KR101309438B1 - Apparatus for wind power generator - Google Patents

Abstract

PURPOSE: A wind power generating device is provided to minimize the loss of rotational energy as a plurality of rotary shafts successively installed along the longitudinal direction of a wind tunnel tower and a plurality of generators form independent power generating modules. CONSTITUTION: A wind power generating device includes a pipe-shaped wind tunnel tower (5), a plurality of rotary shafts (10), a pair of rotary plates (20), a plate-shaped blade (30), a stopper (40), and a plurality of generators (G). The rotary shafts are installed perpendicularly on the center of the wind tunnel tower and successively installed along the longitudinal direction of the wind tunnel tower. The rotary plates are horizontally fixed to the top surfaces and the undersides of the rotary shafts respectively and rotate with the rotary shafts. The stopper supports the blade while being hung on the blade, thereby delivering wind pressure applied to the blade to the rotary plates. The generators are connected to the rotary shafts respectively and convert the kinetic energy due to the rotation of the rotary shafts into electrical energy.

Description

Wind Power Generators {APPARATUS FOR WIND POWER GENERATOR}

The present invention relates to a wind turbine, and more particularly, to a wind turbine that is installed perpendicular to the ground and converts kinetic energy due to wind pressure by wind into electrical energy.

In general, the wind power generator is a device for converting the rotational energy of the turbine into electrical energy by rotating the turbine using the wind pressure of the wind.

As a prior art, there is a wind power generator disclosed in Korean Patent No. 10-1129102. The wind power generator is a guide for guiding the wind to the through-hole (11) and the through-hole (11) of the wind tunnel (10) forming a wind tower (A) is formed through the air inlet 11 is formed as shown in FIG. The rotating shaft 13 is installed at equal intervals on the rotating shaft 13 and the rotating shaft 13 installed along the longitudinal direction of the part 20, the wind tunnel 10 and connected to the generator C, and rotated by wind. It consists of an impeller B which rotates.

In the wind power generator of the prior art, a plurality of impellers B rotate by the wind introduced through the guide unit 20, and the rotary shaft 13 rotates according to the rotation of the impeller B to operate the generator C. It is a structure to let.

However, the wind power generator of the prior art has a problem in that the energy of the wind pressure is lost because the plurality of impellers (B) rotate at the same rotation speed as the rotating shaft 13 is formed as a single body.

Because the wind tunnel 10 is formed in a tower shape to be installed in a vertical state, high wind speeds are introduced into the high altitude portion, and relatively slow wind speeds are introduced into the low altitude portion. By the way, the impeller (B) of the prior art is installed on the rotating shaft of the unitary body 13 while being installed at different altitudes, so that the rotational speed is the same, there is a problem that the rotational energy is lost and the power generation efficiency is lowered.

Moreover, the wind power generator of the prior art has a problem that the power generation efficiency is further lowered because a plurality of impellers B operates only one generator G (integrated generator) as shown in FIG. 1.

In addition, the wind power generator of the prior art, as shown in Figure 1 because the angle of the blade constituting the impeller (B) is rotated in a fixed state there is a problem that does not provide a smooth rotational force when the wind direction or wind speed is changed. .

KR 10-1129102 B1

The present invention was created in order to solve the problems of the prior art as described above, the rotational shaft is installed in the wind tunnel tower is composed of a plurality of rotation by each of the different wind speeds according to the altitude to reduce the loss of rotational energy The purpose of the present invention is to provide a wind tunnel generator capable of minimizing and improving power generation efficiency by connecting a plurality of rotary shafts to a plurality of generators, respectively.

In addition, another object of the present invention is to provide a wind tunnel generator that can minimize the rotational resistance of the rotating plate by varying the angle of the blade for rotating the rotating plate by the wind pressure according to the wind direction and wind speed.

