KR102541245B1 - Wind power generators capable of preventing over-speed rotation - Google Patents

Abstract

The present invention relates to a wind turbine capable of preventing overspeed rotation, and more specifically, to a wind turbine having an overspeed prevention function for preventing the wind turbine from overspeeding when a lot of wind blows due to the influence of a typhoon.
In the present invention, since the blades of the wind turbine are formed in a cut shape, the incised part is opened to stop rotation at an appropriate speed or more, so that the wind turbine stops rotating, and the blades of the wind generator are made of a fabric material. It has the effect of preventing environmental problems by making use of.
In addition, there is no fear of damage to the blade, so it is possible to prevent damage caused by flying objects in advance, and it is effective to provide an environmentally friendly product by collecting fabric products such as waste banners and manufacturing blades.

Description

Wind power generators capable of preventing over-speed rotation

The present invention relates to a wind turbine capable of preventing overspeed rotation, and more specifically, to a wind turbine having an overspeed prevention function for preventing the wind turbine from overspeeding when a lot of wind blows due to the influence of a typhoon.

A wind generator is a device that converts the energy of the wind into electrical energy that we can use. Blowing wind causes the blades of a wind generator to rotate. At this time, the rotational force of the wings generates electricity, which we use. Specifically, a wind turbine consists of three parts: blades, gearbox, and generator. A wing is a device that is rotated by the wind and converts wind energy into mechanical energy. The transmission device rotates the generator by increasing the rotational force generated from the wings to the transmission gear through the central rotation shaft to increase the number of revolutions required by the generator. The generator is a device that converts the mechanical energy generated by the wings into electrical energy.

Patent Registration No. 10-2132625 predicts overvoltage by measuring the slope of the voltage transmitted from the wind power generation unit, and consumes energy through resistance according to the slope value to prevent electrical damage to the wind power control unit in advance Wind power to prevent overspeed damage Its purpose is to provide a generator.

In order to achieve the above object, the wind power generator for preventing overspeed damage of the present invention includes a power generation unit generating power by blades, a rectifying unit converting AC current of the power generation unit into DC current, a converter unit transmitting the DC current to a load or a battery, and the A power converter including a DC link capacitor formed between the rectifier and the converter and a dynamic braking circuit formed between the rectifier and the DC link capacitor, selectively operating and consuming the DC current, and the DC link capacitor It is characterized in that it comprises a control unit for measuring a voltage and controlling the dynamic braking circuit unit so that the voltage of the DC link capacitor is maintained below a predetermined value.

In addition, Patent Registration No. 10-1163173 discloses two to four rotor blades that directly receive wind; The ends of the rotor blades are gathered and composed of a blade coupling shaft coupled to a rotation shaft for transmitting rotational force to a generator, and the rotor blade plate forms a front surface directly facing the wind to increase the strength of the structure; a rear wing plate attached to the back of the front wing plate to form a rear surface of the front wing plate to reinforce the front wing plate; It consists of a side plate that forms a side by bonding the front wing plate and the rear wing plate, and an air inlet is provided on the side plate to reduce the frictional noise caused by friction with the air while the side plate cuts the air when the wind turbine blades rotate. It relates to the structure of a rotor blade with a device attached to it to reduce noise by allowing air to escape to the rear wing plate and reducing wind pressure when the wind pressure is too high by placing an inner wing on the front wing plate.

However, although the blades of these wind turbines are produced using FRP resin as a main material, there is a problem of causing environmental problems as glass fibers.

In addition, as shown in FIG. 1, the conventional blade has a problem in that the blade is damaged during high speed, and secondary personal and property damage is caused by flying objects generated when the blade is damaged.

Registered Patent Publication No. 10-2132625 Registered Patent Publication No. 10-1163173

An object of the present invention is to stop the rotation of the wind turbine by opening the cut portion to stop it when the blade of the wind turbine is formed in a cut shape so that it rotates at an appropriate speed or more.

In addition, the purpose is to prevent environmental problems by making blades of wind turbines using fabric materials.

