KR101074823B1 - Wind generator using funnel having air bypass - Google Patents

Abstract

The present invention relates to a wind power generator using a funnel that can enable optimum continuous power generation by finely adjusting the amount of wind flowing into the funnel and the air bypass supply means. A wind generator using a funnel comprising a funnel comprising a constricted tube passed through at an accelerated speed, and at least one power generating means for generating power by using wind passing through the constricted tube; An air bypass supply means for further supplying surplus wind to the fan of the rear power generating means except for the fan of the power generating means located in the frontmost portion is provided at the front circumference of the shrinkage tube; A flow rate adjusting means is provided in front of the contraction tube; An anemometer is provided in front of each fan, characterized in that it comprises a controller for receiving the data of the anemometer and controlling the operation of the air flow rate adjusting means, air bypass supply means and each power generation means.

Funnel, wind power generator, air bypass, fan, air volume control

Description

Wind generator using funnel with air bypass

The present invention relates to a wind power generator using a funnel, and more particularly, to a funnel equipped with an air bypass path so as to enable optimum continuous development by finely adjusting the amount of wind flowing into the funnel and the air bypass supply means. It relates to a wind power generator using.

In general, the wind power generator refers to a power generation method in which a wind turbine rotates a blade mounted on a rotating shaft with a natural wind, and rotates a generator by using a gear mechanism.

That is, the wind power generation method known in general is a horizontal axis method for generating power by rotating three blades horizontally located in the direction of the wind blowing, and the vertical axis method using a cylindrical turbo wing including the radially provided wings. Known.

However, when the power generation is carried out in the above manner, the power generation starts under the condition that the wind with the wind speed of at least 3 to 5 m / s or more is blown, and economic development is possible in the normal wind speed of 10 to 20 m / s. .

Therefore, in the breeze zone due to geographical conditions or climate, it is almost impossible to generate electricity using the existing wind power generation method.

In addition, in the course of the power generation in the above manner, when a strong wind (high wind speed of about 20m / s or more), the generator is overloaded, there was also a problem to stop the operation of the generator.

In addition, if the wind is less than 1 ~ 2m / s, the charger is not needed because it is not continuously developed, and if the overload is applied, a separate device for changing the pitch and angle of the blade and a brake device for stopping the rotation are needed. I also had this complicated problem.

In addition, large wings (with a radius of 30m to 80m) are required along with large structures in order to obtain a lot of natural wind energy.Therefore, the production cost, transportation cost, installation cost, and maintenance cost are excessively input, so there is little economical efficiency. Another problem was that the breakeven point was about 20 years.

Thus, in order to solve the above problems, the present invention has been known as a "wind generator using a funnel" (hereinafter, referred to as "wind funnel using a funnel") registered in the Patent Application No. 10-0862319.

Conventionally, a wind power generator using a funnel, is installed horizontally by a vertical support means and a funnel comprising an expansion pipe through which the wind is introduced and the inlet wind is accelerated and passed, and using the wind passing through the shrink tube It consists of one or more power generation means to generate power.

The power generating means includes an output shaft rotatably penetrating at right angles to the contraction tube, a fan mounted on an output shaft that is inside the contraction tube, and rotated by wind, and a generator connected to the output shaft to generate electricity. It is composed.

Therefore, the conventional wind generator configured as described above, by enabling the wind power generation in the breeze zone, there is an advantage that can enable continuous wind power generation using fine wind regardless of geographic conditions and climate.

However, the fan of the power generation means located in the forefront is smoothly rotated, but when the wind speed exceeds the design, the excess wind speed is blocked by the grill to hinder efficient power generation, and wind energy has a problem that cannot be effectively used.

In addition, the fan of the power generating means located in the rear of the forefront has a problem that the rotational force is reduced due to the resistance of the fan located in the forefront, thereby reducing the power generation efficiency of the power generating means located in the rear.

