear support

180: vertical support 190: generator

200: rear funnel expansion port 210: control unit

220: rotating body 250: vertical axis

Claims (3)

A front funnel inlet having a guide blade mounted on an inner surface thereof so that the air rotates while the air introduced into the front is sucked; An air pipe which is a passage of sucked air and is a long pipe configured to be rotated to move backward while making a vacuum in the center of the pipe by centrifugal force; Tornado wind generator, characterized in that consisting of the rear funnel expansion port for amplifying and discharging the inlet and intake air to the rear low pressure portion. The method of claim 1, wherein the rear funnel extension A rotating body of a conical structure having a plurality of arranged structures such as a spiral structure or a braided structure formed inside the rear funnel extension and having a braid formed on an outer surface thereof; Configure a front support and a rear support to support the shaft configured in the rotating body, and configure a generator on the rear support, Tornado type wind generator, characterized in that consisting of a control unit for collecting and controlling the electrical energy generated by the generator. The method of claim 1, wherein the rear funnel extension Tornado characterized by consisting of a rotary blade and a funnel structure to amplify the speed and torque of the air of the funnel structure and the structure to be sucked by rotating the air to generate a tornado wind phenomenon by rotating instead of rotating the spiral rotating body Type wind direction generator.

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