KR101732931B1 - High efficient wind power generator for low speed wind conditions using drag type structure - Google Patents

Abstract

The present invention relates to a high-efficiency wind power generation device for low wind using a drag type structure, capable of collecting power at a low wind speed. The present invention comprises: a turbine fixing unit; a turbine unit; and a cup. The turbine fixing unit is installed to make a fixed frame rotatable around a strut. The fixed frame integrally formed by connecting a bar to the upper end of the strut is fixed and installed radially around the strut. The turbine unit has a blade and a generator and is fixed and installed on the tip of each fixed frame. The cup is disposed between the strut and the turbine unit and receives wind through an opened portion to generate a force for pushing and rotating the fixed frame. The cup has a shape in which one side in the longitudinal direction is opened, and both ends are closed by cutting the cylindrical column along a central axis. The longitudinal edge of the opened portion is fixed to the fixed frame.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a low-wind-induced high-efficiency wind turbine generator using a drag-

More particularly, the present invention relates to a low-wind-induced high-efficiency wind power generator, in which a drag-type cup is mounted on a fixed frame provided with a blade at a tip end thereof to rotate the turbine fixing section at low wind speed, The present invention relates to a low-wind-induced, high-efficiency wind turbine generator using a drag-like structure capable of recovering power at low wind speed while accelerating a blade.

Wind power generation is a power generation system that converts wind energy into mechanical energy using various types of rotating blades and drives the generator with this mechanical energy to generate electric power. The output of wind power generation is the air density and wind receiving area (P = ½ρAV³), it is necessary to increase the flow area (A) and increase the rotation speed (V) in order to increase the output, because it depends on the swept area and the wind speed. Among the factors that determine the output of the wind power generation, only the swing area is the engineering factor and the rest are the natural conditions. In order to increase the output, the most important thing is to increase the rotation speed artificially.

On the other hand, wind power is an indispensable factor in wind power generation. The term 'wind force' refers to the abbreviation of the current status of wind power resources. In case of showing the wind speed, it displays the average wind speed, wind energy density, wind direction and wind speed distribution, It is used as an important resource for selecting a region and capacity of a generator suitable for a specific place. Considering that more than 90% of wind turbines installed in Korea are low wind farms, the emergence of wind turbine technology capable of output recovery even in low wind conditions is urgent.

Applicant (inventor) of the present invention has developed and patented patent registration No. 1565466, "Vertical-axis wind power generator capable of high-efficiency power generation in low wind speed", in order to increase the efficiency of wind power generation installed in low- In the above patent, since the blade rotors are directly mounted on the columns and the columns are used as the rotating shafts, the rotation radius of the blades is small and the height of the columns is increased to expand the length, It is a technology that can achieve high output with high efficient power generation even in the low wind. However, when the wind speed is as low as 3 m / sec or less, there is a problem that the rotation of the blades is difficult and the power generation can not be performed.

Therefore, the emergence of wind power generation technology capable of recovering power at low wind speed in the region where the annual average speed of wind is 3 ~ 4m / sec like in Korea is desperately required.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a drag-type cup on a fixed frame of a turbine- It is possible to rotate the fixed frame even at low wind speed by the drag force so that the blade installed at the tip of the turbine fixing portion is accelerated and the wind speed is increased so that the blade is rotated so that the output can be recovered even at low wind speed And to provide a low-wind-induced high-efficiency wind power generation device.

The low wind-induced high-efficiency wind power generator using the drag-like structure according to the present invention comprises: a pipe-shaped pole having a lower end fixedly installed on the ground; A turbine fixing part fixedly installed in a radial manner about a support, the support frame being integrally formed by connecting a bar to an upper end of the support, the fixing frame being rotatable with respect to the support; A turbine section having a blade and a generator and being fixedly installed at a tip end of each of the stationary frames; The cylindrical column is cut along the central axis and opened at one side in the longitudinal direction and closed at both ends so that the longitudinal edges of the open portion of the cylindrical column are fixed to the fixed frame, And a cup that receives the wind through the opened portion and generates a force to push and rotate the fixed frame.