In order to solve the above problems, the present invention is a blade frame 100 to which the first blade body portion 200 is coupled to one side and the second blade body portion 400 is coupled to the other side, and the wavy support portion 110 The first blade body portion 200 formed to be wrapped around the convex portion of the first blade body fastening portion 111 of) and the convex portion of the second blade body fastening portion 112 of the wavy support portion 110 It is configured to include a second blade body portion 400 formed to be wrapped, and the blade frame 100 extends in one direction with respect to the center, but the first blade body fastening portion 111 formed so that one side is concave and A wavy support portion 110 formed with a second blade body fastening portion 112 extending in the other direction based on the center and having a second blade body fastening portion 112 formed so that a portion located in the opposite direction to the first blade body fastening portion 111 is concave; It is formed in a rod shape of a predetermined length and includes a shaft portion 120 fastened through the center of the corrugated support portion 110 arranged in a row, and the first blade body portion 200 is a quadrant with a rectangular shape of a predetermined size. It includes a first blade main body part 210 formed by cutting, but detachable adhesive parts are formed on each quadrant of the first blade main body part 210, and the second blade main body part 400 has a predetermined size. A second blade main body portion 410 formed by cutting the quadrangular shape of the second blade main body portion 410 and a detachable adhesive portion are formed on the quadrants of the second blade main body portion 410, respectively, and the first blade main body portion 200 is formed on one side. ) is coupled to the blade frame 100 to which the second blade body 400 is coupled to the other side, and the convex portion of the first blade body fastening portion 111 of the wavy support 110 is formed to be wrapped around the convex portion. It is configured to include a first blade body portion 200 and a second blade body portion 400 formed to be wrapped around the convex portion of the second blade body fastening portion 112 of the wavy support portion 110, the blade The frame 100 is opposite to the first blade body fastening part 111 extending in one direction based on the center and having one side concave and extending in the other direction based on the center but opposite to the first blade body fastening part 111. The center of the corrugated support 110 formed with the second blade body fastening portion 112 formed so that the portion located in the direction is concave, and the corrugated support 110 formed in a rod shape of a predetermined length and arranged in a row. A shaft portion 120 fastened through, a first support 130 formed in a rod shape of a predetermined length and fastened through one end of the corrugated support portion 110 disposed in a row, and a rod shape having a predetermined length It is formed and includes a second support 140 fastened through the other end of the wave-shaped support 110 arranged in a row, and the first blade body 200 is cut into quadrants in a rectangular shape of a predetermined size The formed first blade body body 210 and one side of the first quadrant k1 of the first blade body 210 adjacent to the second quadrant k2 of the first blade body 210 , and the other side is located on one side of the second quadrant k2 of the first blade body 210 adjacent to the first quadrant k1 of the first blade body 210 220 And, one side is located on one side of the first quadrant (k1) of the first blade body portion 210 adjacent to the fourth quadrant (k4) of the first blade body portion 210, and the other side is the first blade body portion ( 210), the second zipper portion 230 located on one side of the fourth quadrant k4 of the first blade body portion 210 adjacent to the first quadrant k1, and one side of the first blade body portion 210 ) is located on one side of the second quadrant (k2) of the first blade body portion 210 adjacent to the third quadrant (k3) of the position, and the other side is located adjacent to the second quadrant (k2) of the first blade body portion 210 Of the third zipper portion 240 located on one side of the third quadrant k3 of the first blade body portion 210, and one side adjacent to the fourth quadrant k4 of the first blade body portion 210 It is located on one side of the third quadrant (k3) of the first blade body portion 210, and the other side is located on the fourth side of the first blade body portion 210 adjacent to the third quadrant k3 of the first blade body portion 210. It includes a fourth zipper part 250 located on one side of the quadrant k4, and the second blade main body part 400 is formed by cutting a square shape of a predetermined size into a quadrant. ) And, one side is located on one side of the first quadrant (k5) of the second blade body portion 410 adjacent to the second quadrant (k6) of the second blade body portion 410, and the other side is the second blade body portion The fifth zipper portion 420 located on one side of the second quadrant k6 of the second blade body portion 410 adjacent to the first quadrant k5 of 410, and one side is the second blade body portion ( 410) is located on one side of the first quadrant k5 of the second blade body 410 adjacent to the fourth quadrant k8, and the other side is one of the fourth quadrant k8 adjacent to the first quadrant k5. The sixth zipper portion 430 located on the side, one side is located on one side of the second quadrant k6 adjacent to the third quadrant k7 of the second blade body 410, and the other side is located on the second quadrant k6 ) and the seventh zipper portion 440 located on one side of the third quadrant (k7) adjacent to the third quadrant (k7) adjacent to the fourth quadrant (k8) of the second blade body 410. , and the other side includes an eighth zipper part 450 located on one side of the fourth quadrant k8 adjacent to the third quadrant k7, and the first zipper part 220 has a predetermined length. It includes a first zipper tooth portion 221 formed by engaging teeth, and a first zipper ring portion 222 located at the lower end of the first zipper tooth portion 221 but formed with a hole of a predetermined size, , The second zipper portion 230 has a second zipper tooth portion 231 having a predetermined length and formed by meshing teeth, and a hole located at the lower end of the second zipper tooth portion 231 but having a predetermined size. The third zipper portion 240 has a predetermined length and a third zipper tooth portion 241 formed by interlocking teeth, and a third zipper tooth portion 241 It is located at the lower end of and includes a third zipper hook portion 242 formed with a hole of a predetermined size, and the fourth zipper portion 250 has a predetermined length and a fourth zipper tooth portion formed by meshing teeth ( 251) and,