The wind power generator of the present invention is formed in a vertical state to be installed in a standing state on the ground, a plurality of inlet holes for the inflow of wind is formed on the outer circumferential surface, so as to introduce the outside wind through the inlet hole Tubular wind tunnel tower; A plurality of rotation shafts rotatably installed in a vertical state in the center of the wind tunnel tower and continuously installed along the longitudinal direction of the wind tunnel tower; A pair of rotary plates fixed to the upper and lower portions of the rotary shaft in a horizontal state to rotate together with the rotary shaft; While forming a vertical state between the pair of rotating plates, one side is installed to allow the uniaxial rotation to the rotating plate, and is composed of a plurality of radially arranged along the circumferential direction of the rotating plate to form a radial state around the rotating shaft A plate-shaped blade which rotates the rotating plate while the other side is uniaxially rotated about one side by the wind pressure of the wind introduced into the inlet hole of the wind tunnel tower; It is provided on the rotating plate, the rotation angle of the blade is controlled while being caught on the other side of the blade uniaxially rotated by the wind pressure, and supporting the blade in the state caught on the other side of the blade to transfer the wind pressure applied to the blade to the rotating plate Stopper; And a plurality of generators respectively connected to the rotation shafts to convert kinetic energy due to the rotation of the rotation shafts into electrical energy.

The stopper may be configured to include at least one stop protrusion integrally protruding from the rotating plate and disposed in the rotational trajectory of the blade, and supporting the other side of the blade while being caught by the other side of the blade being rotated.

In addition, the blade is formed in a streamlined cross-section narrowed toward the end of the other side located on the opposite side of the one side from the end of the one side which is fixed to the rotating plate to enable the uniaxial rotation, and toward the outside of the rotating plate One side curvature is formed in a concave shape on one side to increase the drag due to wind pressure acting on the one side; And the other side curvature formed in a convex shape on the other side facing the inside of the rotating plate to reduce the resistance of the air acting on the other side.

The present invention may further include a reducer that floats the rotating shaft installed in a vertical state in the center of the wind tunnel tower to reduce the starting load caused by the weight of the rotating shaft.

The reducer may include, for example, a wind tunnel fixing plate integrally fixed to the fixed frame of the wind tunnel tower, through which the rotation shaft passes; A rotation shaft fixing plate integrally fixed to one end of the rotation shaft penetrating the wind tunnel fixing plate to face the wind tunnel fixing plate; And magnets which are respectively installed on the wind tunnel fixing plate and the rotating shaft fixing plate to face each other, are formed in the same polarity, and float the rotating shaft while separating the wind tunnel fixing plate and the rotating shaft fixing plate.

According to the wind power generator according to the present invention as described above, since a plurality of rotary shafts are continuously installed along the longitudinal direction of the wind tunnel tower, and thus form an independent power generation module with a plurality of generators, the wind speed is high. In this case, the rotational shaft rotates at different speeds, thereby minimizing the loss of rotational energy, thereby improving power generation efficiency.

In addition, as the plurality of blades for rotating the rotating plate are each uniaxially rotated by the stopper while the plurality of blades are respectively rotated at an angle corresponding to the wind speed or the wind direction, the rotational resistance of the blade is minimized. The rotational force of the blade is smoothly transmitted to the rotating plate and the rotating shaft can further improve the power generation efficiency.

In addition, since the stopper is configured as a stop protrusion which is disposed in the rotational path of the blade while protruding from the rotating plate, it is convenient to manufacture, and it is possible to stably provide the wind pressure applied to the blade to the rotating plate as well as control the rotation angle through the locking of the blade. have.

In addition, as the blade is formed in a streamlined cross section, the blade can be more uniaxially rotated more stably, and as both sides of the blade are curved by the curvature, the drag and the lift force are applied to the blade simultaneously, thereby rotating the blade. Resistance can be minimized.

As the starting load due to the weight of the rotating shaft is reduced by the reducer, the rotational force of the rotating shaft increases, so that the power generation efficiency of the generator can be further improved.

Specifically, the magnet constituting the reducer is spaced apart from the wind tunnel fixing plate and the rotating shaft fixing plate through the repulsive force of the same polarity can be used permanently without separate power.

1 is a longitudinal sectional view showing a wind turbine according to the prior art.
Figure 2 is an exploded perspective view showing a wind power generator according to the present invention.
3 is a longitudinal sectional view showing the wind power generator shown in FIG.
4 is an exploded perspective view showing the turbine shown in FIG.
5 is a cross-sectional view showing the wind power generator shown in FIG.
Figure 6 is a cross-sectional view showing another embodiment of the wind tunnel tower shown in FIG.
7 is a schematic view showing a wind power generation state according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted.