Therefore, the present invention was invented to solve the conventional problems as described above, the funnel to smoothly rotate the fan located in the rear as well as the fan located in the front by using the air bypass supply means An object of the present invention is to provide a wind generator using.

There are also other objectives to ensure sustainable and effective development in strong winds.

There is also another purpose to remove harmful gases and odors contained in the air and to sterilize germs.

The present invention for achieving the object of the present invention as described above, the funnel comprising a expansion pipe through which the wind is introduced and the introduced wind is accelerated and passed, and the power generation by using the wind passing through the contraction pipe A wind generator using a funnel comprising one or more generating means for generating; An air bypass supply means for further supplying surplus wind to the fan of the rear power generating means except for the fan of the power generating means located in the frontmost portion is provided at the front circumference of the shrinkage tube; A flow rate adjusting means is provided in front of the contraction tube; An anemometer is provided in front of each fan, characterized in that it comprises a controller for receiving the data of the anemometer and controlling the operation of the air flow rate adjusting means, air bypass supply means and each power generation means.

The air bypass supply means includes a plurality of bypass passages formed in the front-rear direction such that the front of the contraction tube is opened and the rear of the contraction tube is blocked, and that the air bypass supply means is formed around the contraction tube, which is the rear of each of the bypass passages. It characterized in that it comprises a through inlet hole for introducing the wind into the fan of the rear, and the front opening and closing portion provided in front of each bypass passage.

In addition, the front opening and closing portion is characterized by consisting of a cylinder for opening and closing the inclined shutter and the inclined shutter.

In addition, the power generation means is provided in the inside of the constriction tube, including an output shaft, a generator for generating power by receiving the power of the output shaft through the input shaft, and is provided in the middle of the input shaft to selectively block power transmission It characterized in that it comprises a clutch.

In addition, the front of the fan located behind the inside of the shrinkage tube is further provided with a grill opening and closing portion for adjusting the air flow in accordance with the control of the controller, both sides of the shrinkage tube which is both sides of the grill opening and closing portion is introduced from the front of the grill opening and closing portion. After passing the wind to both sides is characterized in that the air bypass passage space further discharged to the rear of the shrinkage tube.

In addition, the air flow rate adjusting means, characterized in that consisting of a pyramid-shaped grill to adjust the air volume through the opening and closing of the grill plate.

In addition, the pyramid-type grill is characterized in that it comprises a grill portion which is provided inclined upward, downward, left, right selectively.

The grille may include an opening portion, a plurality of grill plates provided to be openable through the hinge shaft, a spiral gear provided at one edge of each hinge shaft, and an inclination to be rotated by a motor at the edge of the opening portion. And a spiral gear shaft engaged with the respective spiral gears to open and close each grill plate.

Further, a plasma generating unit for purifying air is provided at the rear of the contraction tube.

The fan is composed of a turbo fan; The contraction tube, which is one front side of the turbo fan, is further provided with a guide inclined plate for guiding wind in one direction, and a vertical weight is further provided on an outer side of each wing constituting the turbo fan.

In addition, the fan is composed of a blade fan, characterized in that the peripheral portion of the blade fan is further provided with a circular ring interconnecting the outer end of each blade.

As described above, the present invention has the effect of enabling the optimum sustainable development by finely adjusting the amount of wind flowing into the funnel and the air bypass supply means.

It also has the effect of allowing wind power to be sustained and effective even in strong winds without stopping the device.

In addition, by installing a plasma device on the back of the shrinkage tube, in addition to wind power, there is an effect that can remove the harmful gases in the air and reduce the bacteria in the air.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 1 shows a wind generator of the present invention, Figure 1a is a perspective view, Figure 1b is a perspective view of the inner view, Figure 1c is a cross-sectional view taken along the line A-A of Figure 1a, Figure 1d is a cross-sectional view taken along the line B-B of Figure 1a.

