KR101492160B1 - Windmill aerogenerator - Google Patents

Abstract

The present invention relates to a hinge shaft fixing plate (42) which is mounted on a generator shaft (41);
A centrifugal weight 44 installed at one end of the bending bar 43 attached to the hinge shaft fixing plate 42 at a center thereof by a hinge shaft 43a to induce a centrifugal force;
A first magnet plate for power generation (50) attached to the power generation shaft (41) and provided with a linear guide (45) interlocked with the other end of the bending bar (43);
The power generating first magnet plate 50 and the second magnet plate 60 are moved toward or away from each other by the linear guides 45 interlocked with the bending bar 43 along the power generating shaft 41 in both directions And a cylinder (70, 70 ').

Description

Windmill aerogenerator

The present invention relates to a hinge shaft fixing plate axially fixed to a power generating shaft,

A centrifugal weight installed at one end of the bending bar installed at the center of the hinge shaft fixing plate so as to serve as a seesaw as a hinge axis to induce a centrifugal force;

A first power generating magnet plate attached to a power generating shaft and having a linear guide interlocked with the other end of the bending bar;

And a bidirectional cylinder provided on the power generation shaft so that the first and second magnet-generating power generating magnets are brought close to or away from each other by a linear guide interlocking with the bending bar along the power generating shaft.

The wind power generation technology has been developed in various forms such as a propeller type and a cylindrical wing structure, but the strength of the wind power is not constant and it is not easy to achieve constant development.

A structure in which a vertical blade angle is variably spread on the outer surface of the double cylindrical body is developed (first technical group) in Korean Patent Nos. 10-0620948, 10-0743475, and 10-0938669,

A structure in which the angle of the vertical wing on the surface of the circular cylinder of the source circle is flexibly folded inwardly into the surface to develop the wind force is developed in the Korean Patent No. 10-2010-0084805 and the Korean Patent No. 10-1121012 , Which are configured to be unfolded or closed in the vicinity of the edge of a vertical wing,

Each of these structures is normally circular and coaxial with each vertical wing, and the wings are unfolded only when the wind is above a certain level (first technical group) (Time for reaching the condition of wind pressure to extend or collapse the wing) from the stop state to the moment when the initial rotation is started, so that the generator can be rotated by the wind direction even in the minute wind pressure, The development of cylindrical windmills has not been achieved.

Most of the wind turbines are disclosed in Korean Patent Registration Nos. 10-0743475 and 10-1015437 for extending a generator to a rotating shaft constituting rotating means for generating rotating force by wind force, but they are integrated with the rotating shaft If the polarity of the magnet for power generation is low and the wind force is weak, the magnet plates are adhered to each other due to the magnetic force between the magnets and the generator shaft is not rotated.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a wind turbine generator that is independently driven separately from a wind turbine generator.

It is another object of the present invention to provide a wind power generator which allows a minimum power generation even when the wind power is weak by separating the gap between the magnets when the wind power is weak.

Another object of the present invention is to provide a wind power generator that maximizes the power generation output by bringing the gap of the magnet plate close to the wind when the wind exceeds the reference value.

To this end, the present invention relates to a hinge shaft fixing plate,

A centrifugal weight provided at one end of the bending bar attached to the hinge axis fixing plate at a center thereof to cause a centrifugal force; a first magnetic plate for power generation, which is installed on the surface of the bending bar, And a bidirectional cylinder provided on the power generation shaft such that the first and second magnet-generating power generating magnets are brought close to or away from each other by a linear guide interlocked with the bending bar along the power generating shaft.

The present invention provides a wind turbine generator that is independently driven separately from a wind turbine generator.

The present invention provides a wind power generator that allows a minimum power generation even when the wind power is weak by separating the gap between the magnets when the wind power is weak.

The present invention provides a wind power generator that maximizes the power generation output by bringing the gap of the magnet plate close to the wind when the wind exceeds a reference value.

Brief Description of the Drawings Fig. 1 is a cross-sectional structural view of the present invention,
Fig. 2 is a cross-sectional view of the wind turbine according to the present invention,
3 is a plan view illustrating a linear guide of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings of FIGS.

The power generation device (40) of the present invention includes a hinge shaft fixing plate (42) fixed on a power generation shaft (41);

A centrifugal weight 44 installed at one end of a bending bar 43 installed at the center of the hinge shaft fixing plate 42 so as to seethe hinge shaft 43a to induce a centrifugal force;

A first magnet plate for power generation (50) attached to the power generation shaft (41) and provided with a linear guide (45) interlocked with the other end of the bending bar (43); And

The power generating first magnet plate 50 and the second magnet plate 60 are moved toward or away from each other by the linear guides 45 interlocked with the bending bar 43 along the power generating shaft 41 in both directions And includes cylinders 70 and 70 '.