It is located at the lower end of the fourth zipper tooth portion 251 and includes a fourth zipper hook portion 252 formed with a hole of a predetermined size, and the fifth zipper portion 420 has a predetermined length and teeth are engaged. It includes a fifth zipper tooth portion 421 formed, and a fifth zipper ring portion 422 located at the lower end of the fifth zipper tooth portion 421 and formed with a hole of a predetermined size, and the sixth zipper portion 430 is a sixth zipper tooth portion 431 having a predetermined length and formed by meshing teeth, and a sixth zipper ring portion located at the lower end of the sixth zipper tooth portion 431 but having a hole of a predetermined size. 432, the seventh zipper portion 440 has a predetermined length and is located at the lower end of the seventh zipper tooth portion 441 formed by meshing teeth, and the seventh zipper tooth portion 441, It includes a seventh zipper hook part 442 formed with a hole of a size, and the eighth zipper part 450 has a predetermined length and has an eighth zipper tooth part 451 formed by meshing teeth, It includes an eighth zipper hook part 452 located at the lower end of the zipper tooth part 451 and formed with a hole of a predetermined size, and the first zipper hook part 222 of the first zipper part 220 and the second The second zipper hook part 232 of the zipper part 230, the third zipper hook part 242 of the third zipper part 240, and the fourth zipper hook part 252 of the fourth zipper part 250 are respectively The first connecting ring joint 300 formed to pass through and formed in a ring shape of a predetermined size, the fifth zipper ring part 422 of the fifth zipper part 420, and the sixth zipper of the sixth zipper part 430 It is formed to pass through the 7th zipper hook 442 of the hook 432 and the 7th zipper 440 and the 8th zipper hook 452 of the 8th zipper 450, respectively, and has a ring shape of a predetermined size. It provides a wind turbine capable of preventing overspeed rotation, characterized in that it further comprises a second connecting ring joint 500 formed of.

In the present invention, since the blades of the wind turbine are formed in a cut shape, the incised part is opened to stop rotation at an appropriate speed or more, so that the wind turbine stops rotating, and the blades of the wind generator are made of a fabric material. It has the effect of preventing environmental problems by making use of.

In addition, there is no fear of damage to the blade, so it is possible to prevent damage caused by flying objects in advance, and it is effective to provide an environmentally friendly product by collecting fabric products such as waste banners and manufacturing blades.

1 is a photograph showing the state of blade breakage of a conventional wind power generator.
2 is a view showing the overall appearance of a wind turbine capable of preventing overspeed rotation of the present invention.
3 is a view showing the appearance of blades of a wind turbine capable of preventing overspeed rotation of the invention.
4 is a view of FIG. 3 viewed from above.
5 is a view showing a state in which the blade and the blade frame of the present invention are separated.
6 is a view showing a state in which the first blade body 200 and the second blade body 400 of the present invention are unfolded.
7 is a view showing a state in which wind is released and rotated in a wind turbine capable of preventing overspeed rotation of the present invention.
8 and 9 are views showing the state of the blade when strong wind blows over a specific value.
10 is a view related to another embodiment of the wind power generator of the present invention.

