KR102371014B1 - Rotating Wings Reinforced by Rotational Force in Wind Turbine - Google Patents

Abstract

The present invention relates to a rotary blade with a reinforced rotational force in a wind power generator, and more particularly, to a rotary blade equipped to rotate with wind while being assembled on a support pole by wind power, and more particularly, the power of blowing wind It relates to an invention provided to generate a driving force for reinforcing rotational force.
Therefore, the occurrence of a phenomenon in which noise due to resistance to the surrounding air is generated by the rotational driving of the rotor blades of the wind power generator assembled to the rotor blades is provided as a phenomenon in which the resistance by the wind power leads to a decrease in the rotational speed. It is an invention for reinforcing the rotational force of the rotor blades by condensing the wind force blown on the rotor blades and bending them in the opposite direction as well as doubling the driving force by condensing them.
Accordingly, when the surrounding wind speed increases to the level of a strong wind, it relates to a wind power generator having a rotating structure that uses this to reinforce power generation. Therefore, the present invention is assembled at the upper end while connecting the solar power plant 49 that is inclined so as to be assembled as a frame 38 in the middle of the support pillar 48 that protrudes to the ground while being fixed in the underground 71. A fixed shaft for assembling the wind power generator 50 , the rotary shaft 51 protruding from the wind power generator 50 , and the rotary blade 53 having a predetermined length to be coupled to the rotary shaft 51 . In the rotor blade for a wind power generator equipped with (55), the protruding rib and the wind power guide rod are provided so that the wind blown on the rotor blade is curved in the opposite direction to the rotation and is curved in the opposite direction as well as the driving force by condensation (a) is The connecting rod and the blowout section (b) are passed through so as to be formed, and the blowout section connected to the curve in the blowout section is curved in the opposite direction to the rotational direction (⇒). It is an invention to reinforce the rotational force of

Description

Rotating Wings Reinforced by Rotational Force in Wind Turbine

The present invention relates to a rotary blade with a reinforced rotational force in a wind power generator, and more particularly, to a rotary blade equipped to rotate with wind power while being assembled to a support pole by wind power It relates to an invention provided so as to generate a driving force for reinforcing rotational force.

In general, the rotor blades rotated by wind power, due to friction or resistance according to the structure of the rotor blade itself, rotates at a slower speed than the original wind speed due to wind power.

Most of the rotational power of a wind power generator is a structure that generates power by rotating the rotor blades by the movement of the wind. The topographical constraint required for the area is also a problem.

Therefore, various propellers and rotation devices were provided according to the registered invention No. 10-1094058.

This is because the wing of an airplane flying in the air induces the flow of air by propulsion in the air.

In addition, in order to induce the maximum rotational effect against wind power, a generator is provided with a protrusion as high as possible as a support pole. It will become a factor of lowering the rotational force due to the formation.

Also, in general, a metal steel plate is a very thin thin film type, but a stainless steel plate with excellent tensile strength is light and has a high tensile force, so it is used as a steel plate for a vehicle.

In addition, by rotating around the generator in the distance at which the rotor blades for the wind power generator that move in the rotation rotate, it increases to a distance that rotates relatively in the circumferential direction while going out of the rotor blades, which inevitably moves the wind power Since the rotational force is reduced due to the deceleration force due to the generation of air resistance in the direction, it is necessary to generate a lift force for reinforcing the rotational force.

In addition, a rocket propelled by high-speed gas injection is provided with a high-speed injection device at the rear to provide propulsion.

This is a consideration of the rotor blades rotating based on the direction in which the wind blows from one direction is blown, and the lift reduction section (hereinafter referred to as the reduction section) (hereinafter referred to as the reduction section) formed with a wall for inducing lift on one side (A), At the outer end thereof, it is to be divided into an ejection section (hereinafter referred to as an ejection section) (B) formed by the spraying (spouting) of wind power in the opposite direction to the rotation.

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In the present invention, the generation of noise in the moving force of the wind in the structure of the rotor protruding outward around the support column is evidence of the generation of resistance due to rotation, which is a low rotational force due to resistance compared to the moving speed of the wind power. is a structure showing a, which is to provide a more reinforced rotational force compared to the conventional rotor blades when the wind power is stronger as a derivation of propulsive force than the conventional rotor blades.

