WO2014175618A1

WO2014175618A1 - Wind turbine using wind scooping windmill

Info

Publication number: WO2014175618A1
Application number: PCT/KR2014/003474
Authority: WO
Inventors: 김영수
Original assignee: Kim Young Soo
Priority date: 2013-04-23
Filing date: 2014-04-21
Publication date: 2014-10-30
Also published as: KR20130056262A; KR20140061327A

Abstract

In the present invention, when rotating and actuating wind turbine blades by using wind, a plurality of wind scooping windmills (10) having a rectangular shape are manufactured perpendicularly coupled to strengthen rotational force even under weather conditions involving light or weak wind. The windmill is formed by assembling and coupling a plurality of at least 6 to 8 blades including supports for smooth rotation, which continuously and sequentially receives wind for rotation, thereby generating strong and high-speed rotational force. To this end, a wind collecting device (30) for collecting and blowing wind is formed separately to concentrate wind on the wind scooping windmills (10), thereby strengthening rotational force; an anti-headwind device (50) for shielding headwinds that resist the rotation is installed; and a fish-shaped aileron (60) is coupled to a rear end portion of the wind collection device (30) and the anti-headwind device (50). The wind scooping windmills (20) can be doubly installed on the top and bottom in a horizontal manner on top of a roof of a vehicle, so that strong winds generated by driving is utilized to rotate the wind turbine blades, and a generator installed in an appropriate space inside a trunk of the vehicle is linked and actuated so that electricity generated from the generator is stored on a lithium-ion storage battery for a hybrid vehicle, which is separately mounted inside the vehicle and used by the hybrid vehicle thereby increasing driving distance, and also used in an electric vehicle.

Description

Wind generators using wind turbines

The present invention relates to the provision of a technology for industrial applicability by studying advanced new technologies on how to effectively use wind power, which is a rotational power source of a power generating blade that returns a wind turbine.

It has been a long time since mankind has used wind power, which is the force of nature, as a useful power for industrial purposes.In particular, windmills are developed and used to rotate machines in countries such as the windy northwestern European countries of Denmark and the Netherlands. In recent years, a large windmill produces several megawatts of electricity.

However, these large windmills are rotated by the wind that hits the angle of inclination to make the wind vanes inclined. The windmills generate rotational power only when the wind speed is more than 10 meters, but rotates at low wind speeds of 4 to 5 meters per second. It can't produce electricity itself.

Accordingly, the present invention provides a technology capable of producing electricity by rotating the windmill even under a low wind speed of 4 to 5 meters per second.

Applicant has already filed an application for publication No. 10-2013-0045575 on April 23, 2013, and is in the process of awaiting review. Submit and file.

Conventionally, most of the horizontal axis generators incline the wind receiving part of the wind turbine blades and turn the rotating shaft by the wind that hits the inclination angle. However, the rotational force by this inclination angle does not rotate unless the wind speed is more than 10 meters per second. Do not.

Therefore, the horizontal axis generator cannot be operated under low wind speed of 4 to 5 meters per second.

Therefore, the present invention is a device for receiving the wind of the windmill rotation method in the wind power generator to make a wing by attaching a large number of rectangular wind goji windmill (10) vertically, assembling more than 6 to 8 trillion of the wing wind collecting device The fish-type rudder 60 is provided at the rear end of the apparatus for generating a strong rotational force and the rotational wind preventing device 50 and the upper wind collecting device 30 by receiving wind in front of the front by the 30 in order. By the traction of the rudder, the wind turbine is installed by a large thrust self-aligning roller bearing installed separately from the windmill rotation bearing so that the head of the wind turbine 30 always faces the wind blowing direction when the wind blows. 30) and the anti-wind device 50 is rotated to be able to exert its function, to hold the position, the fish-type rudder 60 is the wind blower 70 by pulling the spring to the weak wind Higo winds are to be ship tuyeres provide appropriate thermal wind exiting the rear of the device, such as a low-velocity action under the powerful winds ripped off Kane vertical rotation type windmill wind power generator for generating rotational force by the river leeway.

And the present invention is obtained by utilizing the strong running wind generated by driving the vehicle by assembling and attaching a plurality of wind turbine type windmill 20 for the vehicle more than 6 to 8 trillion and horizontally installed on the roof of the vehicle in double, up and down Power generated by rotating the permanent magnet synchronous generator installed in the proper space in the trunk of the car by the rotational force and accumulating the lithium-ion battery for hybrid vehicles equipped with this electricity separately. To provide a windmill generator.

As described above, most of the conventional wind power generators are horizontal axis rotary generators, which generate a rotational force by receiving the wind that strikes the inclination angle of the power generating blade in a square, so that the rotational force does not occur or is weak under the wind speed of 10 meters or less per second. Although not developed, the present invention is receiving the wind as a way to receive the wind in the wind gourd, because the wind is collected from the wind collecting device (30) (40), the power generation at low wind speed of 4-5 meters per second In the case of automobiles, by effectively utilizing the strong running wind can produce a lot of electricity by the strong rotational force.