The terms or words used in this specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventors can properly define the concept of terms in order to explain their invention in the best way. Based on the principle, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

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

The present invention relates to a wind turbine capable of preventing overspeed rotation, and more specifically, to a wind turbine having an overspeed prevention function for preventing the wind turbine from overspeeding when a lot of wind blows due to the influence of a typhoon.

2 is a view showing the overall appearance of a wind turbine capable of preventing overspeed rotation of the present invention. In the wind turbine capable of preventing overspeed rotation, the blade frame 100, the first blade main body 200, and the second blade main body 400 are located inside the outer frame 600.

3 is a view showing the appearance of blades of a wind turbine capable of preventing overspeed rotation of the present invention, and the blades of the present invention include a blade frame 100, a first blade body 200, a second blade body 400, and the like consists of including

Referring to FIGS. 3, 4 and 5 (a), the blade frame 100 has a first blade main body 200 coupled to one side and a second blade main body 400 coupled to the other side.

5(a) is a view showing the blade frame 100 alone, and the blade frame 100 includes a wavy support 110, a shaft 120, a first support 130, and a second support 140 It is composed of.

The wavy support part 110 extends in one direction with respect to the center, but extends in the other direction with respect to the center with the first blade body fastening part 111 formed so that one side is concave, and the first blade body fastening part 111 It is formed with a second blade body fastening portion 112 formed so that the portion located in the opposite direction is concave.

The wave-shaped support part 110 is formed with a predetermined width and is located in a row with a predetermined interval from the bottom to the top.

Preferably, as shown in the drawing, four wave-shaped supports 110 may be positioned at a predetermined interval from the bottom to the top, and the number of wave-shaped supports 110 may vary as needed.

The shaft portion 120 is formed in a rod shape of a predetermined length and fastened through the center of the wavy support portion 110 arranged in a row.

The shaft portion 120 is formed of a tube of a predetermined size and is formed to be fastened through the center of the corrugated support portion 110 disposed in a row from top to bottom at a predetermined interval as shown in FIG. 5 (a).

The first support 130 is formed in a rod shape of a predetermined length and fastened through one end of the corrugated support 110 arranged in a row. That is, the first support 130 is fastened through one end of the corrugated support 110 disposed in a line from top to bottom at a predetermined interval.

The first support 130 may have a predetermined number of first hook parts 131 formed at predetermined intervals, and as shown in FIG. 3 (a), the second frame fastening hook part ( 470) can be hung and fixed.

The second support 140 is formed in a rod shape of a predetermined length and fastened through the other end of the corrugated support 110 arranged in a row. That is, the second support 140 is fastened through the other end of the corrugated support 110 arranged in a row from top to bottom at a predetermined interval.

The second support 140 may have a predetermined number of second hooks 141 formed at predetermined intervals, and the first frame fastening hooks 270 are hooked and fixed to the second hooks 141. (In the drawing, the shape of the second hook part 141 is not illustrated, but it has the same shape as the shape of the first hook part 131.).

5(b) and 6 are views showing the first blade main body 200 and the second blade main body 400.

Figure 5 (b) shows a state positioned along the shape of the blade frame 100, and Figure 6 shows a state in which the first blade body portion 200 and the second blade body portion 400 are unfolded.

The first blade body portion 200 is formed to be wrapped around the convex portion of the first blade body fastening portion 111 of the wavy support portion 110 .

The first blade body portion 200 includes a first blade body portion 210, a first zipper portion 220, a second zipper portion 230, a third zipper portion 240, and a fourth zipper portion 250. ), a first reinforcing portion 260, and a first frame fastening ring portion 270.

The first blade main body 210 is formed in a rectangular shape of a predetermined size and is preferably made of a fabric material. In addition, the first blade main body portion 210 is formed by cutting the first blade main body portion 210 into four quadrants, and zipper portions are formed on each joint surface.