The wind generator of the present invention is installed horizontally in the casing 10, the front and rear open, the wind is introduced into the front of the casing 10 is discharged to the rear, the inside of the casing 10 from the front to the rear horizontal The funnel (1) including the expansion pipe portion 11 is introduced into the wind and the shrinking pipe 12 is passed through the increased wind speed, and one to generate power by using the wind passing through the shrink pipe (12) The power generation means 2 described above is formed.

And the wind generator of the present invention, surplus wind to the fan 21 of the rear power generating means (2) except the fan 21 of the power generating means (2) located in the front of the front circumference of the shrinkage tube 12 The air bypass supply means (3) for further supplying is provided, the air volume adjusting means (4) is provided in front of the shrinking tube 12, the anemometer (5) is provided in front of each fan 21 And a controller (not shown) for receiving the data of the anemometer 5 and controlling the operation of the air volume adjusting means 4, the air bypass supply means 3, and the respective power generating means 2. .

On the other hand, the funnel (1) is located horizontally and the expansion portion 11 is formed in the inlet is wide and the outlet is narrow. And the expansion portion 11 has been shown to form a pyramid shape so as to effectively control the wind.

In addition, the contraction tube 12 is connected to the rear side of the casing, and is formed with a relatively smaller area than the area of the inlet of the expansion tube 11 so that the wind passing through the expansion tube 11 can be accelerated. It consists of a horizontal tube.

Hereinafter, the configuration of the present invention in more detail as follows.

Figure 2 shows an air bypass supply means according to the present invention, Figure 2a is a schematic perspective view, Figure 2b is an enlarged view of portion C of Figures 1c and 1d.

The air bypass supply means (3), as shown in Figure 1d and 2, a plurality of bypass passages 31 are formed in the front and rear direction so that the front is opened around the shrinkage tube 12 and the rear is blocked; A through inlet hole (32) formed around the contraction tube (12), which is a rear of each of the bypass passages (31), for introducing wind into the rear fan (21) except the front fan (21); It includes a front opening and closing portion 33 provided in front of the bypass passage (31).

And the front opening and closing portion 33, the inclined shutter 331 and the cylinder 332 for opening and closing the shutter 331, the cylinder 332 is driven by a fluid of air or liquid, funnel (1) Is provided on the outside to open and close the shutter 331. In addition, since the rod and the shutter 331 of the cylinder 332 are connected to the shaft and the long hole, the shutter 331 can be opened and closed smoothly.

Therefore, each cylinder 332 is operated according to the drive signal of the controller, and the operation of opening and closing each shutter is performed by opening and closing the cylinder 332.

Figure 3 shows the power generation means according to the invention, Figure 3a is an enlarged view, Figure 3b is a perspective view showing an enlarged fan.

Accordingly, the power generation means 2 is provided in the inside of the shrinkage tube 12, the fan 21 including the output shaft and the generator 22 receives power from the output shaft through the input shaft 221 to generate power. And a clutch 23 provided in the middle of the input shaft 221 to selectively block power transmission.

Therefore, the clutch 23 operates the generator 22 by selectively connecting the input shaft of the generator 22 through the control of the controller.

In addition, the fan 21 is composed of a turbo fan 211, the inlet tube 12 which is one front of the turbo fan 211 is further provided with a guide inclined plate 7 for guiding wind in one direction. .

In addition, the outer side of each blade 212 constituting the turbo fan 211 is further provided with a vertical weight 213, which is a weight body, the vertical weight 213 provided on each blade is a turbo when the wind speed changes rapidly It does not change the rotational speed of the fan drastically to induce a constant power generation to prevent excessive operation of the associated machinery.

Therefore, by using the inertia of the vertical weight 213 provided on each blade, the turbo fan 211 is rotated at a speed without a sudden change to obtain a substantially constant power generation output and has the advantage of protecting the associated device will be.

