KR101136546B1 - Wind-collecting type wind power generator - Google Patents

Abstract

The present invention is a wind-type wind turbine generator comprising a housing for forming a flow path, a propeller rotatably installed in the boss portion supported by the stator installed in the housing, and a generator for generating power using the rotational force of the rotating shaft of the propeller. It is provided with an air inducing means for generating a resistance of the air flowing through the inlet side of the housing on the outer peripheral surface of the housing to guide the inlet side of the housing.

The wind power generator may increase power generation efficiency by guiding wind toward an inlet side to increase power generation efficiency.

Windmill, Blower, Static Pressure, Back Pressure, Housing, Propeller

Description

Wind-collecting type wind power generator

The present invention relates to a windmill for wind power generation, and more particularly, to a windmill that can improve the power generation efficiency by guiding the wind in the direction of the blade to increase the amount of wind.

In general, windmills can be developed by converting wind kinetic energy into rotational energy. Horizontal windmills whose rotation axis is horizontal with respect to the wind represented by Dutch windmills, and vertical axes whose rotation axis is perpendicular to the wind Type windmills are known.

Among them, vertical axis windmills are drag type that rotates the windmill by drag generated on the blade such as paddle type or savonius type, and lift type that rotates the windmill by lifting force generated on the blade such as Darius type or Shilomill type. It is known from Japanese Patent Laid-Open No. 54-153944.

That is, the former rotates the windmill by the drag difference while reducing the resistance of the blade toward the blow-up side, while the latter rotates the windmill by the lift force generated in the blade.

However, in the case of the vertical (electron type), when the main speed ratio (blade's air foil end speed / wind speed) is 1, there is no moment to rotate the windmill further, so even if the wind speed rises, the rotation speed may be higher. There is a problem that the power generation efficiency is worse.

On the other hand, in the latter case (lift type), the aerodynamic characteristics of the windmill are improved and the windmill can be efficiently rotated when the circumferential ratio is 1 or more, but the aerodynamic characteristics of the windmill are deteriorated when the circumferential ratio is 1 or less, and the moment of rotating the windmill becomes small. . In addition, there was a drawback that the starting moment was small and the starting from the stationary state was very difficult.

Therefore, a strong wind is required to increase the power generation efficiency of the windmill. For this reason, a conventional windmill is installed along a coastline or a place where a lot of wind is required, such as using a high terrain such as a mountain or a ground. In addition, such a windmill has a large body size in proportion to the power generation capacity to be obtained. Accordingly, as the propeller of the windmill grows, the height of the whole body is formed high from the ground to receive a lot of wind.

Such a windmill for conventional wind power generation can obtain a large-capacity power generation only when the windmill is enlarged in size. Therefore, the installation work is difficult due to the location of the windmill. There is a growing problem.

On the other hand, Korean Patent Publication No. 2004-0089850 discloses a wind generator. This wind generator discloses a technical configuration in which a wind collecting guide is installed at the front end of a wind guide tube provided with a main fan. The conventional wind generators increase the power generation efficiency by collecting the wind toward the main fan side by the wind collecting guide, but when the wind direction does not match the direction of the wind, the wind collecting guide installed at the end of the guide tube has a constant wind direction in the local wind. Not only) is affected by not only the wind is not made smoothly, but also prevents the wind guide tube from rotating in the wind blowing direction.

The present invention is to solve the problems as described above, to increase the amount of wind generated by inducing the wind toward the propeller to increase the efficiency of the wind to provide a wind-type wind turbine generator that can efficiently generate power in a wide range of wind speed range There is a purpose.

Another object of the present invention to improve the power generation efficiency even at a small wind speed, to provide a wind-type wind power generator that can minimize the influence of the direction of the wind.

Wind turbine of the present invention for achieving the above object is

It comprises a housing for forming a flow path, a propeller rotatably installed in the maintenance portion supported by the stator installed in the housing, and a generator for generating power using the rotational force of the rotating shaft of the flopper,

Characterized in that the air guide means for generating a resistance of the air flowing through the inlet side of the housing on the outer peripheral surface of the housing to guide the inlet side of the housing.

In the present invention, the air inducing means has a plurality of vanes radially installed on the outer peripheral surface of the rear end side of the housing.

And the housing is rotatably installed to the windy side by the support portion installed in the frame.

As described above, the wind turbine type wind turbine generator of the present invention increases the resistance of the wind flowing along the outer circumferential surface of the housing at the outlet outer peripheral surface of the housing to guide the wind flowing along the outer circumferential surface of the housing toward the inlet side of the housing. Can be maximized.

In addition, the wind-type wind power generator of the present invention can increase the resistance of the wind flowing through the outer circumferential surface of the housing can be improved to improve the directivity of the wind relative to the housing.

In the wind-type wind turbine generator of the present invention, wind power flowing along the outer circumferential surface of the housing can be induced to the inlet side of the housing to increase power generation efficiency, and an embodiment thereof is illustrated in FIGS. 1 to 2.

Referring to the drawings, the wind turbine-type wind turbine generator 10 includes a housing 20 forming a flow path 21 and a boss portion 32 supported by a stator 31 installed on an inner circumferential surface of the housing 20. It is provided with a propeller (30) rotatably installed. The propeller 30 is provided with a hub 34 at the end of the rotation shaft 33 supported by the boss portion 32, and has wings 35 radially installed from the hub 34, which are the wings 35. ) Is installed at an angle with respect to the axial direction. And the wing 35 is preferably formed to gradually increase the resistance area of the wind toward the end side from the base fixed to the hub (34). However, the present invention is not limited thereto, and an end side of the wing 35 may be formed to have a wider wing area. Although not shown in the drawing, the inclination angle of the wing supported by the hub may be adjusted according to the strength of the wind.