The first quadrant of the first blade body 210 is the k1 portion of FIG. 6 (a), the second quadrant is the k2 portion of FIG. 6 (a), and the third quadrant is the k3 portion of FIG. 6 (a), The fourth quadrant is the k4 portion of FIG. 6(a).

One side of the first zipper unit 220 is located on one side of the first quadrant k1 adjacent to the second quadrant k2 of the first blade body 210, and the other side is located adjacent to the first quadrant k1. It is located on one side of the second quadrant k2.

The first zipper portion 220 includes a first zipper tooth portion 221 and a first zipper ring portion 222, and the first zipper tooth portion 221 has a predetermined length and is formed by interlocking teeth. And the first zipper ring portion 222 is located at the lower end of the first zipper tooth portion 221, but is formed with a hole of a predetermined size.

The second zipper unit 230 has one side located on one side of the first quadrant k1 adjacent to the fourth quadrant k4 of the first blade body 210, and the other side adjacent to the first quadrant k1. It is located on one side of the fourth quadrant (k4).

The second zipper portion 230 includes a second zipper tooth portion 231 and a second zipper ring portion 232, and the second zipper tooth portion 231 has a predetermined length and is formed by interlocking teeth. And the second zipper ring portion 232 is located at the lower end of the second zipper tooth portion 231, but is formed with a hole of a predetermined size.

The third zipper unit 240 has one side located on one side of the second quadrant k2 adjacent to the third quadrant k3 of the first blade body 210, and the other side adjacent to the second quadrant k2. It is located on one side of the third quadrant k3.

The third zipper portion 240 includes a third zipper tooth portion 241 and a third zipper ring portion 242, and the third zipper tooth portion 241 has a predetermined length and is formed by interlocking teeth. And the third zipper ring portion 242 is located at the lower end of the third zipper tooth portion 241, but is formed with a hole of a predetermined size.

The fourth zipper unit 250 has one side located on one side of the third quadrant k3 adjacent to the fourth quadrant k4 of the first blade body 210, and the other side adjacent to the third quadrant k3. It is located on one side of the fourth quadrant (k4).

The fourth zipper portion 250 includes a fourth zipper tooth portion 251 and a fourth zipper ring portion 252, and the fourth zipper tooth portion 251 has a predetermined length and is formed by interlocking teeth. And the fourth zipper ring portion 252 is located at the lower end of the fourth zipper tooth portion 251, but is formed with a hole of a predetermined size.

An enlarged view of FIG. 3 in a state in which the teeth of the first zipper tooth portion 221, the second zipper tooth portion 231, the third zipper tooth portion 241, and the fourth zipper tooth portion 251 are meshed with each other ( As shown in b), the first zipper hook 222, the second zipper hook 232, the third zipper hook 242, and the fourth zipper hook 252 are formed close to each other so that they can be formed. It is connected as a bundle by one link joint (300).

In addition, instead of the first zipper part 220, the second zipper part 230, the third zipper part 240, and the fourth zipper part 250, as shown in FIG. 10, an adhesive tape 800 is attached to a constant Of course, it may be formed in place of a configuration such as an adhesive portion that is opened when pressure is applied, and the present invention describes a zipper portion as a representative form.

The first reinforcing part 260 is located on one side of the first blade main body 210 adjacent to the part where the second support 140 is located, but is formed long along the longitudinal direction of the second support and has a predetermined thickness. is formed with The first reinforcing part 260 may be formed of a thick member of a fabric material, but is not limited to the material.

The first frame fastening ring portion 270 is formed in a ring shape formed at predetermined intervals in the first reinforcing portion 260 . The first frame fastening hook part 270 is fastened to the second hook part 141 of the second support 140 so that the end of the first blade body part 200 can be fixed.

The first reinforcing part 260 is the same as the second reinforcing part 460, and the shape of the second reinforcing part 460 in FIG. As the same as the ring part 470, the shape of the second frame fastening ring part 470 of FIG. 3 may be referred to.

