JP7201962B1 - wind turbine - Google Patents

Abstract

An object of the present invention is to provide a wind power generator with a simple structure, which has a very small rotational drive loss and a compact mechanism. A rotating windmill is provided in a radially central portion of a wind tunnel, a tip portion of the rotating windmill is supported by a donut ring, and both magnetic poles are arranged in an axial direction on the inner peripheral side of the donut ring. First permanent magnets having the same magnetic poles are arranged along the circumferential direction of the donut ring, and both magnetic poles are arranged radially on each of the front and rear surfaces of the donut ring in the axial direction, and along the circumferential direction of the donut ring. a wind rotating body in which second permanent magnets and third permanent magnets having the same magnetic poles are arranged on the outer periphery of the donut ring, and fourth permanent magnets are arranged with the magnetic poles directed alternately in the radial direction on the outer circumference of the donut ring; The wind tunnel is provided with support rings facing each other in the axial direction of the donut ring at a predetermined interval, and an electromagnetic coil is provided on the inner wall of the wind tunnel between the support rings along the direction of rotation of the fourth permanent magnet. are arranged in a fixed arrangement. [Selection drawing] Fig. 1

Description

TECHNICAL FIELD The present invention relates to a power generator that can also be electrically driven.

A standard type of a wind power generator or a water power generator is one in which a rotating shaft is provided with blades that rotate by receiving wind or water flow, and a power generation motor is connected to the rotating shaft.
All of these generators are long ones with blades connected to one end of a rotating shaft and a generator motor connected to the other end. Therefore, rotational drive loss is also large.

Recently, there is a wind tunnel power generation method introduced in Patent Document 1.
The purpose of this technology is to provide a wind power generator that has a wide range of adaptability and safety, from small-scale general household use to medium-sized or larger commercial facilities.
And the characteristic content is "A wind tunnel body A, which is composed of inner and outer double cylinders with different diameters and has wind directionality that can freely rotate horizontally, is placed as a rotational power part on the support B that houses the power generation function part inside, and a cylindrical drum A spiral rotor blade is fixed to the inner wall, and the cylindrical drum itself is rotated by the wind force that penetrates the inside of the wind tunnel body A. The rotation is transmitted to the power generation function part by a disk-shaped gear fixed to the outer wall of the cylindrical drum. As a function to control the reaction due to the resistance at the time of rotation transmission, a part of the rudder provided on the leeward side of the wind tunnel body A is used as an arbitrarily movable wind direction adjusting blade C. The leeward end of the cylinder of the inner and outer double structure is expanded outward. Then, the diffuser effect increases the air velocity in the center of the wind tunnel.In addition, a pressure release adjustment bypass function is provided in the center of the wind tunnel in the event of excessive wind pressure.”
Patent Documents 2 to 6 are additionally introduced as other known examples.

Japanese Unexamined Patent Publication No. 2013-83237 "Method of Wind Tunnel Power Generation" Japanese Unexamined Patent Publication No. 2009-281228: Cited Document 1 Japanese Patent Application Laid-Open No. 2005-237128: Cited Document 2 Japanese Patent Application Laid-Open No. 2006-219981: Cited Document 3 Japanese Unexamined Patent Publication No. 2001-132617: Cited Document 4 JP 2011-85075 A: Cited document 5

The wind tunnel power generator introduced in Patent Document 1 forms a very complicated cylindrical drum as it is characterized, but the means for connecting the rotating shaft of the spiral rotor blade to the generator via a gear mechanism is the same as before. , the rotational drive loss is also large.

SUMMARY OF THE INVENTION The present invention provides a wind power generator with a simple structure, which has a very small rotational drive loss due to wind power and a compact mechanism.