The propeller is not limited to the above-described embodiment and may be any structure as long as it can obtain a rotational force for power generation by wind power in the flow path formed by the housing.

In addition, the stator 31 has a generator 40 connected to the rotary shaft 33 to generate power by its driving force, and a support 51 supporting the housing on the outer circumferential surface thereof so as to be rotated in a windy direction. It has a holding means (50), and on the outer circumferential surface of the housing 20 is provided with air inducing means (60) for generating a resistance of the air flowing through the inlet side of the housing to guide the inlet side of the housing.

Since the generator 40 installed inside the flow path of the housing is installed on the flow path 21 inside the housing 20, it is preferable to minimize the air resistance so that the wind resistance passing through the flow path can be minimized as much as possible. Do. The generator does not necessarily need to be installed in the flow path of the housing 20 here.

The strut means 50 is a strut 51 installed on the ground that can support the housing 20 in which the generator is installed in a region that can be relatively affected by wind, and an end portion of the strut 51. A first link 52 supported and rotatably installed relative to the support 51 and a second link 53 rotatably installed relative to the first link 52 at an end of the first link 52. ) And the end of the second link 53 are bearing-coupled to the center of gravity of the housing 20 so that the shaft of the propeller 30 is horizontal to the windy direction.

The holding means is not limited by the above-described embodiment, and may be formed of a structure installed at a predetermined height on the ground, and the housing having a plurality of generators may be installed in the structure. And the holding means may be made of a frame in which the housing is installed by the plurality of generators are floating by the airship.

The air inducing means 60 may induce air to the inlet side of the housing 20 by generating a resistance of the air to the outer peripheral surface side of the housing 20, the outer peripheral surface of the housing 20 is It may be made of an inclined portion 61 is extended from the inlet side toward the outlet side. Here, the outer circumferential surface of the inclined portion 61 is preferably formed in a streamline to reduce the surface resistance of the fluid on the housing surface. Here, the inclined portion 61 is preferably to have a 10 to 30 degrees with respect to the reference line passing through the rotation axis.

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In another embodiment of the air inducing means 60, as shown in FIG. 3, a plurality of vanes 65 may be formed radially on the outer circumferential surface of the rear end side of the housing. The collar 65 may be made of a metal plate fixed to the housing, in which case it may have a structure gradually expanded in the radial direction from the inlet side to the outlet side on the outer peripheral surface of the housing.

In another embodiment of the air inducing means 60, as shown in FIG. 4, a ridge 66 may be formed in which a central portion of the outer circumferential surface of the housing 20 protrudes from an inlet side. It is formed in the direction gradually extended from the flow path inlet side of the housing.

On the other hand, the wing cross-sectional area of the propeller is preferably formed as a streamlined air foil type used in the plane represented by air foil type, RAF air foil type, gettingen air foil type and the like as possible.

The wind power generator configured as described above is generated by local wind or seasonal wind in the state of being installed on the support means. That is, since the inclined portion 61, which is the air induction means 60, is installed on the outer circumferential surface of the housing 20 supported by the holding means 50, the housing 20 is directed in the wind blowing direction. Wind is introduced into the flow path 21 of the housing 20, the propeller 30 is rotated by the introduced wind to generate power.

In this process, since the inclined portion of the air induction means 60 is installed in the housing 20, resistance is generated on the outer circumferential surface of the housing 20 by the inclined portion 61. That is, resistance to air flow is generated at a portion corresponding to the inclined height region of the housing, and a positive pressure is generated around the inlet-side housing of the flow path 21 by the resistance. The generation of the static pressure is caused by the air on the outer circumferential surface of the housing 21. This leads to the flow path 21 side can increase the amount of air introduced through the flow path, that is, the density of the air, and can further increase the driving efficiency of the propeller (30).

In particular, since the feather 65 of the housing is formed, it is possible to maximize the induction effect of the air as described above. And since the area of the end of the propeller is formed relatively wide it can increase the rotation moment in the centrifugal direction.

 While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a perspective view of a wind turbine generator according to the present invention,

2 is a cross-sectional view of the wind power generator according to the present invention,

Figure 3 is a perspective view showing another embodiment of the wind power generator according to the present invention,

Figure 4 is a perspective view showing another embodiment of the wind power generator according to the present invention,

5 is a cross-sectional view showing the operation of the wind turbine generator according to the present invention.

Claims (4)

A housing having an inclined portion whose outer peripheral surface extends from the inlet side of the flow passage toward the outlet side; And a propeller rotatably installed in the boss portion supported by the stator installed in the housing, and a generator generating power by using the rotational force of the rotation shaft of the propeller.  Induces resistance of the air flowing through the inlet side of the housing to the outer peripheral surface of the housing to guide the inlet side of the housing, the air induction having a plurality of feathers radially installed on the outer peripheral surface of the rear end side of the housing Sudan, Supporting the housing so that it can be rotated in the windy direction, a support, a first link supported on the end of the support and rotatably installed relative to the support, and a first link at the end of the first link And a holding means having a second link that is installed to be rotatable relative to and bearing-coupled to the center of gravity of the housing. delete delete delete

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