Therefore, an object of the present invention is an invention for reinforcing rotational force by adding lift or propulsion force to the rotor blades.

In addition, since the rotational structure of the wind power generator flexibly provides a change in rotational force with respect to the wind that is structurally introduced into the inlet while rotating, it is intended to reinforce the practicality of easy installation by reducing the rotational section of the rotary blade.

Therefore, in the present invention, a power generation device is assembled so that it can be rotated with a bearing, etc. from a pillar protruding while the protruding part is buried in the ground, and a plurality of rotary blades protruding outward from the rotary shaft protruding from the power generation device, lift by wind power It is an invention that is configured to reinforce the strength (power) of the rotational force as the strength of the wind blown in the air is stronger as the strength of the wind blown in the air is strong by assembling the rotor blades configured to provide and propulsion.

In addition, the slow cooling structure for the photovoltaic panel connected to the support pole is to induce air in the shaded area and to reinforce the durability against strong typhoons.

The wind power generator 50 assembled to the upper end of the support pillar 36 that protrudes to the ground while being fixed in the underground 61, the rotary shaft 51 protruding from the wind power generator 50, and the rotary shaft ( In the rotary blade for a wind power generator provided with the rotary blade 53 coupled to 51),

It is fixed to the fixed shaft 55 coupled to the rotating shaft 51 with a jacket 66 formed in a very thin thin film shape, and the jacket 66 is connected with a connecting rod 35 having an air outlet 42 formed therein. , the front end of the cross section has an inlet 62 that is opened as an inlet section (a) of a wide width, and a wind power guide bar 48 that protrudes from the inside and outside of the inlet 62 curvedly, and the wind guide bar 48 ) at the rear end of the wind blower 33, which forms a narrow blowout section (b), as an opening, and a rotary blade 53 for reinforcing the rotational force with the blowout power of the wind blower 33;

The cross section provided on the rotary blade 53 is narrow with the wind turbine 33 that connects the connecting rod 35 to which the wind induction rod 48 protrudes so that the inlet 62 is opened and the air outlet 42 is connected. The formation of the wide ejection section (b) and the ejection power of the narrow ejection section (b) are the reinforcement of the decompression force in the reduced section (A) formed in the curved section of the wind guide belt 48, and blow with a strong wind It is an invention in which the wind power is provided to reinforce the rotational force of the rotary blades 53 with an increase in the lift formed by the increase in the wind speed movement speed formed in the wind power induction belt 48 .

In addition, the rotational force ejection section (b) in which the wind force spurt 33 connected in the inner section of the wind power induction stand 48 provided with a reduced section (A) in a curved state on both sides of the rotary blade 53 is reinforced with an opening and ,

It is an invention to provide a wind turbine guiding belt (33') which widens the interval of the blowout section (b) caused by strong wind by providing the concave-convex portion 68 on the inside wind power guide band 48 protruding from the curved side to be formed.

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also At the end of the second rotating shaft 75 protruding so as to link the rotating shaft 51 to the rear side of the power generation device 50 with each other, and a plurality of fixing rods 83 protruding outward, assembling with each other in the circumferential direction The air inlet rotary blade 70 of the reverse trumpet type and curved structure so as to make it, and the inlet 82 provided in the air inlet rotary blade 70 in the direction in which the wind blows, and the inlet 82 in the reverse trumpet type The injection port 77 formed in a curved structure is directed in the opposite direction of rotation and collides with the inclined inner wall surface of the inner wall (e) of the body 88 provided as a jacket while colliding with the rotational force in the ⇒ direction as well as the injection port 77. It is an invention provided to form a driving force by

The present invention is a rotating blade that rotates around a support column for a wind power generator that generates power using wind power, which is the moving force of the wind, and is bent in a curve from a wide inlet to a narrow outlet while ejecting in the opposite direction of rotation, It is provided as economic reinforcement by providing lift for rotation.

In addition, it is an invention that provides an effective power generation power with the blowing wind power by reinforcing the discharge power for the rotational force by providing a separately added wind power induction device for the wind blown on the rotor blades of the wind power generator.

In addition, by reducing the space of the area for the entire length of the rotating rotor blade, it is an invention that provides an eco-friendly and economical development by increasing the utility of the wind.

