KR200493463Y1 - Wind Power Generator - Google Patents

Abstract

A wind power generator is started. A support frame having a vertical central axis formed therein; A rotating blade coupled to a vertical central axis and driven to rotate; A wind pressure blocking plate including a generator for converting the rotational force of the rotating blade into electrical energy, rotatably coupled to the front of the rotating blade, and formed to be inclined downward so that the front end faces downward; A weight formed on the rear lower surface of the wind pressure barrier plate to exert a load to incline the wind pressure barrier plate downward; It is formed on the front upper surface of the wind pressure barrier plate, an opening is formed at the front end to constrain the wind, and an air pocket formed by blocking the rear end and the side surface.
Accordingly, when a strong wind pressure such as a typhoon is applied, the wind pressure blocking plate is erected to protect the blade from strong wind pressure, thereby preventing damage to the blade and the generator driven therefrom.

Description

Wind Power Generator

Disclosed is a wind power generator, and more particularly, to a wind power generator capable of preventing damage to the blades by blocking wind pressure from being applied to the blades due to excessive wind speed.

Unless otherwise indicated herein, the content described in this section is not prior art to the claims of this application, and inclusion in this section is not admitted to be prior art.

Wind power generators are devices that produce electric energy based on wind. When the wind rotates the rotor blades, the rotational force drives the generator to produce electricity.

In general, a wind turbine is composed of a rotating blade and a generator. The generator generates electricity while forming a magnetic field by a central rotor and a stator surrounding the outside. The basic principle of generator operation follows the Ampere law and Faraday's law of electromagnetic induction.

On the other hand, as a condition for a wind turbine to operate properly, a wind of at least 4 m/s per second on average is required, and the wind direction must be perpendicular to the rotation to achieve maximum efficiency.

The inventors have applied for Korean Patent Application No. 10-2016-0130477 "Wind Direction Tracking Wind Power Generator" and have been registered for a patent.

Korean patent application 10-2016-0130477

The disclosed contents are to improve the Korean Patent Application No. 10-2016-0130477, which is the first inventor of the present inventor, and an object thereof is to provide a wind turbine capable of preventing damage to the blade by blocking strong wind pressure.

According to one embodiment, the support frame is formed with a vertical center axis; A rotating blade coupled to the vertical center shaft and driven to rotate; A wind turbine generator comprising a generator for converting the rotational force of the rotational blade into electrical energy, comprising: a wind pressure blocking plate rotatably coupled to a front of the rotational blade and formed to be inclined downward so that a front end thereof faces downward; A weight formed on a rear lower surface of the wind pressure barrier plate to exert a load to incline the wind pressure barrier plate downward; It can be achieved by a wind turbine comprising: an air pocket formed on the front upper surface of the wind pressure barrier plate and formed by forming an opening at the front end and blocking the rear end and the side to constrain the wind.

And a guide panel that is formed in front of the wind pressure barrier plate and controls a direction so that wind is concentrated on the front upper surface of the wind pressure barrier plate.

The guide panel is characterized in that the front end is formed to be inclined upward.

It characterized in that it comprises a; angle adjustment unit for adjusting the inclination angle of the guide panel.

The angle adjustment unit is formed on both sides of the guide panel and characterized in that it comprises a hinge shaft coupled to the pillar, and a fastener that is screwed to the end of the hinge shaft to be in close contact with the pillar.

The pillar is characterized in that a long hole through which the hinge shaft can be coupled is formed, and the height of the hinge shaft is adjusted.

According to the embodiment, when a strong wind pressure such as a typhoon is applied, the wind pressure barrier plate is erected to protect the blade from strong wind pressure, thereby preventing damage to the blade and the generator driven therefrom.

1 is a perspective view showing a wind turbine according to an embodiment,
2 is a side view showing a wind turbine according to the embodiment,
3 is a side view showing an operation example of blocking a strong wind pressure in the wind turbine according to the embodiment;
4 is an exploded perspective view showing a'wind pressure reducing means' provided on a pillar in a wind turbine according to an embodiment;
5 is a perspective view showing a'protection member' provided on a rotating blade in a wind turbine according to an embodiment;
6 is a front view of FIG. 5.

Hereinafter, preferred embodiments will be described in detail based on the accompanying drawings.