Preferably, the turbine portion includes a main body fixedly mounted on a front end of the stationary frame and having a generator therein, and a blade radially installed around the main body, And the surfaces to be formed are arranged parallel to each other.

Preferably, the turbine portion includes: a shaft having a front end (distal end) of the stationary frame separated into an upper portion and a lower portion, and fixed in a vertical direction between an upper portion and a lower portion of the separated stationary frame; A generator fixedly mounted on a lower portion of the shaft; An arm radially installed on the shaft and radially installed at an upper portion and a lower portion, respectively, and paired with each other; And a blade arranged vertically to an end of the arm and fixed to an upper end portion and a lower end portion which are paired with each other.

The low-wind-induced high-efficiency wind power generator according to the present invention is a structure in which a drag-like cup is mounted on a fixed frame of a turbine fixing portion provided radially at the upper end of a vertically installed support and a blade is provided at the tip of the fixed frame, Because the force of the wind and the drag that the cup receives from the wind act simultaneously, it is possible to rotate the blade while rotating the stationary frame at low wind speeds. Therefore, it is possible to generate power even at low wind speeds at which it is difficult to rotate the blades by only the force of wind (speed), thereby enabling output recovery.

1 is a view showing an embodiment of a wind power generator according to the present invention.
2 is a view showing an example of the coupling relationship between the strut and the turbine fixing portion.
3 is a view showing another embodiment of the wind power generator according to the present invention.
Fig. 4 is an enlarged view of the turbine section in Fig. 3; Fig.

The most significant technical feature of the low-wind-induced high-efficiency wind power generator according to the present invention is that the drag force cup is mounted on the fixed frame of the turbine fixing section, This allows the blade to rotate while rotating the frame, thereby enabling output recovery at low wind speeds.

A wind turbine generator according to the present invention includes a pipe 10 having a bottom fixedly mounted on a ground surface, a turbine fixing part 20 radially installed at the upper end of the support 10, And a turbine section 30 provided at the tip end of each turbine fixing section 20 with a generator.

The turbine fixing portion 20 is a portion for fixing the turbine portion 30 installed at the tip of the stationary frame 21. The stationary frame 21 is integrally formed by welding bars of an upper end portion of the column 10 to form a single body. The stationary frame 21 is fixed radially around the column 10 and rotates about the column 10 . Since the fixed frame 21 is installed so as to protrude perpendicularly to the strut 10 and the turbine portion 30 is mounted at the front end thereof, the portion where the fixed frame 21 is connected to the strut 10 is inclined It is preferable to provide a reinforcing portion 211 by welding the shape of a bar in the direction (see Fig. 1).

The cup 23 is configured to rotate the fixed frame 21 by the force of wind and to cut the hollow cylindrical column in half along the central axis so that one side The other surface is a curved surface along the circumference, and both ends of the longitudinal direction are closed. The cup 23 is installed to be positioned between the support 10 and the turbine 30 so that the longitudinal edges of the cylindrical columns of the open portion are fixed to the rod shape of the fixed frame 21 by welding or the like , The wind is received through the open part, and a force for pushing and rotating the fixed frame 21 by the force of wind is generated.

A sleeve 11 is fixed to the upper end of the strut 10 and an upper end portion of the sleeve 11 and a lower end outer peripheral surface of the sleeve 11 are fixed to each other, And a bearing 13 is provided to the bearing cover 12. Reference numeral 12 denotes a bearing cover (see Fig. 2). The fixed frame 21 installed in this manner is forced by the force of the wind force and the force of the drag force due to the wind while receiving the wind through the open portion of the cup 23, The number of revolutions of the blade is increased at a low wind speed with a low wind speed.

The turbine unit 30 includes a blade 31 and a generator (not shown in the figure) so as to be fixed to the front end of each stationary frame 21, A turbine section 30 is disposed in a horizontal axis wind power generation type or a vertical axis wind power generation type.