The present invention satisfies the above problems, and its technical features are as follows (1).
(1) A wind tunnel (200) has a rotating windmill (101) in the radial center thereof, and the tip of the rotating windmill (101) is supported by a donut ring (102). A first permanent magnet (103) having both magnetic poles arranged in the axial direction on the inner peripheral side and having the same magnetic poles aligned along the circumferential direction of the donut ring (102) is arranged, and the axis of the donut ring (102) is arranged. A second permanent magnet (104) and a third permanent magnet (105) are arranged with both magnetic poles arranged in the radial direction on each of the front and back surfaces in the center direction and the same magnetic poles are aligned along the circumferential direction of the donut ring (102). and a wind rotating body (100) in which fourth permanent magnets (106) are arranged with the magnetic poles directed alternately in the radial direction on the outer periphery of the donut ring (102),
The wind tunnel (200) is provided with support rings (201, 202) facing each of the front and rear surfaces of the donut ring (102) in the axial direction at a predetermined interval,
The fifth permanent magnet (203) is supported on one of the support rings (201, 202) by making the magnetic poles of the first permanent magnet (103) and the magnetic poles of the first permanent magnet (103) in a repulsive relationship on the facing side of one of the support rings (201). A pair of seventh permanent magnets (205) arranged in the circumferential direction of the ring (201) and facing the magnetic poles of the second permanent magnets (104) in a repulsive relationship are arranged around the one support ring (201). arranged in the direction of
In addition, the magnetic poles of the first permanent magnet (103) on the opposite side of the other supporting ring (202) of the two supporting rings (201, 202) are in a repulsive relationship, and the sixth permanent magnet (204) is connected to the other supporting ring (201, 202) . A pair of eighth permanent magnets (206) arranged in the circumferential direction of the support ring (202) and facing each magnetic pole of the third permanent magnet (105) in a repulsive relationship with the other support ring (202) , and an electromagnetic coil (300) is fixedly arranged along the rotation direction of the fourth permanent magnet (106) on the inner wall of the wind tunnel (200) between the two support rings (201, 202) A wind turbine generator characterized by:

In the wind power generator of the present invention, the first permanent magnet of the wind power rotating body rotates without contact with the fifth permanent magnet and the sixth permanent magnet fixed to the both support rings, thereby rotating the rotating wind turbine. Prevent axial vibration. Moreover, the second permanent magnet and the third permanent magnet of the wind power rotating body float and rotate without contacting the seventh permanent magnet and the eighth permanent magnet , thereby preventing vibration in the radial direction of the rotating windmill.
Due to this non-contact floating rotation, the rotational drive loss of the wind rotor is reduced only to the magnetic force between the fourth permanent magnet and the electromagnetic coil. In principle, the rotation bearing is unnecessary because the There is absolutely no problem in providing a rotary bearing.
In addition, the wind rotor and the wind tunnel have a compact structure, which is advantageous in terms of manufacturing.
As a field of application, it can be used as a general wind power generation device, or as an auxiliary power generation device attached to running vehicles, trains, drones, etc., and has extremely high social utility value.

BRIEF DESCRIPTION OF THE DRAWINGS It is explanatory drawing which shows Example 1 of this invention, and is partial longitudinal cross-section explanatory drawing which provided the wind power generator in the wind tunnel. It is explanatory drawing which expands and shows the principal part of a wind power generator shown in FIG. FIG. 2 is a schematic diagram showing the upper half of the explanatory cross-sectional view viewed from the arrow AA in FIG. 1; The schematic diagram which shows the upper half of the cross-sectional explanatory drawing seen from arrow BB of FIG.

A mode for carrying out the wind turbine generator of the present invention will be specifically described with reference to a first embodiment shown in FIGS. 1 to 4. FIG.

1 to 4 of this example, the wind turbine generator comprises a wind rotor 100, both support rings 201 and 202 installed on the inner wall of a wind tunnel 200, and an electromagnetic coil 300. FIG.
The wind rotating body 100 has a rotating windmill 101 in the center of the wind tunnel 200 , and the tip of the rotating windmill 101 is supported by a donut ring 102 .
On the inner peripheral side of the donut ring 102, both magnetic poles N and S are arranged in the axial direction of the donut ring 102, and the same magnetic poles (N and S) are aligned along the circumferential direction of the donut ring 102. 1 Permanent magnets 103 are arranged.
On each of the front and rear surfaces of the donut ring 102 in the axial direction , both magnetic poles N and S are arranged in the radial direction, and the same magnetic poles (N and S) are aligned along the circumferential direction of the center of the donut ring 102. A permanent magnet 104 and a third permanent magnet 105 are arranged.
Fourth permanent magnets 106 are arranged on the outer periphery of the donut ring 102 with their magnetic poles directed alternately in the radial direction.