The bi-directional cylinder 70.70 'installed on the shaft portion of the power generating shaft 41 of the first and second magnet plates 50 and 60 includes fixed cylinders 71 and 71' fixed to the generator shaft 41, and;

The first magnet plate 50 and the second magnet plate 60 move axially opposite to each other at the center of the first magnet plate 50 and the second magnet plate 60, Movable cylinders (72, 72 '); And

And cylinder operating pipes 73 and 73 'for providing the moving forces of the movable cylinders 72 and 72'.

A linear guide 45 is installed on the surface of the first magnet plate 50 so as to face the power generating shaft 41 and the linear guide 45 is bent on the hinge holder 48 exposed through the movement slot 46, The bar 43 is attached to the hinge holder 48 by the hinge rod 49 and the hinge holder 48 is formed on the upper surface of the moving body 47 which is accommodated movably on the bottom surface of the moving slot 46, It can be illustrated as well.

The present invention constructed as described above is in the state of FIG. 1 due to the load of the centrifugal weight 44 when the wind force is strong, but acts in the direction of the arrow by the centrifugal force and is positioned away from the power generation shaft 41 as shown in FIG.

Then, the distance d2 between the first and second magnet plates 50 and 60 is reduced in the interval d1 shown in FIG.

When the interval is shortened, the generation output is increased by the right-hand rule of Fleming in the coil 80 between the first and second magnet plates 50 and 60 (the power generation principle itself by the Fleming's right- The coil and the magnet structure are not shown).

Then, when the wind power is weakened, it moves to the position of the power generating shaft by the gravity in the state of FIG. 2, and it rotates in the counterclockwise direction about the hinge shaft 43a. The moving body 47 of the linear guide 45 moves to both ends of the first and second magnet plates 50 and 60 and the moving body 47 is attached to the hinge holder 49 at the hinge holder 48 , The first magnet plate (50) is pulled in the direction of the centrifugal weight (44) to increase the separation distance from the coil (80).

At the same time, since the first magnet plate 50 and the second magnet plate 60 are coupled to the generator shaft 41 by the bi-directional cylinders 70 and 70 ', when the first magnet plate 50 moves, The magnet plate 60 moves in the direction of the arrow in Fig. This is because the cylinder operating tubes 73 and 73 'are coupled to operate in opposite directions so that they can move in opposite directions to each other. Of course, the bidirectional cylinders 70, 70 'themselves, which perform this reciprocal movement, use conventional articles.

1, the gap between the first magnet plate 50 and the second magnet plate 60 is distanced by the action of the centrifugal weight 44 due to gravity, and the generator shaft is stopped by the magnetic force between the magnets When the wind force is increased, the centrifugal weight 44 is opened as shown in FIG. 2 by the centrifugal force, and the gap between the first magnet plate 50 and the second magnet plate 60 is reduced as shown in FIG. 2, Since the output is normally output, the amount of power generation is improved by the amount generated when the wind is weak.

The first magnet plate 60, the second magnet plate 70, 70 ', the bi-directional cylinder 71, 71', the first magnet plate 70, the second magnet plate 70, A fixed cylinder 72, 72 ', a movable cylinder 73, 73'

Claims (3)

A hinge shaft fixing plate 42 fixed to the power generating shaft 41;
A centrifugal weight 44 installed at one end of a bending bar 43 provided at the center of the hinge shaft fixing plate 42 so as to seethe hinge shaft 43a to induce a centrifugal force;
A first magnet plate for power generation (50) attached to the power generation shaft (41) and provided with a linear guide (45) interlocked with the other end of the bending bar (43);
The power generating first magnet plate 50 and the second magnet plate 60 are moved toward or away from each other by the linear guides 45 interlocked with the bending bar 43 along the power generating shaft 41 in both directions A wind power generator comprising a cylinder (70, 70 ').
The bidirectional rotary electric machine according to claim 2, wherein the bidirectional cylinder (70.70 ') installed at the shaft axial portion of the first magnet plate (50) and the second magnet plate (60) comprises a fixed cylinder (71) fixed to the generator shaft (41) (71 ');
The first magnet plate 50 and the second magnet plate 60 move axially opposite to each other at the center of the first magnet plate 50 and the second magnet plate 60, Movable cylinders (72, 72 ');
And a cylinder operating pipe (73, 73 ') for providing a moving force of the movable cylinder (72, 72'). The linear guide (45) according to claim 2, wherein a straight guide (45) is provided on the surface of the first magnet plate (50) The bending bar 43 is engaged with the hinge holder 48 by the hinge rod 49 and the hinge holder 48 is formed on the upper surface of the moving body 47 accommodated movably on the bottom surface of the moving slot 46 Wherein the wind turbine generator is a wind turbine generator.

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