1 is a perspective view of a main part of a wind power generator according to the present invention;
Figure 2 is a cross-sectional view taken along line AA in Figure 1;
Figure 3 is a partial perspective view of an embodiment of the main part in Figure 1;
4 is a cross-sectional view taken along line BB in FIG. 3
Figure 5 is a partial perspective view of an embodiment of the main part in Figure 3;
6 is an enlarged cross-sectional view taken along line CC in FIG. 5
7 is an operation state diagram for another embodiment of the main part in FIG.
8 is an enlarged perspective view of an embodiment of the main part in the present invention;
9 is a cross-sectional view of the main part of FIG.
10 is a cross-sectional view taken along line EE of the main part in FIG. 8 in a state of use;
14 is a state diagram of another embodiment of the main part of the present invention.
FIG. 15 is a partially cutaway perspective view of the main part of FIG. 14 ;
16 is a cross-sectional view taken along line EE in FIG. 14;
Figure 17 is a schematic diagram of another embodiment relative to Figure 14;

With the invention provided to achieve the above object, the noise generated in the process of rotating by the rotating blades rotated by the strong wind blowing in the wind is formed while the rotational drive is formed by the generation of friction with the rotating blades for the strong wind. The strong wind that has been given will continue to blow. Therefore, the present invention is an invention that provides for reinforcing the power generation of a wind power generator by reinforcing the rotational force power with the discharge force in the moving direction of the passing wind while rotating the rotary blade.

1 is a perspective view of a main part of a wind power generator according to the present invention, and FIG. 2 is a cross-sectional view taken along line A-A in FIG. 1 .

In addition, FIG. 3 is a partial perspective view of an embodiment of the main part in FIG. 1 , FIG. 4 is a cross-sectional view taken along line BB in FIG. 3 , and FIG. 5 is a partial perspective view of an embodiment of the main part in FIG. It is an enlarged cross-sectional view taken along line CC, and FIG. 7 is an operation state diagram for another embodiment of the main part in FIG. 4 .

In addition, FIG. 8 is an enlarged perspective view of an embodiment of the main part in the present invention, FIG. 9 is a cross-sectional view of the main part in FIG. 8, and FIG. 10 is a cross-sectional view of the main part in FIG.

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Therefore, as an invention for doubling and providing wind power generation in the state of a strong wind blowing in the wind,

Wind moving in the air moves by the pressure or temperature difference of the earth in a state where air particles (molecules) are properly mixed with each other, and the mixed air particles have a lower or higher mixing degree depending on the topography or pressure to move, Here, it is caused by a sudden shift in the direction of low mixing.

Therefore, the present invention relates to an invention that provides a structure for forming the movement force of the air particles with the structure of the rotor blade installed in the air blown by wind power. it is being used

Therefore, in order to rotate the rotor blades 53 with the wind blown in a generally large space, the frame 38 is fixed in the seabed or underground 61 at the sea level and protrudes into the air while being fixed in the middle of the frame 38. The solar power generation panel 49 inclined so as to be assembled as The assembly of the wind power generator 50 rotating according to the, the rotary shaft 51 protruding from the wind power generator 50, and the rotary blade 53 formed to a predetermined length to be coupled to the rotary shaft 51 Although it is used as a wind power generator equipped with a fixed shaft 55 for Due to the vortex phenomenon, the interval between wind turbines installed in the sea or in the valley requires a wide interval, and in practice, it is an invention to provide a structure that saves area and space due to the occurrence of noise pollution due to the generation of rotational noise. .

This is an invention for reinforcing the rotational force for the rotor blades as a cohesive force generated by the flow rate due to the movement of air and ejection force.

Accordingly, the object of the present invention to devise a structure in which the rotational force is reinforced from the plurality of rotating blades 53 protruding by being fixed to the fixed shaft 55 protruding outward from the rotating shaft 51 is shown in Figs. 7 explains in detail,

In accordance with the fixed shaft 55 formed of a predetermined length so as to be configured in the conventional rotary blade 53, the wind power guide bar 48 curved on both sides so that the air outlet 42 is provided, and the wind guide bar 48 ) on the inner surface of the connecting rod 35, which is fixed to the fixed shaft 55, and the air outlet 42 between the connecting rod 35. The wind power guide 48 that protrudes from the inside and outside of the inlet 62 that is opened with a wide width at the front end where the cross section is bent in a ∠ shape so that the condensed wind power is formed, and the The invention is provided in the form of a blowout section (b) as an opening of the jetting hole 47 at the rear end of the wind power guide band 48 . Therefore, the wind force introduced from the inlet 62 in which the inlet section (a) of the wide width in the rotational direction is opened is curved and narrowed in the direction opposite to the rotation, and the narrow width of the blowout section (b) of the wind blower 33 is opened. It is an invention that provides to reinforce the rotational force by reinforcing the ejection force in the direction opposite to the rotational direction (⇒).