4 is a view illustrating the air volume adjusting means according to the present invention, FIG. 4A is an enlarged cross-sectional view, FIG. 4B is a partially cutaway perspective view, and FIG. 4C is an enlarged view of a main part.

Thus, the air volume adjusting means 4 is composed of a pyramid-shaped grill 41 for adjusting the air volume through the opening and closing of the grill plate 422.

And the pyramid-shaped grill 41 is provided to be inclined at the top, bottom, left and right to include a grill portion 42 that is selectively opened.

That is, the grill part 42 includes an opening part 421, a plurality of grill plates 422 provided to the opening part 421 so as to be open through the hinge axis 423, and the hinge shafts 423. Spiral gear 424 provided at one corner of the spiral gear, and a spiral gear shaft that is provided to be inclined to rotate by the motor 426 at the corner of the opening 421 is engaged with each of the spiral gear 424 to open and close each grill plate 425.

Accordingly, each of the spiral gear shafts 425 is provided at each corner portion of the pyramid grill 41, and each of the spiral gear shafts 425 is rotated by the motor 426. ) Is rotated according to the drive signal of the controller. Therefore, according to the rotation of each motor 426, the grill plate 422 of the grill portion 42 which is provided in the upper, lower, left and right, respectively, is to perform the operation of opening and closing.

In other words, each spiral gear shaft 425 performs an operation of opening and closing the grill plates 422 constituting each grill portion 42.

Hereinafter, the operation relationship of the wind generator according to the present invention configured as described above are as follows.

As shown in FIGS. 1 to 4, when the power generation starts, each grill plate 422 provided in the pyramid grill 41 is opened through a drive signal of the controller.

Next, the wind speed sensor 5 located at the forefront and the wind speed meters 5 located at the rear thereof detect the current wind speed and output the data to the controller.

The next control unit detects the current wind speed and selectively outputs driving signals to the air volume adjusting means 4, the air bypass supply means 3, and each of the power generating means 2, so that the power generation proceeds to an optimum power generation condition.

Thus, the power generation conditions according to the wind speed will be described in detail.

First, when the wind speed is weak, the control unit drives the motor 426 of the air volume adjusting means 4 to open all the grill plates 422 and maximize the amount of wind flowing into the contraction tube 12. Then, the power generating means 2 located at the front and the power generating means 2 at the rear are connected by connecting the clutch 23 constituting the power generating means 2 and the power generating means 2 at the rear of the front. Activating the shutter 331 constituting the air bypass supply means 3 or selectively opening the shutter 331 constituting the rear power generating means 2 which is the middle of the contraction tube 12 through each bypass path 31. Surplus wind is introduced into the front of the fan 21.

Therefore, when the wind speed is weak as described above, by opening the air volume adjusting means 4 completely, by opening all or selectively each bypass path 31, by connecting the clutch 23 of each power generating means (2) By using the power generation means 2 located at the front and the power generation means 2 located at the rear, sufficient power generation efficiency corresponding to the breeze can be obtained.

That is, by introducing surplus wind flowing into the front circumference of the constriction tube 12 to turn the fan 21 located in the rear, the fans 21 of the power generating means 2 located at the foremost and the rear thereof. It is possible to obtain sufficient power generation efficiency by distributing wind into the air.

In addition, when the wind speed is in the appropriate range, the control unit, by driving all or selectively the motor 426 of the air flow rate adjusting means 4 to open all the grill plate 422 or to open some grill plate 422. Then, the power generating means 2 located at the front and the power generating means 2 are operated at the rear by connecting the clutch 23 constituting the power generating means 2 and the power generating means 2 behind the front. And the fan 21 constituting the rear power generating means 2 which is the middle of the shrinkage tube 12 through each bypass passage 31 by selectively opening all or selectively the shutters constituting the air bypass supply means 3. Inflow of excess wind to the front of the.