The embodiments to be described below are intended to be described in detail enough to allow a person of ordinary skill in the art to easily implement the design, thereby limiting the technical spirit and scope of the present invention. I don't mean it.

In addition, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description, and terms specially defined in consideration of the configuration and operation of the present invention may vary according to the intention or custom of users and operators. It should be noted that, and definitions for these terms should be made based on the contents throughout the present specification.

In the accompanying drawings, FIG. 1 is a perspective view showing a wind turbine according to an embodiment, FIG. 2 is a side view showing a wind turbine according to the embodiment, and FIG. 3 shows an operation example in which the wind turbine according to the embodiment blocks strong wind pressure. It is a side view.

In the accompanying drawings, FIG. 1 is a perspective view showing a wind turbine according to an embodiment, FIG. 2 is a side view showing a wind turbine according to the embodiment, and FIG. 3 shows an operation example in which the wind turbine according to the embodiment blocks strong wind pressure. A side view, FIG. 4 is an exploded perspective view showing a'wind pressure reducing means' provided on a pillar in a wind turbine according to an embodiment, and FIG. 5 is a perspective view showing a'protection member' provided on a rotating blade in the wind turbine according to the embodiment, 6 is a front view of FIG. 5.

As shown in Figures 1 to 6, the wind turbine according to the embodiment, a support frame 100 formed with a vertical center shaft 120; A rotating blade 140 coupled to the vertical central shaft 120 and driven to rotate; It is configured to include; a generator (not shown) for converting the rotational force of the rotating blade 140 into electrical energy.

The support frame 100 is formed by vertically erecting a rectangular metal tube in four places, and installing a column 104, and connecting a plurality of metal tubes horizontally to these columns 104 to assemble a horizontal beam 106 to form a substantially hexahedral body. It is completed with.

As shown in Figure 4, the column 104 is provided with a wind pressure reducing means.

The wind pressure reducing means is composed of a roller 105 formed at each corner of the column 104 and a cover 108 coupled to the outside of the column 104 so as to be in contact with the roller 105.

The cover 108 has a streamlined cross section. Accordingly, the pointed portion of the cover 108 is directed in the direction of the wind, and the wind flows through the curved portions on both sides, thereby eliminating the influence of the wind pressure directly applied to the column.

Alternatively, the cover 108 may have a single or multiple divided shape.

In the cover 108 divided into a plurality, each cover 108 can be individually changed according to the direction of the wind, so that the direction can be changed freely.

Meanwhile, in the present invention, a wind pressure cutoff device 200 is formed in the front of the rotating blade 140, that is, on the side where the wind blows.

Therefore, when a strong wind such as a typhoon blows, the rotating blade 140 rotates at high speed, and an overload is applied to the generator 160 driven therefrom, thereby increasing the risk of failure.

To prevent this, a wind pressure cut-off device 200 is provided in front of the rotating blade 140, and when a high-speed wind blows, the wind pressure cut-off device 200 is turned on to block or reduce the wind pressure. It can prevent overspeed rotation.

Wind pressure cut-off device 200 according to the embodiment is rotatably coupled to the front of the rotary blade 140, the wind pressure cut-off plate 220 formed to be inclined downward so that the front end faces downward; A weight 240 formed on the rear lower surface of the wind pressure barrier plate 220 to exert a load so as to incline the wind pressure barrier plate 220 downward; It is formed on the front upper surface of the wind pressure barrier plate 220, an opening is formed at the front end to constrain the wind, and the air pocket 260 formed by blocking the rear end and the side surface; is configured to include.

The wind pressure blocking plate 220 is composed of a square or semi-circular shape, and hinge shafts 221 are formed on both sides, and the hinge shafts 221 on both sides are hinged and rotated through a column 520 and a bearing 522 as a medium. To be able to.

A metal weight 240 is mounted on the rear lower surface of the wind pressure barrier plate 220 so that the front of the wind pressure barrier plate 220 has a downward inclination of about 10 to 15 degrees so that the weight can be maintained in a balanced manner. have.

Thereafter, when the wind pressure barrier plate 220 is rotated and erected to perform the wind pressure barrier operation, and the wind becomes weak, the wind pressure barrier plate may be rotated to its original state by the weight of the weight 240 and returned to the original state.