Wind turbine according to the present invention as shown in Figures 2 and 3 includes a wind tunnel tower 5, a rotating shaft 10, a rotating plate 20, a blade 30, a stopper 40 and a generator (G). do.

Wind tunnel tower (5) is a tubular component that is formed in the form of a tower form as shown in Figure 2 is formed long in a vertical state standing on the ground, inlet hole along the outer peripheral surface as shown in Figures 2 and 3 (5a) is formed and the wind is introduced into the interior, it is partitioned into a multi-layered form by a fixed frame (5b) installed at equal intervals along the longitudinal direction.

The wind tunnel tower 5 is provided with a guide (7) along the circumference as shown in Figures 2 and 3 to guide the wind to the inlet hole (5a). As the guide 7 is formed in the shape of a cone as shown, the vortex is caused by wind to enter the inlet hole 5a.

That is, the wind tunnel tower 5 is provided with a plurality of inlet holes (5a) along the longitudinal direction is built vertically on the ground, the wind of different wind speed according to the altitude is introduced into each inlet hole (5a), the opposite side It is discharged to the inlet hole (5a) of or through the inside of the tubular body through the wind to the upper portion is discharged to the discharge hole (5c) as shown in FIG.

The rotating shaft 10 is rotatably installed in a vertical state on the wind tunnel tower 5 as shown in FIG. 3, connected to the generator G, and providing a rotational force to the generator G as it is rotated by wind pressure. to be.

The rotary shaft 10 is configured as shown in Figure 3 is rotatably installed in the above-described fixed frame (5b) while being provided along the longitudinal direction of the wind tunnel tower (5b) by different wind speeds Each one is rotated independently.

The rotating plate 20 is a member that rotates together with the rotating shaft 10, and is composed of a pair as shown in Figure 4 rotates with the rotating shaft 10 while being fixed to the upper and lower portions of the rotating shaft 20 in a horizontal state, respectively do. As shown in FIGS. 2 and 4, the rotating plate 20 has a plurality of communication holes 20a formed therethrough, so that the wind flowed into the inlet hole 5a and the discharge hole 5c of the wind tunnel tower 5 described above. Communicate with

Blade 30 is a member for rotating the rotating plate 20 while the wind pressure is applied, as shown in Figure 4 is formed long in a plate shape is installed in a vertical state between the pair of rotating plate 20, the rotating plate 20 A radial state is formed around the rotating shaft 10 while being disposed at equal intervals along the circumferential direction of the.

The blade 30 is one side 31 is fastened to the rotating plate 20 by the fastening pin 30a, as shown in the lower portion of Figure 3, accordingly the other side 33 is fastening pin 30a by wind pressure Single axis rotation around).

The stopper 40 is a component that transmits the wind pressure applied to the blade 30 to the rotating plate 20 while controlling the rotation angle of the blade 30, for example, integrally with the rotating plate 20 as shown in FIG. 4. It can be configured as a stop protrusion 41 is formed protruding.

As shown in FIG. 5, the stop protrusion 41 is disposed in the rotation trajectory of the blade 30 to control the rotation angle of the blade 30 according to the other side 33 of the blade 30. By supporting the other side 33 in a locked state, the wind pressure applied to the blade 30 is transmitted to the rotating plate 20 to rotate the rotating shaft 10.

The stop protrusion 41 is preferably coated with a cushioning material 41a such as urethane as shown in an enlarged view in FIG. 3 to reduce noise and impact due to the collision of the blade 30.

In addition, the stop protrusion 41 may be provided on only one side of the blade 30 as shown in FIG. 6 to limit the rotation of the blade 30 due to wind pressure, and as shown in FIG. As provided on both sides, as well as the rotation of the blade 30 due to wind pressure, it is also possible to limit the reverse rotation (return to the original position) of the blade 30 according to the rotation of the rotating plate 20. When the stop projection 41 is provided on both sides of the blade 30, it is formed to rotate in the range of 10 ° to 35 ° rotation angle (A) of the blade 30, as shown enlarged in FIG. desirable.