This is an invention that provides the effect of forming a lift force that reinforces the rotational force of the rotary blade 53 by the formation of lift in the reduced section (A) in the curved state in the wind force guide belt 48 when the wind blows with a strong wind It is an invention .

Here, to provide a condensed resistance to the wind by the inflow of the wind, which is the main aspect of the present invention,

One side of the protruding rib 25 has a structure configured to extend to the connecting rod 45, and in the inlet section (a) introduced into the wide inlet 62 by strong wind, the wind force is condensed while gradually narrowing in a reverse trumpet shape. Next, as the flow velocity ejected to the narrow jet section (b) is blown stronger than the wind power, the density of the air in the reduction section (A) formed in a curved state in the wind power guide belt 48 is lowered. It is an invention in which the rotational force of the guide band 48 is reinforced, and as a result, the lift force that reinforces the rotation of the rotary blade 53 is formed.

In addition, the inlet ( In order to reinforce the durability of the inlet section (a) of 62), the jacket is fixed to the wind guide rod 48 for the wind power generator 50 connected to both sides of the inlet 62 by a fixed shaft 55. It is preferable to provide reinforcement by (66).

In addition, while the inlet 62 is provided between the wind guide belt 48, the inlet section (a) is provided with a plurality of support frames 44 fixed at a predetermined interval.

In addition, when a super strong wind such as a typhoon blows in the course of a change in the wind power season, an air outlet 42 that protrudes on both sides of the connecting rod 35 bent in a ∠ shape in cross section, and an inlet 62 in a curved cross section ) in order to reinforce the durability of the inlet 62 between the wind guide bars 48 in which the inlet section (a) protrudes into the opening, in the inlet section (a) between the wind power guide bars 48 on both sides. A wind chimney having a connecting rod 35 that is fixed with an air outlet 42 at a predetermined interval in a section reduced to a reverse trumpet type, and a blowing section b that protrudes from the connecting rod 35 curvedly ( 33) is provided to be curved in the opposite direction to the rotational direction (⇒), and the wind force introduced into the inlet section (a) through the inlet 62 is discharged to reinforce the driving force.

In addition, with the provision of a support frame 44 assembled to the end protruding through the passage 58 of the wind force guide 48, and the concave-convex portion 68 assembled to the wind power guide 48, strong wind It is an invention that provides flexibility to strong winds by increasing the discharge of strong typhoons with the wind blower 33', which widens the interval of the blowout section (b) by bending it.

Here, when the intensity of the blowing wind is lowered, the interval between the wind turbines 33 ′ is reduced by the concave-convex portion 68 .

Here, the coupling state of both ends between the wind power guide belts 48 is made of carbon fiber or flexible material of the concave-convex portion 68 with reinforced flexibility and flexibility to prevent damage from seasonal typhoons.

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Here, as the structure of the rotor blade 53 is bent in a direction in which the wind blows, the wind power introduced into the inlet section (a) provided in the inlet 62 is discharged to the curved wind power outlet 33. Here, the wind power introduced from the inlet 62 is provided to move to the reduced section (A) of the curved state in the wind power guide band 48 that forms the inlet section (a) curved by the rotational force of the rotary blade (53) As a structure, this is an invention that provides a rotational force that is propelled by a powerful jet of wind power in the opposite direction to rotation. As an invention, it is provided to promote rotational force reinforcement by the blowing force of the induced wind power.

In addition, when explaining another embodiment of the structure for reinforcing the rotational force by the ejection force of the wind force in the rotary blade 53, the injection force,

By bending the bending portion 46 for reinforcing the bending strength at the outer end of the structure of the connecting rod 35 and the wind force induction rod 48, the discharged wind power is blown in the opposite direction to reinforce the rotational force.