The first connecting ring joint 300 includes the first zipper ring part 222 of the first zipper part 220, the second zipper ring part 232 of the second zipper part 230, and the third zipper part 240. It is formed to pass through the third zipper ring portion 242 and the fourth zipper ring portion 252 of the fourth zipper portion 250, respectively, but formed in a ring shape of a predetermined size.

That is, as shown in the enlarged view of FIG. 3(b), the first zipper ring part 222, the second zipper hook part 232, the third zipper hook part 242, and the fourth zipper hook part 252 are located close to each other. are connected in a bundle by the first connecting ring joint 300.

The second blade body portion 400 is formed to be wrapped around the convex portion of the second blade body fastening portion 112 of the wavy support portion 110.

The second blade body portion 400 includes a second blade body portion 410, a fifth zipper portion 420, a sixth zipper portion 430, a seventh zipper portion 440, and an eighth zipper portion 450. , The second reinforcement portion 460, the second frame fastening ring portion 470 is configured to include.

The second blade main body portion 410 is formed in a rectangular shape of a predetermined size and is preferably made of a fabric material. In addition, the second blade main body portion 410 is formed by cutting the second blade main body portion 410 into four quadrants, and zipper parts are formed on each joint surface.

The first quadrant of the second blade body 410 is the k5 portion of FIG. 6 (b), the second quadrant is the k6 portion of FIG. 6 (b), the third quadrant is the k7 portion of FIG. The quadrant is the k8 portion of Fig. 6(b).

Of course, the first blade main body 210 and the second blade main body 410 may be formed not in a quadrant but in a biquadrant or a triquadron depending on the case.

One side of the fifth zipper unit 420 is located on one side of the first quadrant k5 adjacent to the second quadrant k6 of the second blade body 410, and the other side is located adjacent to the first quadrant k5. It is located on one side of the second quadrant k6.

The fifth zipper portion 420 includes a fifth zipper tooth portion 421 and a fifth zipper ring portion 422, and the fifth zipper tooth portion 421 has a predetermined length and is formed by interlocking teeth. And the fifth zipper hook portion 422 is located at the lower end of the fifth zipper tooth portion 421, but is formed with a hole of a predetermined size.

One side of the sixth zipper unit 430 is located on one side of the first quadrant k5 adjacent to the fourth quadrant k8 of the second blade body 410, and the other side is located adjacent to the first quadrant k5. It is located on one side of the fourth quadrant (k8).

The sixth zipper portion 430 includes a sixth zipper tooth portion 431 and a sixth zipper ring portion 432, and the sixth zipper tooth portion 431 has a predetermined length and is formed by interlocking teeth. And the sixth zipper ring portion 432 is located at the lower end of the sixth zipper tooth portion 431, but is formed with a hole of a predetermined size.

One side of the seventh zipper unit 440 is located on one side of the second quadrant k6 adjacent to the third quadrant k7 of the second blade body 410, and the other side is located adjacent to the second quadrant k6. It is located on one side of the third quadrant k7.

The seventh zipper portion 440 includes a seventh zipper tooth portion 441 and a seventh zipper ring portion 442, and the seventh zipper tooth portion 441 has a predetermined length and is formed by interlocking teeth. The seventh zipper hook portion 442 is located at the lower end of the seventh zipper tooth portion 441 and is formed with a hole of a predetermined size.

The eighth zipper part 450 has one side located on one side of the third quadrant k7 adjacent to the fourth quadrant k8 of the second blade body 410, and the other side adjacent to the third quadrant k7. It is located on one side of the fourth quadrant (k8).

The eighth zipper portion 450 includes an eighth zipper tooth portion 451 and an eighth zipper ring portion 452, and the eighth zipper tooth portion 451 has a predetermined length and is formed by interlocking teeth. And the eighth zipper ring portion 452 is located at the lower end of the eighth zipper teeth portion 451, but is formed with a hole of a predetermined size.

In addition, instead of the fifth zipper part 420, the sixth zipper part 430, the seventh zipper part 440, and the eighth zipper part 450, an adhesive tape 800 is attached as shown in FIG. Of course, it may be formed in place of a configuration such as an adhesive portion that is opened when pressure is applied, and the present invention describes a zipper portion as a representative form.