Therefore, when the wind speed falls within the appropriate range, all or part of the air volume adjusting means 4 is opened, and the clutch 23 of the power generating means 2 and the power generating means 2 behind it is located at the very front. The power generation means 2 at the front and the power generation means 2 at the rear, by connecting surplus air, and all or selectively opening the bypass paths 31 to inject surplus wind into the fans 21 located at the rear. Through this, sufficient power generation efficiency corresponding to an appropriate wind speed can be obtained.

When the wind speed is strong, the control unit selectively drives one to three of the plurality of motors 426 constituting the air volume adjusting means 4 to open some of the grill plates 422 to the contraction tube 12. Adjust the amount of wind coming in appropriately. Then, the power generating means 2 located at the front and the power generating means 2 are operated at the rear by connecting the clutch 23 constituting the power generating means 2 and the power generating means 2 behind the front. In addition, the shutter constituting the air bypass supply means 3 is blocked.

Accordingly, when the wind speed is strong as described above, the air volume adjusting means 4 is partially opened and the clutch 23 of the power generating means 2 and the power generating means 2 at the rear thereof is connected to the front, and the bypass passages are connected. By blocking, sufficient power generation efficiency corresponding to strong wind can be obtained through the power generation means 2 at the front and the power generation means 2 at the rear thereof.

On the other hand, if the wind speed is excessively strong enough to impede power generation, the control unit drives the motor 426 of the air volume adjusting means 4 to open all the grill plates 422 and to clutch all the power generating means 2. Non-connecting 23 causes each fan 21 to idle.

Then, the excessively strong wind introduced from the shrinking tube 12 is idling the fan 21 and discharged to the rear, it is possible to prevent the failure of the device constituting the wind generator in advance.

Therefore, by selectively using the air bypass supply means in accordance with the wind speed, it is possible to smoothly rotate the fan 21 located in the front as well as the rear of the fan 21 located in the rear, corresponding to the wind It has the advantage of maximizing power generation efficiency.

Figure 5 shows another embodiment of the fan constituting the power generation means according to the present invention, Figure 5a is a cross-sectional configuration, Figure 5b is an enlarged view of the portion D of Figure 5a, Figure 5c is a perspective view showing a fan.

Accordingly, the fan 21 constituting the power generating means according to the present invention, the blade fan 215 is composed of a circular ring 217 interconnecting the outer end of each blade 216 around the blade fan 215 ) Is further provided.

Therefore, the outer ring of each blade 216 constituting the blade fan 215 is provided with a circular ring 217, the circular ring 217 is a sudden rotation of the blade fan 215 in response to the rapid wind speed change It is to prevent the change of.

Therefore, the blade fan 215 is also rotated without a sudden change in rotation has the advantage of preventing the failure by eliminating excessive changes in the device associated with the advantage of having the advantage of obtaining a substantially constant power generation output.

On the other hand, as shown in Figure 1, the rearmost of the shrinkage tube 12, the plasma generating unit 6 for purifying the air is provided.

In addition, the configuration of the plasma generator 6 is well known and the detailed description thereof will be omitted.

Therefore, by providing the plasma generating unit 6 behind the shrinkage tube 12, it is possible to remove the harmful gas contained in the air at the same time as the wind power generation, it is possible to reduce the bacteria in the air.

Figure 6 is a wind power generator of another embodiment according to the present invention, Figure 6a is a perspective view, Figure 6b is an enlarged view of the main portion, Figure 6c is a cross-sectional view of the line EE of Figure 6a, Figure 6d shows an enlarged grill opening and closing portion Perspective view.

Accordingly, it is assumed that the wind power generator of another embodiment according to the present invention includes all the configurations of the above-described embodiment.

Therefore, the wind power generator of another embodiment according to the present invention further includes a grill opening and closing portion 8 that adjusts the amount of air according to the control of the control unit in front of the fan 21 located behind the shrinking tube 12. It is.