In addition, the wind power introduced into the inlet section (a) provided with the wide inlet 62 is discharged into the outlet section (b) by the centrifugal force of the rotating blades 53 rotating the wind power introduced into the inlet section (a). During the inlet section (a), the opening of the injection port 47 formed by the curved bar 37 provided at the outer end is formed as the ejection section (b), which is moved by centrifugal force, and the moved wind power is connected to the connecting bar. As an invention in which the injection port 47 formed in a reverse trumpet shape is provided for the curved rod 37 that bends in the opposite direction of rotation at the outer end of the wind guide rod 48 and (35),

The structure of the connecting rod 35 and the wind induction rod 48 coupled to the rotation shaft 51 of the wind power generator 50 by a fixed shaft 55 is bent in the opposite direction to the rotation,

By forming a curved section (c) with an inlet section (a) formed by the inlet port 62 of the outer end of the wind power guide band (48) as a curved section (c) with a reverse trumpet-shaped and curved injection port (47) in the opposite direction to the rotation, the inlet port (62) ) is an invention in which the wind force introduced into the rotation is provided so that the rotational force is further reinforced by the reinforcement of the wind force in the injection port 47 in the direction opposite to the rotation.

[Example 1]

Therefore, the present invention is used as a wind power generator 50 for reinforcing the power in the moving direction of the wind power passing by while rotating the rotor blades, but more effectively by utilizing more various sections of the wind power that blows evenly in the actual field of use. By using the rotational force of the wind power generator as reinforcement, it is an invention that provides to reinforce the power generation of a wind power generator installed by leakage in the air, when described in detail based on the accompanying drawings

14 is a state diagram of another embodiment of the main part of the present invention, FIG. 15 is a partially cut-away perspective view of the main part in FIG. 14, FIG. 16 is a cross-sectional view taken along the line EE in FIG. 14, and FIG. It is a schematic diagram of another embodiment.

That is, the rotary blade 53 assembled to the rotation shaft for the wind power generator 50 coupled to the upper end of the support column 36 by rotational driving is used as a provision.

Here, as an invention for more effectively reinforcing the wind power moving in the rotation section of the rotary blade 53, as shown in the accompanying FIGS. 14 to 17,

In the device provided so that the rotary blades 53 are coupled to the rotary shaft 51 protruding forward from the power generation device 50 , the second rotary shaft 75 protrudes the rotary shaft 51 to the rear side of the power generation device 50 . ) to rotate in interlock with each other, and a plurality of fixing rods 83 protruding outwardly from the second rotation shaft 75, and an air inlet rotary blade 70 at the ends of the fixing rods 83 in the circumferential direction The inlet 82 of the air inlet rotary blade 70 is provided in the direction in which the wind blows, and the injection port 77 formed in a reverse trumpet type and curved structure at the inlet 82 is It is an invention that combines in the opposite direction of rotation. Therefore, it is fixed to the end of the fixing rod 83 so that the structure of the air inlet rotary blade 70 assembled by a plurality of connections in the second rotary shaft 75 is provided in the circumferential direction.

Here, the inlet 82 at the injection port 77 provided in the air inlet rotary blade 70 to be coupled, that is, the direction in which the wind power is blown out as it is curved outwardly of the inlet 82 of the air inlet rotary blade 70, that is, the combined air inlet rotary blade 70. It is assembled so that the rotational force is reinforced by the blowing force that is blown out of the wind blown into the furnace.

Here, the description of the structure of the air inlet rotary blade 70 is, as shown in the accompanying FIGS. 15 to 16, the air inlet rotary blade 70 in which the cylindrical and curved structure is rotated by wind power. In the inlet 82, the wind force introduced into the inlet 82 collides with the inclined inner wall surface of the inner wall e of the body 88 provided with a jacket bent in a curved state while having a thin structure, a rotational force is formed in the ⇒ direction, and It is an invention in which the reinforcement of the driving force is provided by the injection force that the injection port 77 formed in a curved direction while being in a reverse trumpet type in the opposite direction to the rotation is ejected in the direction opposite to the rotation.

Accordingly, as the rotational force of the front rotary blade 53 assembled to the wind power generator 50 and the rotational force of the air inlet rotary blade 70 assembled on the rear side, it is an invention that provides more practical power generation.

In addition, the description of the embodiment of the coupling of the air inlet rotary blade 70 in the wind power generator 50, as shown in the accompanying FIG. 55) and provided with air inlet rotary blades 70 assembled with fixed rods 83 along the circumferential direction to reinforce the power generation of the wind power generator 50 .