The second reinforcement part 460 is located on one side of the second blade main body 410 adjacent to the part where the first support 130 is located, but is formed long along the longitudinal direction of the first support 130. It is formed with a predetermined thickness. The second reinforcing part 460 may be formed of a thick member of a fabric material, but is not limited to this material.

The second frame fastening ring portion 470 is formed in a ring shape formed at predetermined intervals in the second reinforcing portion 460 . The second frame fastening hook part 470 is fastened to the first hook part 131 of the first support 130 so as to fix the end of the second blade body part 400.

The second connecting ring joint 500 includes the fifth zipper ring 422 of the fifth zipper 420, the sixth zipper 432 of the sixth zipper 430, and the seventh zipper 440. It is formed to pass through the seventh zipper ring portion 442 and the eighth zipper ring portion 452 of the eighth zipper portion 450, respectively, but formed in a ring shape of a predetermined size.

That is, in a state where the fifth zipper ring portion 422, the sixth zipper ring portion 432, the seventh zipper ring portion 442, and the eighth zipper ring portion 452 are located close to each other, the second connecting ring joint 500 are connected in a bundle by

7 is a view showing a state in which wind is released and rotated in a wind turbine capable of preventing overspeed rotation of the present invention.

Referring to FIG. 7 (a), the wind blowing from the outside in the S1 direction flows into the second blade body 400 in the S2 direction to push and rotate the blade.

As shown in FIG. 7 (b), it can be seen that the blade of the present invention is rotated in the direction S5 by the wind introduced into S3 in a simplified view of the blade of the present invention viewed from above.

8 shows a state in which the zipper parts of the first blade body 200 and the second blade body 400 are opened when the wind blows strongly, and when the wind blows at a speed exceeding a certain value, the zipper parts It opens and the blade stops.

9 is a view showing a process of opening each zipper part of the second blade body 400 .

9( a ) shows the fifth zipper hook part 422 of the fifth zipper part 420 and the sixth zipper hook part 432 of the sixth zipper part 430 by the second connecting ring joint 500 and It is a view showing a state in which the seventh zipper hook part 442 of the seventh zipper part 440 and the eighth zipper hook part 452 of the eighth zipper part 450 are tied at once.

9(b) is a view showing a state in which one side of the second link joint 500 is broken when the wind blows at a speed higher than a certain value.

FIG. 9(c) is a view showing a state in which the zipper parts are opened in directions S5, S6, S7, and S8 when a strong wind continuously blows in a state where one side of the second link joint 500 is broken.

The embodiments described in this specification and the configurations shown in the drawings as described above are merely the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, so various equivalents and modifications that can replace them It should be understood that there may be examples.

100 blade frame
110 corrugated support
111 first blade body fastening part
112 second blade body fastening part
120 Shaft
130 first support
140 second support
200 first blade body
210 first blade main body
220 first zipper part
221 first zipper teeth
222 first zipper hook
230 second zipper part
231 second zipper teeth
232 second zipper hook
240 third zipper part
241 third zipper teeth
242 third zipper hook
250 fourth zipper part
251 4th zipper teeth
252 fourth zipper hook
260 first reinforcement part
270 first frame fastening ring
300 first linkage joint
400 second blade body
410 second blade main body
420 fifth zipper
421 5th zipper teeth
422 fifth zipper hook
430 sixth zipper
431 sixth zipper tooth
432 sixth zipper hook
440 seventh zipper
441 7th zipper teeth
442 7th zipper hook
450 8th zipper part
451 8th zipper teeth
452 8th zipper hook
460 second reinforcement part
470 second frame fastening ring
500 second linkage joint
600 outer frame
800 adhesive tape

Claims (5)

A blade frame 100 to which the first blade body portion 200 is coupled to one side and the second blade body portion 400 coupled to the other side;
A first blade body portion 200 formed to be wrapped around the convex portion of the first blade body fastening portion 111 of the wavy support portion 110 of the blade frame 100;
It is configured to include a second blade body portion 400 formed to be wrapped around the convex portion of the second blade body fastening portion 112 of the wavy support portion 110,

