KR20000008662A - Rotation generating apparatus of wind power generator - Google Patents

Abstract

PURPOSE: A rotation generating apparatus of a wind power generator is provided to increase the turning force by making the rotary wings receive the wind power as it is without losing the wind pressure. CONSTITUTION: The rotation generating apparatus of a wind power generator contains:plural rotary wings(100) radially installed on the upper face of a rotary shaft(12); an upper and a lower bracket(101)(102) having a certain curved surface to the direction where the rotary wings(100) are revolved; plural hinge bars(104) installed in a row with the same interval according to the curved surface between the upper and the lower bracket(101)(102); a wind-swept board(103) revolved by the wind pressure by respectively connecting itself to the hinge bars(104) to open and close the air current; and a stop bar(105) installed in a row on the front face neighboring to the hinge bars(104) to restrict the turning radius of the wind-swept board(103).

Description

Rotation generator of wind power generator

The present invention relates to a rotation generator of a wind power generator, and more particularly, when one side of a windmill rotated by wind power receives wind power, a plurality of wind support plates provided therein are expanded to increase an area of wind power. At the same time, the wind blades are folded on the opposite rotor blade that receives the wind in the reverse direction to improve the wind turbine's rotation efficiency by passing the wind without any resistance.

In general, a wind power generator that generates power by using wind power rotates a windmill using natural wind, and generates power by using a rotating power of the windmill rotated.

The basic structure of the wind turbine is provided with a rotary shaft in the vertical direction to the support provided in the tower shape and at the top of the rotary shaft is provided with a windmill having a plurality of rotor blades rotated by the wind pressure of the natural wind and at the bottom of the rotary shaft It is to have a power generation means to generate power by the rotational force of.

Since such a wind power generator is to obtain rotational power using natural wind, its performance depends on the structure of the windmill, and various kinds of such windmills have been proposed in the past.

Conventional windmills as a representative example of the conventional windmill has a propeller blower having a plurality of propeller-type rotor blades on the top of the rotating shaft to obtain a rotational power, but because the propeller blades are fixed, the power obtained compared to the device and provisional equipment accordingly Not only is this extremely fragile but also has the problem that the wing is easily broken or cut.

In addition to these problems, the wind force applied to the propeller blades is applied in a right angle direction in which the propeller is rotated, and thus, when the wind is weak due to relatively strong resistance, the propeller does not rotate, and thus there is a problem in that the expected effects cannot be sufficiently obtained.

In order to compensate for this problem, windmills for wind power generators of Utility Model Publication No. 94-6132 (windmills for longitudinal wind turbines) have been proposed.

It is provided with a rotating shaft in the vertical direction in the center of the support is installed in a tower shape radially on the top of the rotating shaft of several support members having a certain length, and is connected to the hinge shaft at each end of the support members to the elastic force of the spring It has been provided with the plate-shaped wind blade which can be folded by.

That is, when the wind is applied, the wind vane folded inwardly by the spring receives the wind pressure to generate a rotational force, the centrifugal force and the wind pressure by the rotational force is inclined from the moment the wind vane is rotated on the opposite side It was configured to double the rotational force by expanding due to the negative pressure applied in the direction so as not to receive the maximum relative wind pressure.

However, in such a configuration, first of all, the structure is complicated, so that not only the manufacturability is poor, but also the installation cost is increased due to the installation of large facilities. This was an impossible problem.

In addition, since the wind vane is composed of a plate-like form, the loss of wind pressure causes a lot of performance degradation, and of course, the spring is folded by the elastic force of the spring. .

Therefore, the present invention has been proposed in order to improve the above-mentioned various problems, the object of which is to receive the wind turbine as it is without losing the wind pressure to increase the rotational force and at the same time the wind pressure on the opposite rotor blades It is to provide a rotation generator of the wind power generator to improve the performance, such as to obtain a sufficient rotational force even if the wind pressure is weak by not receiving a resistance according to the.