And both sides of the contraction tube 12, which is both sides of the grill opening and closing part 8, both wind passing space for passing the wind introduced from the front of the grill opening and closing part 8 to both sides and discharge to the rear of the contraction tube 12 ( 9) is further provided.

That is, the grill opening and closing portion 8 includes a grill plate 82 that is opened and closed by the operation of the driving cylinder 81, the driving cylinder 81 is the opening degree is adjusted in accordance with the drive signal of the control unit. .

In other words, the rod of the drive cylinder 81 is provided with a rack 811, the pinion 821 is provided on the rotation axis of each grill plate 82, so that the grill plate 82 of the The angle is changed to control the amount of wind.

In addition, the wind passing space 9 provided on both sides includes front and rear opening holes 91 provided in front and rear and communicating with the contraction tube 12.

Therefore, when the wind blowing from the front is strong, the control unit, by selectively driving one to three of the plurality of motors 426 constituting the air flow rate adjusting means 4 to open some of the grill plate 422 and shrink tube Adjust the amount of wind flowing into (12) appropriately. Then, the power generating means 2 located at the front and the power generating means 2 are operated at the rear by connecting the clutch 23 constituting the power generating means 2 and the power generating means 2 behind the front. In addition, the shutter constituting the air bypass supply means 3 is opened.

At the same time, the grill opening / closing part 8 located at the rear part is opened to inject the wind of the appropriate amount of air into the fan 21 located at the rear part.

Then, the surplus wind remaining in front of the grill opening and closing portion 8 is discharged to the rear of the shrinkage tube 12 through the wind through space (9).

Therefore, even when the wind is strong, surplus wind remaining in front of the grill opening and closing portion 8 to the rear grill opening and closing portion 8 and the air passage space 9 is discharged to the rear of the shrinkage tube 12, so that the wind is strong. Even if there is an advantage that can enable the power generation without stopping the device.

1 shows a wind generator of the present invention,

       1A is a perspective view,

       1B is an internal perspective view,

       1C is a cross-sectional view taken along the line A-A of FIG. 1A,

       1D is a cross-sectional view taken along the line B-B in FIG. 1A.

2 shows an air bypass supply means according to the present invention,

       2A is a schematic perspective view,

       FIG. 2B is an enlarged view of part C of FIGS. 1C and 1D.

Figure 3 shows the power generation means according to the present invention,

       3A is an enlarged view,

       3B is an enlarged perspective view of the fan.

Figure 4 shows the air flow rate adjusting means according to the present invention,

       4A is an enlarged cross-sectional view,

       4b is a partial cutaway perspective view from the rear,

       4C is an enlarged view of main parts.

Figure 5 shows another embodiment of the fan constituting the power generating means according to the present invention,

       5A is a cross-sectional configuration diagram,

       5B is an enlarged view of portion D of FIG. 5A,

       5C is a perspective view of the fan.

Figure 6 shows a wind generator of another embodiment according to the present invention,

       6a is a perspective view,

       6B is an enlarged view of main parts;

       6C is a cross-sectional view taken along the line E-E of FIG. 6A,

       6D is an enlarged perspective view of the grill opening and closing part.

<Description of Symbols for Main Parts of Drawings>

1: funnel

    11: expansion tube

    12: contraction tube

2: power generation means

    21: fan

         211: turbo fan, 212: wing, 213: vertical weight

         215: blade fan, 216: blade, 217: circular ring

    22: generator

         221 input shaft

    23: clutch

3: air bypass supply means

    31: Bypass Path

    32: through inlet hole

    33: front opening and closing part

         331: shutter, 332: cylinder

4: air volume adjusting means

    41: pyramid grill

    42: grill part

         421: opening part, 422: grill plate, 423: hinge shaft,

         424: spiral gear, 425: spiral gear shaft, 426: motor

5: anemometer

6: plasma generator

7: guide slope plate

8: grill opening and closing part

    81: drive cylinder

         811: rack

    82: grill plate

         821: Pinion

9: wind passing space

    91: opening hole

10: casing

Claims (11)