Accordingly, the blade 30 is rotated uniaxially about the one side 31 by the other side 33 by the wind pressure of the wind flowing into the inlet hole 5a of the wind tunnel 5, and the other side 33 which rotates stops. As the collision with the protrusion 41 stops the rotation, the wind pressure is transmitted to the stop protrusion 41 to rotate the rotating plate 20.

Here, the drag 30 by the wind acts on the surface 30 is applied to the wind pressure, the lifting force by the existing air on the opposite surface is acting. Accordingly, the blade 30 rotates the rotating plate 20 in a state in which the rotational resistance is minimized by rotating in the balanced state of drag and lift through the uniaxial rotation of the other side 33.

On the other hand, the blade 30 is formed in a streamlined cross-section is narrower from the end of one side 31 toward the end of the other side 33 as shown in enlarged in Fig. 5 is curved formed to one side curvature 35 and The other side curvature 37 is provided.

As shown in FIG. 5, the one side curvature part 35 is curved in a concave shape on one surface facing the outside of the rotating plate 20 to increase drag due to wind pressure.

As the other side curvature 37 is curved in a convex shape on the other side of the one side curvature 35, as shown in FIG. 5, the other curvature portion 37 increases the lifting force acting on the other side of the blade 30 to increase the resistance of the air. Decrease.

Accordingly, since the drag 30 and the lifting force against the wind are smoothly acted by the one side curvature part 35 and the other side curvature part 37, the rotating plate 20 and the rotating shaft 10 in a state where the rotational resistance is minimized. Can be rotated. Then, the blade 30 returns to its original position while rotating in the opposite direction as the lifting force is generated in the other curvature portion 37 with the resistance acting on the other curvature portion 37 after rotating together with the rotating plate 20.

Meanwhile, the blades 30 may be arranged in a plurality of rows along the circumferential direction of the rotating plate 20, as shown in FIGS. 5 and 6. Alternatively, the blades 30 may be arranged in a single row along the circumferential direction of the rotating plate 20. have. When the blade 30 is composed of a plurality of rows alternately installed in an alternating state to form an air flow passage between each row, as the wind pressure is applied in multiple stages, the rotational resistance of the rotating plate 20 can be further minimized.

In summary, the rotating shaft 10, the rotating plate 20, the blade 30 and the stopper 40, as shown in FIG. 4, while forming one rotating body 100 as shown in FIG. It is provided in plural along the longitudinal direction of 5) and rotates by different wind speeds according to the altitude.

The generator G is configured in plural as shown in FIG. 3, and is connected to each of the rotating shafts 10 constituting each of the rotating bodies 100, and converts kinetic energy due to rotation of the rotating shaft 10 into electrical energy. It is the member who develops by letting it. This generator (G) may be configured in any manner known to those skilled in the art.

Meanwhile, the generator G may be directly connected to the rotation shaft 10 or connected to the rotation shaft 10 through the speed increaser 15 as shown in FIG. 3. The speed increaser 15 is a conventional member that increases the rotational speed of the rotational shaft 10 while supplying the rotational force of the rotational shaft 10 to the generator G, and is composed of gear trains having different gear ratios. The rotation speed is increased and provided to the generator (G).

In addition, as shown in FIG. 7, the plurality of generators G may respectively provide rectifiers CN to convert alternating current into direct current, and then store electrical energy generated by being connected to the storage battery BT.

Alternatively, the plurality of generators G may be output while maintaining electricity generated by being connected to a regulator not shown, respectively, at a set voltage.

On the other hand, the wind power generator of the present invention can be configured to further include a reducer 50 as shown in an enlarged view in FIG.

The reducer 50 is a component that reduces the starting load caused by the weight of the rotating shaft 10 by floating the rotating shaft 10 installed vertically in the wind tunnel tower 5, for example, as shown in FIG. 3. The wind tunnel fixing plate 51, the rotating shaft fixing plate 53 and the magnet 55 can be configured.

The wind tunnel fixing plate 51 is integrally provided in the fixed frame 5b of the wind tunnel tower 5 as shown in an enlarged view of FIG.

The rotating shaft fixing plate 53 is integrally fixed to the end of the rotating shaft 10 passing through the wind tunnel fixing plate 51 to face the wind tunnel fixing plate 51 as shown in an enlarged view in FIG. 3.