Another object of the present invention is to provide a rotation generator of a wind power generator that can simplify the configuration and improve the workability according to the installation while improving the workability and significantly reducing the cost.

Another object of the present invention is to provide a rotary generator of a wind generator that can be used in a general purpose by installing in a variety of areas without a great concern for the size of the wind because the structure is simple and can be varied in size. .

The present invention for achieving this object is provided with a plurality of wind plates in the rotary blades to be opened and closed according to the wind pressure in the rotary blades of the wind receiving side by the wind pressure to expand the wind power plate to receive the maximum wind pressure to increase the rotational force. On the opposite side of the rotor blades, a plurality of wind plates are folded in line with the airflow by centrifugal force and wind pressure to improve the rotational force of the rotor blades by passing all the winds without resistance.

1 is a schematic configuration diagram of a generator using wind power to which the present invention is applied

Figure 2 is a perspective view showing the main part of the present invention

Figure 3 is an exploded perspective view of the main portion of the rotary blade of the present invention

Figure 4 is a cross-sectional configuration of the present invention Figure 2

Figure 5 is a block diagram showing the operating state of the present invention blocked the passage of the air flow

Figure 6 is a block diagram showing the operating state of the present invention the passage of the air flow is open

<Description of the symbols for the main parts of the drawings>

10: wind generator 11: support

12: rotary shaft 13: flywheel

14: pulley 15: power generation means

100: rotary blade 101,102: bracket

103: wind board 104: hinge rod

105: stop rod R: curved surface

The configuration and operation of the present invention in detail with reference to the accompanying drawings as follows.

Figure 1 of the accompanying drawings shows a schematic configuration diagram of a generator using a wind power to which the present invention is applied, Figure 2 is a perspective view showing the main portion of the present invention, Figure 3 shows the main part exploded perspective view of the rotary blade of the present invention have.

In the drawing, reference numeral 10 denotes a schematic main body of the wind power generator to which the present invention is applied, which is provided with a rotating shaft 12 perpendicular to the center of the support 11, and the upper end of the rotating shaft 12 rotates. The wing is provided is rotated by the wind pressure of the natural wind to rotate the rotary shaft 12.

In addition, the flywheel 13 is provided at the bottom of the rotary shaft 12 and the pulley 14 is provided to transmit the rotational force of the rotary shaft 12 to the power generating means 15 to generate power.

This configuration has the same configuration as in the prior art, but in the present invention, the structure of the rotary blade is improved, and reference numeral 100 in the drawing denotes the rotary blade.

The rotary blade 100 is shown in more detail in Figures 2 to 3 of the accompanying drawings, which will be described here only one, as many have the same structure as being radially provided on the rotating shaft 12. .

The rotary blade 100 is a plate-shaped upper and lower bracket 101, 102 is formed in a certain round is fixed on the outer circumferential edge of the rotary shaft 12 by one end thereof by welding or the like, the upper and lower Between the brackets 101 and 102, a plurality of wind support plates 103 in the vertical direction are provided to pivot the hinge rods 104 to the support points, and at the position close to the hinge rods 104, the windshield plates are provided. Stop rods 105 for limiting the turning radius of the 103 are provided at regular intervals.

To explain this in more detail, the upper and lower brackets 101 and 102 are configured to maintain a constant curved surface R in the direction in which the rotary blade 100 is rotated so as to easily receive the wind pressure, and the upper and lower brackets 101 and 102. The hinge rods 104 and the stop rods 105 provided on the brackets 101 and 102 are also provided in a streamlined shape along the curved surface R while having a predetermined interval.

That is, the hinge rod 104 is provided with a stop rod 105 at equal intervals along the curved surface R in the heat transfer between the upper and lower brackets 101 and 102 and at the same time, the windshield 103 is fastened to the rear heat. ) Are also provided at equal intervals along the curved surface (R).