In the wind tunnel 200, support rings 201 and 202 are suspended from the front and rear surfaces of the donut ring 102 in the axial direction at predetermined intervals.
A fifth permanent magnet 203 and a sixth permanent magnet 204 are arranged on the inner peripheral side of the opposing sides of the support rings 201 and 202 at a magnetic pole interval that repels the magnetic poles of the first permanent magnet 103 . .
Furthermore, in the central portion of each facing side of the support rings 201 and 202, both magnetic poles are arranged in the radial direction of the support rings 201 and 202 so that the second permanent magnet 104 and the third permanent magnet 105 face each other. A pair of the seventh permanent magnet 205 and the eighth permanent magnet 206 are arranged along the circumferential direction of the facing central portions of the support rings 201 and 202 with the magnetic poles in a repulsive relationship with respect to the magnetic poles.
Also, an electromagnetic coil 300 is fixedly arranged along the rotation direction of the fourth permanent magnet 106 on the inner wall of the wind tunnel 200 between the two support rings 201 and 202 .

Therefore, the first permanent magnet 103 of the wind power rotating body 100 floats and rotates without contact with the fifth permanent magnet 203 and the sixth permanent magnet 204 of the both support rings 201 and 202 to form a rotating wind turbine. Vibration in the rotation axis direction of 101 is reliably prevented.
Moreover, the second and third permanent magnets 104 and 105 of the wind power rotating body 100 float and rotate without contacting the seventh permanent magnet 205 and the eighth permanent magnet 206, and rotate in the radial direction of the rotating windmill 101. To surely prevent vibration.
Due to these non-contact rotations, the wind power rotating body 100 has extremely minimal rotation drive loss and performs stable floating rotation operation, so contact-type rotation bearings are basically unnecessary. However, there is no problem in providing a rotary bearing.

Since the present invention exhibits the above-described excellent effects, it can contribute to the power generation industry as well as general households, and has great industrial applicability.

100: Wind power rotating body 101: Rotating windmill 102: Donut ring 103: First permanent magnet 104, second permanent magnet
105: Third permanent magnet
106: Fourth permanent magnet
200: wind tunnel 201, 202: support ring
203: fifth permanent magnet
204: sixth permanent magnet
205: seventh permanent magnet
206: Eighth permanent magnet
300: electromagnetic coil

Claims (1)

A wind tunnel (200) has a rotating windmill (101) at its radially central portion, and the tip of the rotating windmill (101) is supported by a donut ring (102). First permanent magnets (103) having both magnetic poles arranged in the axial direction and having the same magnetic poles aligned along the circumferential direction of the donut ring (102) are arranged in front and rear of the donut ring (102) in the axial direction. A second permanent magnet (104) and a third permanent magnet (105) having both magnetic poles arranged radially on each surface and having the same magnetic poles aligned along the circumferential direction of the donut ring (102) are arranged to form the donut ring (102). Equipped with a wind rotating body (100) in which fourth permanent magnets (106) are arranged with magnetic poles directed alternately in the radial direction on the outer circumference of a ring (102),
The wind tunnel (200) is provided with support rings (201, 202) facing each of the front and rear surfaces of the donut ring (102) in the axial direction at a predetermined interval,
The fifth permanent magnet (203) is supported on one of the support rings (201, 202) by making the magnetic poles of the first permanent magnet (103) and the magnetic poles of the first permanent magnet (103) in a repulsive relationship on the facing side of one of the support rings (201). A pair of seventh permanent magnets (205) arranged in the circumferential direction of the ring (201) and facing the magnetic poles of the second permanent magnets (104) in a repulsive relationship are arranged around the one support ring (201). arranged in the direction of
In addition, the magnetic poles of the first permanent magnet (103) on the opposite side of the other supporting ring (202) of the two supporting rings (201, 202) are in a repulsive relationship, and the sixth permanent magnet (204) is connected to the other supporting ring (201, 202). A pair of eighth permanent magnets (206) arranged in the circumferential direction of the support ring (202) and facing each magnetic pole of the third permanent magnet (105) in a repulsive relationship with the other support ring (202) and the wind tunnel between the support rings (201, 202) A wind turbine generator, characterized in that an electromagnetic coil (300) is fixedly arranged along the rotation direction of the fourth permanent magnet (106) on the inner wall of the (200).

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