Therefore, in the device provided so that the rotary blade 53 is coupled to the rotary shaft 51 protruding from the wind power generator 50 to the front side, the second rotary shaft protrudes the rotary shaft 51 to the rear side of the generator 50 . (75) is rotated in interlocking with each other, and a plurality of fixing rods 83 protruding outwardly from the second rotation shaft 75, and an air inlet rotary blade 70 are installed at the ends of the fixing rods 83. It is assembled by connecting in the circumferential direction, and the inlet 82 of the air inlet rotary blade 70 is provided in the direction in which the wind blows. ) is an invention that combines in the opposite direction of rotation. Therefore, it is fixed to the end of the fixing rod 83 so that the structure of the air inlet rotary blade 70 assembled by a plurality of connections in the second rotary shaft 75 is provided in the circumferential direction.
As described above, the configuration and operation of the present invention has been described with reference to one embodiment, but the present invention is not limited thereto, and changes and modifications within the scope of the present invention will also fall within the scope of the present invention.

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25: protruding rib 33: wind turbine 35: connecting rod 36: support column
37: curved section 39: curved section 42: air outlet
44: support frame 46: bent part 47: injection hole 48: wind guide rod
50: wind power generator 51: rotary shaft 53: rotary blade 55: fixed shaft
58: through port 62: inlet 66: jacket
67: rear air intake zone 68: uneven part 71: shade area
70: air intake rotary blade 71: shade area 75: second rotation axis
77: nozzle 82: inlet 83: fixed rod 88: body

Claims (5)

The wind power generator 50 assembled to the upper end of the support pillar 36 that protrudes to the ground while being fixed in the underground 61, the rotary shaft 51 protruding from the wind power generator 50, and the rotary shaft ( In the rotary blade for a wind power generator provided with the rotary blade 53 coupled to 51),
It is fixed to the fixed shaft 55 coupled to the rotating shaft 51 with a jacket 66 formed in a very thin thin film shape, and the jacket 66 is connected with a connecting rod 35 having an air outlet 42 formed therein. , the front end of the cross section has an inlet 62 that is opened as an inlet section (a) of a wide width, and a wind power guide bar 48 that protrudes from the inside and outside of the inlet 62 curvedly, and the wind guide bar 48 ) at the rear end of the wind blower 33, which forms a narrow blowout section (b), as an opening, and a rotary blade 53 for reinforcing the rotational force with the blowout power of the wind blower 33;
The cross section provided on the rotary blade 53 is narrow with the wind turbine 33 that connects the connecting rod 35 to which the wind induction rod 48 protrudes so that the inlet 62 is opened and the air outlet 42 is connected. The formation of the wide ejection section (b) and the ejection power of the narrow ejection section (b) are reinforcement of the decompression force in the reduction section (A) formed in the curved section of the wind power guide belt 48, and blow with strong wind In the wind power generator provided to reinforce the rotational force of the rotor blades 53 with the increase in lift formed by the increase in the wind speed formed by the increase in the wind speed movement speed formed in the reduction section (A) of the wind power guide belt 48, the rotational force is reinforced in the wind power generator. The method of claim 1,
The rotational force ejection section ( b) and
In a wind power generator that provides a wind power guiding belt 48 protruding from the inside with an uneven portion 68 to form a wind turbine blade 33' that widens the interval of the blowout section (b) caused by strong wind. Rotating blades with reinforced rotational force. delete The method of claim 1,
At the end of the second rotating shaft 75 protruding so as to link the rotating shaft 51 to the rear side of the power generation device 50 with each other, and a plurality of fixing rods 83 protruding outward, assembling with each other in the circumferential direction The air inlet rotary blade 70 of the reverse trumpet type and curved structure so as to make it, and the inlet 82 provided in the air inlet rotary blade 70 in the direction in which the wind blows, and the inlet 82 in the reverse trumpet type The injection port 77 formed in a curved structure is directed in the opposite direction of rotation and collides with the inclined inner wall surface of the inner wall (e) of the body 88 provided as a jacket while colliding with the rotational force in the ⇒ direction as well as the injection port 77. Rotational blades with reinforced rotational force in the wind generator provided to form a driving force by
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