As the magnet 55 is enlarged in FIG. 3, the magnet 55 is installed on the wind tunnel fixing plate 51 and the rotating shaft fixing plate 53 so as to face each other, and has the same polarity to separate the wind tunnel fixing plate 51 and the rotating shaft fixing plate 53. This causes the rotating shaft 10 to rise.

That is, the magnet 55 is the repulsive force acts as they face each other with the same polarity, so that the rotary shaft fixing plate 53 is spaced apart from the wind tunnel fixing plate 51 by the repulsive force of the magnet 55 to float the rotary shaft 10. . Therefore, the load due to its own weight is reduced while the rotating shaft 30 is floated. Accordingly, the starting load during initial rotation is minimized, thereby improving power generation efficiency of the generator G through smooth rotation.

Meanwhile, the rotation shaft fixing plate 53 may be installed to face the wind tunnel fixing plate 51 at the lower portion of the wind tunnel fixing plate 51, as shown in FIG. 3. In this case, the magnet 55 is installed with a different polarity to raise the rotating shaft 10 while pulling the rotating shaft fixing plate 53 toward the wind tunnel fixing plate 51 through the attraction.

On the other hand, the reducer 50 is shown as being installed only in the rotary shaft 10 disposed in the upper portion of the wind tunnel 5 in FIG. Can be prepared.

The operation and operation of the present invention including the above-described components will be described.

As shown in FIG. 3, the wind power generator of the present invention is installed in a vertical state on the ground to generate electrical energy while operating through wind pressure of wind of different wind speeds according to altitude.

As illustrated in FIG. 2, the wind tunnel tower 5 has different altitude winds introduced through the plurality of inlet holes 5a, and the plurality of rotors 100 are formed of the wind introduced into the inlet hole 5a. Each of them rotates independently by the wind pressure, and provides rotational force to each generator (G).

Specifically, the blade 30 is pressurized by the wind introduced into the inlet hole 5a of the wind tunnel 5 through the guide 7. The blade 30 rotates at an angle opposite to the wind direction and wind speed while the other side 33 rotates uniaxially with respect to one side 31, and is caught by the stop protrusion 41 to rotate the rotating plate 20 with the rotating shaft 10. Rotate together

At this time, the blade 30 increases the drag force as the wind pressure is applied by the one side curvature 35, the increase in the lift force by the other side curvature 37 to reduce the air resistance in the rotating plate 20 and Rotate the rotary shaft 10.

Accordingly, the rotating shaft 10 rotates together with the rotating plate 20 to provide the rotating energy to the generator G to generate the generator G.

At this time, the rotating shaft 10 is driven by the repulsive force of the magnet 55 constituting the reducer 50, the starting load is minimized to smoothly rotate and drive the generator (G). Accordingly, the rotation shaft 10 is rotated to minimize the rotational resistance by the blade 30 at the same time the start load is minimized by the reducer 50 to improve the power generation efficiency of the generator (G).

In addition, the plurality of generators G may store electricity generated through the rectifier CN in the storage battery BT, or output a voltage set through the regulator.

As described above, the wind power generator according to the present invention has a plurality of rotary shafts 10 continuously installed along the longitudinal direction of the wind tunnel tower 5 to form an independent power generation module together with the generator G. Even if the wind speed is different depending on the altitude, the rotation shaft 10 rotates at different speeds, thereby minimizing the loss of rotational energy, thereby improving power generation efficiency.

As the plurality of blades 30 rotating the rotating plate 20 are uniaxially rotated, respectively, as the rotation angle A is controlled by the stopper 40, the plurality of blades 30 are respectively wind speeds or wind directions. Since it rotates at an angle corresponding to the rotational resistance of the blade 30 is minimized, the rotational force of the blade 30 is smoothly transmitted to the rotating plate 20 and the rotating shaft 10 can be improved power generation efficiency of the generator (G). have.

In addition, since the stopper 40 is composed of a stop protrusion 41 disposed in the rotational trajectory of the blade 30 in a state where the stopper 40 protrudes, the production is convenient, and the rotation angle through the locking of the blade 30 ( As well as the control of A), the wind pressure applied to the blade 30 can be stably provided to the rotating plate.