1 is a plan view of a vertical wind power generator using a wind turbine type windmill.

Figure 2 is a side view of a wind turbine horizontal rotating device using a wind turbine type windmill.

3 is a copy of the Twinboost 4HD perfomance catalog of Alex Erauw, Green Energy Research Center, Belgium.

Figure 4 is a copy of the SG VRTB wind turbine catalog operating in Moscow and Kazakhstan Astana.

EXAMPLE

The present invention can be installed anywhere in the wind because the power generation system structure is relatively simple and easy to install.

In particular, parks, notaris with lots of traffic, public places, ridges of high mountains, islands, lighthouses, windy beaches, mountain shelters, rooftops of apartments, rooftops of villas, rooftops of ordinary homes, and rooftops of buildings (without helicopters) There are various places where installation is possible.

This generator has no noise and vibration due to its characteristics, so it is a representative power generation system of pollution-free green energy, and it can be installed wherever only the power plant (steel pipe) can be built.

It is developed by installing and rotating the power generating wing on the power station, extending the axis of rotation to the ground or the rooftop, and rotating it in conjunction with the permanent magnet synchronous generator.

In the case of a vehicle, a strong rotational force can be obtained by utilizing the strong wind of the driving wind and using the wind turbine type windmill 20 in the upper and lower two, so that a lot of electricity can be produced.

Therefore, the present invention is to make a wind gourd windmill 10 to improve the inefficient wind effect of the prior art as described above, 6 to 8 sets of wind gourd windmill 10 including the support for smooth rotation. Assembling and attaching a plurality of the above, and the wind collecting device 30 to the wind goji windmill 10 collects and blows the wind in order to receive a lot of wind in order to receive a lot of wind to generate a strong rotational force even in low wind speed and rotation The backwind prevention device 50 that prevents the backwind hit the opposite side to reduce the rotational resistance to facilitate the rotation.

Fish-type rudder 60 is installed at the rear of the opposite side of the wind blower in order to achieve the above function, and when the wind blows, the wind blower 30 always pulls from the rear so as to face the wind blowing direction. The position of the prevention device 50 is automatically moved into place.

Since the wind collecting device 30 and the anti-wind device 50 are installed on a large thrust self-aligning roller bearing separately from the bearing for the windmill rotation, the position is smoothly adjusted by the fish-type rudder 60.

In addition, the fish-type rudder 60 has a large inlet for entering the wind and the vent hole 70 of the tail portion is small, but when the wind is weak, the vent hole 70 is closed by the traction of the spring device, the traction force is strong, the wind is When strong, the wind vent 70 is opened moderately by the strong wind pressure, and the wind exits properly.

In addition, the wind turbine windmill wind turbine 20 for the vehicle to utilize the strong wind generated by driving by installing the wind turbine windmill 20 on the roof of the vehicle in the upper and lower two horizontally strong turning force To generate electricity by connecting to a generator installed in an appropriate space in the trunk of the car and to store the generated electricity in a lithium-ion battery for a hybrid vehicle equipped with this electricity separately and to use it in a hybrid vehicle to save fuel and increase mileage. It can be used to increase the mileage by using it in a hybrid car or an electric car.

The wind power generator used in the above is a common common technology as a permanent magnet synchronous generator, and thus description thereof is omitted.

As described above in the above embodiment, if there is a lot of wind such as a high mountain ridge, a high wind on the beach, or an island, a large generator can be installed, and in the case of a car, it can produce a lot of electricity. Can be used.

Claims

As a device for receiving wind in the windmill's rotation method in the wind power generator, a plurality of rectangular wind ripple windmills (10) are attached vertically to make a wing, and the wings are assembled to 6-8 trillion or more to the wind collecting device (30). By attaching the wind to the front in order to generate a strong rotational force and the reverse wind preventing device 50 to reduce the rolling resistance and the fish-type rudder 60 is attached to the rear end of the upper wind blowing device 30, The wind turbine 30 and the back wind are installed by a large thrust self-aligning roller bearing installed separately from the windmill rotation bearing so that the head of the wind turbine 30 always faces the direction in which the wind blows due to the traction of the rudder. The prevention device 50 is rotated to be able to exert its function, to hold the position, the fish-type rudder 60 is clogged by the spring traction in the weak wind and the air vent 70 is blocked by the strong wind Wind turbine type windmill vertical rotation wind power generator that generates strong rotational force even under low wind speed by the action of the device such that the wind vent is properly opened by strong wind pressure.
Assembling and attaching more than 6 ~ 8 sets of wind turbine type windmills 20 for vehicles and installing them vertically on the roof of the car in two sides, up and down, with the turning force obtained by utilizing the strong running wind generated by the car. A wind turbine type wind power generator for horizontal rotating vehicles used in hybrid vehicles or electric vehicles by rotating a permanent magnet synchronous generator installed in a proper space in a trunk and generating electricity by storing a lithium ion battery for a hybrid vehicle.