KR20130092073A - Wind power generator installed on moving vehicle - Google Patents

Abstract

PURPOSE: A wind power generating apparatus mounted on a running vehicle is provided to produce electricity of good quality until the vehicle stops, since wind is generated when the vehicle usually travels at a constant speed regardless of the traveling directions. CONSTITUTION: A wind power generating apparatus mounted on a running vehicle includes a wind turbine (11), a generator (13), a battery (21), an inverter (22), and a swash plate (16). The wind turbine is rotated by the wind which is generated on the roof of a running vehicle (10). The generator is installed on a rotary shaft (12) of the wind turbine, converts rotational energy into electric power, and outputs the electric power. The battery stores electricity which is generated by the generator. The inverter supplies the electricity of the battery to places for usage by converting direct current electricity into alternating current electricity. The swash plate is installed on the front side of the wind turbine on the roof of the vehicle to block the wind, which is generated by driving a car, from entering blades of the lower side across at least a rotary shaft of the wind turbine and to guide the wind to blades on the upper side of the wind turbine.

Description

Wind power generator installed on moving vehicle

The present invention relates to a wind power generator mounted on a mobile vehicle which is efficiently mounted using a traveling wind generated when the vehicle is driven.

In general, the type of power generation to obtain electricity can be divided into hydro power generation using water drop, thermal power generation by burning fuel, nuclear power generation using nuclear fission, and wind power generation using wind. Power is being installed by installing a proper power generation device.

The hydroelectric power plant has a merit that it is possible to obtain a large amount of electric power without discharging pollutants such as air pollution because it is mainly used to build a dam in the river to increase the water level and get a drop. Due to the damage to the environment and the construction of dams, there is a big social problem in the demolition of villages when there are villages in the submerged areas, and thermal power generation is caused by burning coal or heavy fuel oil. Heat is generated by heating the water with high temperature and high pressure steam to generate power through the steam turbine, but there is a problem that causes air pollution and exhaustion of natural resources used when fuel is combusted. The general thermal power generation method in that water is boiled to make steam, and the steam is used to generate electricity by rotating a turbine. It is not different from that, but the method of supplying the energy source for boiling water is different in that it depends on the combustion reaction in the boiler in thermal power generation, but in nuclear reactor in nuclear power generation. Although the initial construction cost is higher than the power generation method, the fuel cost is much cheaper, so the power generation cost is the lowest in the long life of the power plant, and it is possible to generate electricity for a long time even with a small amount of fuel. Since no harmful substances such as carbon dioxide, sulfurous acid gas, and nitrogen oxides are emitted, it is effective in the preservation of the global environment as it can eliminate ecosystem threats caused by the greenhouse effect or acid rain. Therefore, the development of science and related industries Although there is an advantage to promote, it is necessary to treat and dispose of radiation and radioactive waste which is inevitably generated during power generation, so there is additional cost due to the installation of the necessary safety device, and it is possible to produce long-term nuclear waste with high toxicity. There are drawbacks such as long-term damage in case of radioactive leakage accidents due to safety management and nuclear power failure, etc., and recently closed down gradually considering the impact of nuclear power on the environment despite its economic feasibility. New orders for nuclear power plants are decreasing.

The hydroelectric power generation, thermal power generation and nuclear power generation is a power generation method that obtains a large amount of power, so the initial installation cost is large, while the wind power generation is a device that obtains power by using wind, which is a natural phenomenon, and the installation cost is low, and a unit of home or region As it is easy to generate individual power generation, many wind generators are installed and used in windy areas such as beaches and mountainous areas.

However, the conventional wind power generator needs to rotate the generator at a constant speed irrespective of the wind speed. Therefore, the wind turbine needs to be controlled such as changing the inclination of the windmill blade according to the wind speed. When not constant, there was a problem in use. That is, the existing propeller-type wind power generator has a lot of effects on the wind as described above, there was a problem that the restrictions on the use of the surrounding environment is followed when the wind does not blow much.

Accordingly, the present invention has been proposed in view of the above-described problems of the prior art, and an object thereof is to provide a wind power generator capable of generating power using wind power regardless of the strength, direction, and location of the wind.

Still another object of the present invention is to provide a wind power generator having a structure that enables the driving wind of a vehicle to be used without waste and to raise the power generation efficiency to the maximum.

Wind turbine for achieving the above object of the present invention is a wind turbine which is installed to rotate by the running wind of the vehicle on the roof of a mobile vehicle; A generator installed on the rotating shaft of the wind turbine to convert rotational energy into electrical energy and output the electrical energy; A capacitor for storing electricity generated by the generator; And an inverter for converting the direct current electricity stored in the capacitor into alternating current and supplying the same to the use place.