Funnel 1 including an expansion pipe 11 into which the wind is introduced and a shrinking pipe 12 through which the introduced wind is accelerated, and at least one of generating power by using the wind passing through the shrinking pipe 12. A wind generator using a funnel comprising a power generation means (2); The air bypass supply means for further supplying surplus wind to the fan 21 of the rear-side power generation means (2) except the fan 21 of the power generation means (2) located in the front of the front circumference of the shrinkage tube 12 (3) is provided; A front air volume adjusting means (4) is provided in front of the contraction tube (12); An anemometer 5 is provided in front of each fan 21, And a control unit for controlling the operation of the air flow rate adjusting means 4, the air bypass supply means 3, and the power generating means 2 by receiving the data of the anemometer 5; Wind generators using a funnel. The air bypass supply means (3) according to claim 1, A plurality of bypass passages 31 formed in the front-rear direction so that the front is opened and the rear is blocked around the contraction tube 12, A through inlet hole 32 formed around the constriction tube 12, which is the rear of each bypass passage 31, to introduce wind into the rear fan 21 except for the most front fan 21; Wind generator using a funnel equipped with an air bypass path, characterized in that it comprises a front opening and closing portion (33) provided in front of each bypass passage (31). The method according to claim 2, wherein the front opening and closing part 33, Wind generator using a funnel with an air bypass path, characterized in that consisting of a cylinder 332 for opening and closing the inclined shutter 331 and the inclined shutter 331. The method of claim 1, wherein the power generation means (2) A fan 21 provided inside the contraction tube 12 and including an output shaft; A generator 22 that receives power from the output shaft through an input shaft 221 and generates power; A wind generator using a funnel with an air bypass path, which is provided in the middle of the input shaft 221 and selectively blocks the transmission of power. The grill opening / closing part 8 according to any one of claims 1 to 4, wherein the grill opening and closing portion 8 which adjusts the air flow amount under the control of the control unit is located in front of the fan 21 located behind the contraction tube 12. More equipped, On both sides of the contraction tube 12, which is both sides of the grill opening and closing part 8, both wind passing spaces for passing the wind introduced from the front of the grill opening and closing part 8 to both sides and then discharges to the rear of the contraction tube 12 (9). Wind turbine generator using a funnel having an air bypass path, characterized in that is further provided. The wind power according to claim 1, wherein the air volume adjusting means (4) comprises a pyramid grill (41) for adjusting the air volume through opening and closing of the grill plates (422). generator. 7. The wind turbine generator according to claim 6, wherein the pyramid grill (41) includes a grill portion (42) which is provided at an inclined top, bottom, left and right and is selectively opened. The method of claim 7, wherein the grill part 42 includes an opening part 421, a plurality of grill plates 422 provided to the opening part 421 so as to be openable through a hinge shaft 423, and the respective hinges. Spiral gear 424 provided at one corner of the shaft 423 and the side of the opening 421 is inclined so as to be rotated by the motor 426 is meshed with the respective spiral gear 424 to each grill plate 422 Wind generator using a funnel with an air bypass path, characterized in that it comprises a spiral gear shaft (425) for opening and closing the. The wind turbine generator according to claim 1, wherein a plasma generator (6) for purifying air is provided at the rear of the contraction tube (12). 2. The fan according to claim 1, wherein the fan (21) is composed of a turbo fan (211); The shrink pipe 12, which is one front side of the turbo fan 211, further includes a guide inclined plate 7 for guiding wind in one direction. Wind turbine generator using a funnel with an air bypass path, characterized in that the vertical weight 213 is further provided on the outside of each wing 212 constituting the turbo fan (211). The method of claim 1, wherein the fan 21 is composed of a blade fan 215, The wind turbine generator having a funnel having an air bypass path is further provided around the blade fan 215, the circular ring 217 interconnecting the outer ends of the respective blades (216).

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