Of course, in order to assist the return force, one end of the spring 225 is connected to the lower rear end of the wind pressure blocking plate 220, and the other end of the spring 225 is fixed to the column. 220) can help to return to its original state.

An air pocket 260 is formed on the front upper surface of the wind pressure barrier plate 220, and a force that presses the front of the wind pressure barrier plate 220 acts to confine the wind to the air pocket 260.

Therefore, at the usual appropriate wind speed, the wind pressure barrier plate 220 can be maintained at a slope of about 10 to 15 degrees, but when high-speed wind is applied, the wind pressure increases to the air pocket 260 and the wind pressure barrier plate 220 As the wind pressure blocking plate 220 rotates due to the wind pressure applied to the upper front surface of the front end, it operates to block the wind applied to the rotating blade 140.

Meanwhile, a guide panel 240 for guiding the wind direction toward the front end of the wind pressure barrier plate 220 is formed in front of the wind pressure barrier plate 220.

The guide panel 240 controls the direction so that the wind is concentrated on the front upper surface of the wind pressure barrier plate 220.

Preferably, the guide panel 240 should have a front end inclined upward.

It may include; an angle adjustment unit for adjusting the inclination angle of the guide panel 240.

The angle adjustment unit is formed on both sides of the guide panel 240 and has a hinge shaft 242 coupled to the pillar 500, and a fastener 244 that is screwed to the end of the hinge shaft 221 and is in close contact with the pillar 104 ).

The pillar 500 is formed with a long hole 506 through which the hinge shaft 221 can be coupled through, and the height of the hinge shaft 221 is adjusted.

Therefore, after adjusting the height to the desired position, the position can be fixed by tightening the fasteners 244, and after setting the angle by rotating the guide panel 240 at an appropriate angle, the fasteners 244 can be tightened to fix it. So you can adjust the direction in which the wind is reflected.

Meanwhile, the rotation blade 140 has a bearing housing 142 to which a rotation shaft is coupled at the center, and a plurality of blades 144 radially arranged on the outer circumferential surface of the bearing housing 142 is formed.

In addition, the protection member 180 is coupled to protect the connecting portion 146 of the bearing housing 142 and the plurality of wings 144 from wind pressure.

The protection member 180 is a circular panel that is coupled to the bearing housing 142 and covers the connecting portion 146 of the wing 144.

Therefore, when strong wind blows, the connection part 146 of the wing 144 may be bent, but according to the present invention, the protection member 180 covers the connection part 146 of the wing 144 to prevent wind pressure, thereby preventing damage. have.

Although it has been described in connection with the preferred embodiment, it will be readily recognized by those skilled in the art that various modifications and variations are possible without departing from the gist and scope of the invention, and all such changes and modifications fall within the scope of the appended claims. Is self-explanatory.

100: support frame 104: column
105: roller 108: cover
120: vertical center axis 140: rotating blade
160: generator 200: wind pressure cut-off device
220: wind pressure blocking plate 221: hinge shaft
240: weight 260: air pocket

Claims (4)

A support frame having a vertical central axis formed therein;
A rotating blade coupled to the vertical center shaft and driven to rotate;
In a wind power generator comprising a generator for converting the rotational force of the rotating blade into electrical energy,
A wind pressure barrier plate that is rotatably coupled to the front of the rotary blade and is formed to be inclined downward so that the front end faces downward;
A weight formed on a rear lower surface of the wind pressure barrier plate to exert a load to incline the wind pressure barrier plate downward;
An air pocket formed on a front upper surface of the wind pressure barrier plate and formed with an opening formed at the front end to constrain the wind, and blocked the rear end and the side surface;
Wind power generator comprising a. The method of claim 1,
Includes; a guide panel formed in front of the wind pressure barrier plate and controlling a direction so that wind is concentrated on the front upper surface of the wind pressure barrier plate,
The guide panel is formed with a front end inclined upward,
Including; an angle adjustment unit for adjusting the inclination angle of the guide panel,
The angle adjustment unit
It includes a hinge shaft formed on both sides of the guide panel and coupled to the pillar, and a fastener screwed to the end of the hinge shaft to be in close contact with the pillar,
The pillar is formed with a long hole through which the hinge shaft can be coupled through, and the height of the hinge shaft is adjusted.

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