At this time, the wind baffle plate 103 provided on each of the hinge rods 104 is formed in a plate shape so that the hinge rods 104 thereof are rotatable to a support point, and other adjacent hinge rods 104 during rotation operation. And the radius of rotation of the stop rods 105.

That is, when the wind pressure is received by the wind fan plate 103 by the wind pressure is rotated to the rear row side is caught by the other hinge rods 104 adjacent to maintain the entire unfolded state to receive the wind pressure applied to the rotary wing 100 as it is In addition, when the rotary blade 100 is rotated to the opposite side, the windshield 103 is rotated by the wind pressure and folded in the state caught by the stop rod 105 of the heat transfer to fully open the passage of the air flow Will be done.

On the other hand, in the structure as described above when the wind drive plate 103 is rotated to the stop rod 105 side to facilitate the operation from the reference line (P) of the hinge rod 104 and the stop rod 105 It would be desirable to be configured to maintain an angle within the range of at least about 5 °.

Therefore, the rotary blades 100 of the present invention configured as described above are radially installed on the top of the rotary shaft 12 of the wind power generator to generate rotational power by the wind of natural wind.

That is, when the wind is applied in the direction of the arrow as shown in Figure 5 of the accompanying drawings, the windshield plate 103 of the rotary blades 100 by the wind power is rotated to the support point hinge rod 104 to the rear row By being unfolded while being caught in another adjacent hinge rod 104, the rotary blade 100 receives the wind pressure without loss and provides rotational force.

At this time, the windshield 103 is a state in which the entire unfolded to form a streamlined plate along the curved surface (R) of the upper and lower brackets 101, 102 as a whole to effectively receive the wind pressure applied. will be.

In this way, when the rotary wing 100 rotated under the wind pressure is moved to the opposite side, as shown in FIG. 6, the front and rear rows of the upper and lower brackets 101 and 102 are changed to each other, thereby allowing the windshield 103 to be rotated. They are rotated until the wind is stopped by the stop rod 105 of the heat transfer by the wind pressure.

At this time, the windshield 103 is rotated while maintaining the same line as the air flow according to the position of the rotation of the rotary blade 100 is rotated between the upper and lower brackets 101, 102 of the rotary blade 100. By opening, the wind is passed as it is so that the rotary blade 100 is not subjected to any resistance.

Therefore, on the rotor blade 100 side subjected to wind pressure, the wind pressure can be obtained without loss as much as possible, as well as to obtain sufficient rotational force. On the other side, the wind receiving plate 103 forms a straight line with the airflow, thereby allowing no resistance. The wind power will not double the overall power of the windmill.

As described in detail above, the present invention is one wind blade to provide the rotational force of the rotary blade in the wind blowing direction is automatically unfolded to increase the rotational force by receiving the maximum wind resistance and at the same time the wind blade on the opposite rotation blade They are opened in a straight line with the airflow, and have no effect of increasing resistance by increasing resistance.

In particular, such a rotary wing is able to obtain the same effect even if the wind blows in any direction, and even if the wind pressure is weak enough to obtain a sufficient rotational power is to significantly improve the efficiency of the power generation.

In addition, the rotary blade of the present invention has a simple structure, thereby improving the manufacturability according to the manufacturing process and at the same time significantly reducing the cost.

Claims (1)

In the wind power generator to generate power using wind power, The rotary blades 100 of the wind turbine is provided with a plurality of radially on the top of the rotary shaft 12, the upper and lower brackets 101 having a constant curved surface (R) in the direction in which the rotary blades 100 are rotated. And a plurality of hinge rods 104, which are arranged side by side at equal intervals along the curved surface between the 102 and the upper and lower brackets 101 and 102, respectively, and rotated by wind pressure. While being provided with a wind baffle plate 103 to open and close the air flow, and a stop bar 105 to be provided side by side in front of the hinge rod 104 and to limit the radius of rotation of the wind baffle plate 103 Rotation generator of the wind turbine characterized in that.