In addition, as the blade 30 is formed in a streamlined cross section, the blade 30 may be more uniaxially rotated more stably, and both sides of the blade 30 are curved by the curvatures 35 and 37. Since drag and lift by wind are simultaneously applied to the blade 30, the rotational resistance of the blade 30 can be minimized.

In addition, since the rotational force of the rotating shaft 10 increases as the starting load by the weight of the rotating shaft 10 is reduced by the reducer 50, the power generation efficiency of the generator G may be further improved.

Specifically, since the magnet 55 constituting the reducer 50 spaces the wind tunnel fixing plate 51 and the rotating shaft fixing plate 53 through the repulsive force of the same polarity, the magnet 55 may be permanently used without any separate power.

While specific embodiments of the present invention have been described above by way of example, these are for illustrative purposes only and are not intended to limit the protection scope of the present invention. It will be apparent to those skilled in the art that various changes, substitutions, and alterations can be made therein without departing from the spirit of the invention.

5: wind tunnel tower 5a: inlet hole
5b: fixed frame 5c: discharge hole
7: guide 10: rotating shaft
20: rotating plate 20a: communication ball
30: blade 30a: fastening pin
31: one side 33: the other side
35: one side curvature 37: the other side curvature
40: stopper 41: stop protrusion
41a: cushioning material 50: reducer
51: wind tunnel fixing plate 53: rotating shaft fixing plate
55 magnet G: generator
CN: Converter BT: Storage Battery

Claims (5)

It is formed long in a vertical state to be installed on the ground, a plurality of inlet holes for the inflow of wind is formed on the outer circumferential surface, the tubular wind tunnel to allow the outside wind to enter through the inlet;
A plurality of rotation shafts rotatably installed in a vertical state in the center of the wind tunnel tower and continuously installed along the longitudinal direction of the wind tunnel tower;
A pair of rotary plates fixed to the upper and lower portions of the rotary shaft in a horizontal state to rotate together with the rotary shaft;
While forming a vertical state between the pair of rotating plates, one side is installed to allow the uniaxial rotation to the rotating plate, and is composed of a plurality of radially arranged along the circumferential direction of the rotating plate to form a radial state around the rotating shaft A plate-shaped blade which rotates the rotating plate while the other side is uniaxially rotated about one side by the wind pressure of the wind introduced into the inlet hole of the wind tunnel tower;
It is provided on the rotating plate, the rotation angle of the blade is controlled while being caught on the other side of the blade uniaxially rotated by the wind pressure, and supporting the blade in the state caught on the other side of the blade to transfer the wind pressure applied to the blade to the rotating plate Stopper; And
And a plurality of generators respectively connected to the rotation shafts to convert kinetic energy by rotation of the rotation shafts into electrical energy. The method of claim 1, wherein the stopper,
And at least one stop projection integrally protruding from the rotating plate and disposed in the rotational trajectory of the blade and supporting the other side of the blade while being caught by the other side of the blade to be rotated. The method of claim 1, wherein the blade,
It is formed in a streamlined cross section that becomes narrower toward the end of the other side located on the opposite side of the one side from the end of the one side is fixed to the rotating plate to enable the uniaxial rotation,
One side curvature formed in a concave shape on one side facing the outer side of the rotating plate to increase the drag due to the wind pressure acting on the one side; And
And another curvature formed in a convex shape on the other side facing the inside of the rotating plate to reduce resistance of air acting on the other side. The method of claim 1,
And a reducer that floats the rotating shaft installed in a vertical state in the center of the wind tunnel tower to reduce the starting load caused by the weight of the rotating shaft. The method of claim 4, wherein the reducer,
A wind tunnel fixing plate integrally fixed to the fixed frame of the wind tunnel tower, through which the rotation shaft passes;
A rotation shaft fixing plate integrally fixed to one end of the rotation shaft penetrating the wind tunnel fixing plate to face the wind tunnel fixing plate; And
And a magnet which is installed on the wind tunnel fixing plate and the rotating shaft fixing plate to face each other, and has the same polarity and floats the rotating shaft while separating the wind tunnel fixing plate and the rotating shaft fixing plate.

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