According to a preferred embodiment of the present invention, the inclined plate member which blocks driving wind from entering the lower side based on at least the center of the rotation axis of the wind turbine, and induces the driving wind toward the upper side of the wind turbine is the roof in front of the wind turbine. Characterized in that installed in.

In addition, according to a preferred embodiment of the present invention, the inlet and the outlet portion having a total cross-sectional area to block driving wind from entering the lower side based on at least the center of the rotation axis of the wind turbine, and guide the wind to the upper side of the wind turbine An excitation duct is installed on the roof in front of the wind turbine.

According to another exemplary embodiment of the present invention, the wind turbine has a lower body except for a protruding portion whose upper part is subjected to the driving wind to the roof top of the vehicle, and is installed to be positioned in the vehicle interior.

According to the present invention as described above, wind power generated by using the driving wind on a vehicle in which driving wind is generated (wherein the vehicle includes all movable vehicles such as buses, trucks, passenger cars, trains, and the like) By installing the device, when the vehicle starts to run, the driving wind is generated regardless of the place, and since the vehicle can secure the wind speed more than a certain intensity by the constant speed driving, it is possible to stably generate power, especially the running wind is wasted. Without being induced to concentrate only on the wings of the upper portion of the wind turbine, there is an effect that the efficiency of the wind power generation is greatly improved.

1 is a view showing an embodiment of a mounting state on a mobile vehicle equipped with a wind power generator according to the present invention.
2 is a view showing a wind guide member (duct) installed in the mobile vehicle to guide the wind to the wind power generator according to the present invention.
3 is a view showing another embodiment of a mounting state in a mobile vehicle equipped with a wind power generator according to the present invention.
4 is a block diagram showing a power generation system according to the present invention.

In the following detailed description, reference is made to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced.

These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are not necessarily mutually exclusive, even if different. By way of example, certain aspects, structures, or features described herein in connection with one embodiment may be practiced by other embodiments without departing from the spirit and scope of the invention.

It is also to be understood that the position or arrangement of individual elements within each disclosed embodiment may be modified without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, properly interpreted, and equivalents within a sufficient range to which the claims relate. In the drawings, like reference numerals refer to the same or similar functions in the various figures.

1 is a view showing an embodiment of the mounting state on a mobile vehicle equipped with a wind power generator according to the present invention, the reference numeral 10 in the figure is a mobile vehicle (hereinafter referred to as a mobile vehicle bus, taxi, train, train) , A vehicle, such as a truck, and a moving body such as a trailer connected to and transported by such a vehicle, and the upper part of the vehicle 10 includes winds generated when the vehicle 10 is driven, That is, the wind turbine 11 is installed to produce electricity by rotating by the driving wind, the shaft 12 of the wind turbine 11 is the shaft (not shown) of the generator 13 and belt or chain or gear transmission Is connected through the device is to receive the rotational force of the wind turbine 11 is to produce electricity from the generator (13).

The wind turbine 11 has a plurality of wings 14 radially unfolded along the circumference of its outer circumference, the blades 14 are rotated in a certain angle range on the outer circumferential surface 15 of the wind turbine 11 It is a structure that is connected through the hinge 16 of the structure that allows, so that when the rotational force is generated by the wind on the upper side of the wind turbine 11 is expanded to the maximum (it can not be flipped backward over a certain angle. In the rising section of the blades (14), the structure is folded by the running wind or gravity to reduce the resistance.

In front of the wind turbine 11 induces the driving wind generated when the vehicle is traveling to the upper side of the wind turbine 11, and at the same time blocked so that the influence of the driving wind on the wings of the rising section that must act as a resistor The wind guide member, for example, the inclined plate member 16 is provided, the front of the inclined plate member 16 has a low, and ascending upwards toward the rear, the inclined plate member 16 itself alone Although it may be installed in a configuration, as shown in Figure 1 may be installed to be part of the wind guide member chin 17.

As shown in detail in FIG. 2, the duct 17 has an inlet 18 with a wide inlet area, and the cross section is gradually narrowed toward the rear, so that the wing 14 on the upper side of the wind turbine 11 is located. Has an outlet portion 19 for collecting and discharging the driving wind toward the exhaust winds, that is, a passage having a narrow cross-sectional area, and the inlet 18 and the outlet portion 19 of the passage open toward the front and the rear, respectively. The duct 17 of the shape is provided.