Figure 1 is an embodiment in which a blade is disposed in a horizontal axis wind power generation type. The turbine section 30 includes a main body 32 fixed to the front end of the stationary frame 21 and having a generator therein, The blades 31 are arranged such that the plane formed by the blades 31 and the plane formed by the fixed frame 21 are parallel to each other.

Figure 3 is an embodiment in which the blade is arranged in a vertical axis wind power type in which the turbine section 30 'is arranged such that the arm 34' is disposed radially about the shaft 33 ' And a blade 31 'is provided at an end of the blade 31'.

A shaft 33 'is disposed vertically between the upper portion and the lower portion of the distal end of the separated fixed frame 21' so that the shaft 33 ' 'Are fixedly installed by fasteners 36'. The fixture 36 'may be any structure as long as it can fix the shaft 33' to the fixed frame 21 '.

A generator 35 'is fixedly installed at a lower end portion of the shaft 33', and is generated as the blade 31 'rotates. The arm 34 'is installed radially around the shaft 33', and is installed radially in the upper part and the lower part of the shaft 33 ' 31 'are fixed to the upper end and the lower end of the arm 34', which are paired with each other while being arranged in a direction perpendicular to the end of the arm 34 '.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention. Various modifications and variations will be possible without departing from the spirit of the invention. Therefore, the scope of the present invention should be construed as being covered by the scope of the appended claims, and technical scope within the scope of equivalency thereof should be construed as being included in the scope of the present invention.

10: Support 11: Sleeve
12: bearing cover 13: bearing
20, 20 ': turbine fixing parts 21, 21': fixed frame
211: reinforced portion 23: cup
30, 30 ': turbine section 31, 31': blade
32: main body 33 ': shaft
34 ': arm 35': generator
36 ': Fixture

Claims (3)

delete A pipe-shaped pole fixedly installed on the ground at the lower end;
A turbine fixing part fixedly installed in a radial manner about a support, the support frame being integrally formed by connecting a bar to an upper end of the support, the fixing frame being rotatable with respect to the support;
A turbine section having a blade and a generator and being fixedly installed at a tip end of each of the stationary frames;
A cylindrical column is cut along the central axis so that one side in the longitudinal direction is opened and both ends are closed and each longitudinal edge of the opened portion is fixed to the fixed frame, A cup receiving the wind through the open portion of the cylindrical column to generate a force for pushing and rotating the fixed frame;
Wherein the turbine section comprises:
A main body fixed to the tip of the stationary frame and having a generator therein;
A blade radially installed around the body;
Wherein the plane formed by the blades and the plane formed by the fixed frame are disposed in parallel with each other. The low wind-induced high-efficiency wind power generator using the drag-like structure.
A pipe-shaped pole fixedly installed on the ground at the lower end;
A turbine fixing part fixedly installed in a radial manner about a support, the support frame being integrally formed by connecting a bar to an upper end of the support, the fixing frame being rotatable with respect to the support;
A turbine section having a blade and a generator and being fixedly installed at a tip end of each of the stationary frames;
A cylindrical column is cut along the central axis so that one side in the longitudinal direction is opened and both ends are closed and each longitudinal edge of the opened portion is fixed to the fixed frame, A cup receiving the wind through the open portion of the cylindrical column to generate a force for pushing and rotating the fixed frame;
Wherein the turbine section comprises:
A shaft having an upper end separated from an upper end of the fixed frame and fixed vertically between an upper portion and a lower portion of the separated fixed frame;
A generator fixedly installed at a lower end portion of the shaft;
An arm radially installed on the shaft and radially installed at an upper end portion and a lower end portion of the shaft and paired with each other;
A blade disposed perpendicularly to an end of the arm and fixed to an upper portion and a lower portion of the pair,
And a low wind-induced high-efficiency wind power generator using the drag-like structure.

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