Accordingly, the air flowing into the expanded inlet 18 of the duct 17 flows along the passage 20 gradually decreasing in cross section, and the wind intensity and wind speed are increased, and then the air flows out through the outlet 19. It is going out to hit the upper blades 14 of the wind turbine 11 while going out. In addition, the duct 17 may be configured to expand or vary the cross-sectional area of the inlet 18 by rotating its upper surface up and down to recruit more running wind.

3 is a view showing another embodiment of a mounting state in a mobile vehicle equipped with a wind power generator according to the present invention. In this embodiment configuration, the lower side body of the wind turbine 11 is located inside the vehicle 10. It is accommodated, and only a portion of the upper body protrudes upward, so that only the wings 14 that receive the upper wind to the outside, without installing the inclined plate member 16 or the duct 17, which is a wind guide member, Wings on the lower side of the wind turbine 11 are configured to generate a rotational force in the reverse direction due to the driving wind, that is, brake action, thereby increasing power generation efficiency even with a simple structure.

Figure 4 is a block diagram showing the power generation system of the present invention, when the wind turbine 11 is rotated by the running of the vehicle, the power transmission device is placed in conjunction with the generator 13 is driven to drive the rotational kinetic energy electrical energy Is converted into an alternating current through a DC / AC conversion inverter 22 and then stored in the battery 21, and then converted into an alternating current through the DC / AC inverter 22. It can be supplied to places where electricity is needed, such as homes or businesses.

According to the present invention, when the vehicle 10 starts running, the driving wind is generated in proportion to the traveling speed, and the driving wind is a wind guide member (duct 17 including the inclined plate member 16 or the inclined plate member thereof in some configuration). Drive wind is concentrated by the guidance of the upper blades 14 of the wind turbine 11 by the guidance of the wind turbine 11 starts to rotate, the rotation shaft 12 of the wind turbine 11 is not shown Generator 13 is driven to rotate through a power transmission means such as a non-belt to convert the kinetic energy into electrical energy to produce electricity.

The electricity thus produced is stored in the battery 21, and the direct current electricity stored in the battery 21 is converted into alternating current through a DC / AC conversion inverter 22 and then sent to the use place 23 for use.

Here, the difference between the present invention and the wind power generator installed on the mountain or the beach with a lot of wind in the prior art is that the wind direction is often changed in the wind direction and the wind speed is not constant, it is difficult to continuously produce high-quality electricity, the present invention In the case of the wind power generator is mounted on the vehicle, driving wind is generated regardless of the direction while the vehicle is moving, and because it runs at a constant speed, it is possible to obtain a stable electricity quality until stopping the driving.

The embodiment of the wind power generator mounted on the mobile vehicle of the present invention described above is merely exemplary, and those skilled in the art may have various modifications and other equivalent embodiments therefrom. You can see that. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

10: mobile vehicle
11: wind turbine
12:
13: generator
14: Wings
15: hinge
16: inclined plate member
17: duct
18: inlet
19: exit section
20: passage
21: Battery
22: inverter
23: Where to use

Claims (3)

A wind turbine installed on the roof of the mobile vehicle to rotate by the driving wind of the vehicle; A generator installed on the rotating shaft of the wind turbine to convert rotational energy into electrical energy and output the electrical energy; A capacitor for storing electricity generated by the generator; And an inverter for converting the direct current electricity stored in the capacitor into alternating current and supplying the same to a user. And it is installed on the roof in front of the wind turbine to block the driving wind to enter the wings of the lower side on the basis of at least the center of the rotation axis of the wind turbine, to guide the driving wind to the wings of the upper side of the wind turbine Wind turbines mounted on a mobile vehicle, characterized in that comprises;
The wind turbine according to claim 1, wherein the wind turbine has a duct having an inlet and an outlet that are all-intensified so as to block driving wind from entering the lower side based on at least the center of the rotation axis of the wind turbine, and guide the driving wind to the upper side of the wind turbine. Installed on the roof in front of the, the inclined plate member is mounted on a mobile vehicle, characterized in that to form a lower body of the duct.
A wind turbine installed on the roof of the mobile vehicle so as to be rotated by the driving wind of the vehicle, wherein only wings of the upper side protrude to the upper portion of the roof of the vehicle and the lower body side is installed in the vehicle interior; A generator installed on the rotating shaft of the wind turbine to convert rotational energy into electrical energy and output the electrical energy; A capacitor for storing electricity generated by the generator; And an inverter for converting the direct current electricity stored in the capacitor into alternating current and supplying the same to the use place.

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