The blade frame 100 is
The first blade body fastening part 111 extending in one direction based on the center but having one side concave and extending in the other direction based on the center but located in the opposite direction to the first blade main fastening part 111 is A wavy support portion 110 formed with a second blade body fastening portion 112 formed to be concave;
It is formed in a rod shape of a predetermined length and includes a shaft portion 120 fastened through the center of the corrugated support portion 110 arranged in a row,

The first blade body portion 200 is
Including a first blade body body portion 210 formed by cutting a square shape of a predetermined size into a quadrant,
A detachable adhesive portion is formed on each quadrant of the first blade body 210,
The second blade body portion 400 is
A second blade main body portion 410 formed by cutting a quadrangular shape of a predetermined size into a quadrant;
A wind turbine capable of preventing overspeed rotation, characterized in that a detachable adhesive portion is formed on each side of the cut portion in the quadrant of the second blade main body portion 410. A blade frame 100 to which the first blade body portion 200 is coupled to one side and the second blade body portion 400 coupled to the other side;
A first blade body portion 200 formed to be wrapped around the convex portion of the first blade body fastening portion 111 of the wavy support portion 110 of the blade frame 100;
It is configured to include a second blade body portion 400 formed to be wrapped around the convex portion of the second blade body fastening portion 112 of the wavy support portion 110,

The blade frame 100 is
The first blade body fastening part 111 extending in one direction based on the center but having one side concave and extending in the other direction based on the center but located in the opposite direction to the first blade main fastening part 111 is A wavy support portion 110 formed with a second blade body fastening portion 112 formed to be concave;
A shaft portion 120 formed in a rod shape of a predetermined length and fastened through the center of the corrugated support portion 110 arranged in a row;
A first support 130 formed in a rod shape of a predetermined length and fastened through one end of the corrugated support 110 arranged in a row;
It is formed in a rod shape of a predetermined length and includes a second support 140 fastened through the other end of the corrugated support 110 arranged in a row,

The first blade body portion 200 is
A first blade main body portion 210 formed by cutting a quadrangular shape of a predetermined size into a quadrant;
One side is located on one side of the first quadrant k1 of the first blade body 210 adjacent to the second quadrant k2 of the first blade body 210, and the other side is the first blade body 210 A first zipper portion 220 located on one side of the second quadrant (k2) of the first blade body portion 210 adjacent to the first quadrant (k1) of,
One side is located on one side of the first quadrant k1 of the first blade body 210 adjacent to the fourth quadrant k4 of the first blade body 210, and the other side is the first blade body 210 A second zipper portion 230 located on one side of the fourth quadrant (k4) of the first blade body portion 210 adjacent to the first quadrant (k1) of,
One side is located on one side of the second quadrant k2 of the first blade body 210 adjacent to the third quadrant k3 of the first blade body 210, and the other side is the first blade body 210 A third zipper portion 240 located on one side of the third quadrant (k3) of the first blade body portion 210 adjacent to the second quadrant (k2) of,
One side is located on one side of the third quadrant (k3) of the first blade body portion 210 adjacent to the fourth quadrant (k4) of the first blade body portion 210, and the other side is the first blade body portion 210 Including a fourth zipper portion 250 located on one side of the fourth quadrant (k4) of the first blade body portion 210 adjacent to the third quadrant (k3) of,

The second blade body portion 400 is
A second blade main body portion 410 formed by cutting a quadrangular shape of a predetermined size into a quadrant;
One side is located on one side of the first quadrant k5 of the second blade body 410 adjacent to the second quadrant k6 of the second blade body 410, and the other side is the second blade body 410 A fifth zipper portion 420 located on one side of the second quadrant k6 of the second blade body portion 410 adjacent to the first quadrant k5 of the;
One side is located on one side of the first quadrant k5 of the second blade body 410 adjacent to the fourth quadrant k8 of the second blade body 410, and the other side is located adjacent to the first quadrant k5. A sixth zipper unit 430 located on one side of the fourth quadrant k8 of
One side is located on one side of the second quadrant (k6) adjacent to the third quadrant (k7) of the second blade body 410, and the other side is located on one side of the third quadrant (k7) adjacent to the second quadrant (k6). A seventh zipper portion 440 located on the
One side is located on one side of the third quadrant (k7) adjacent to the fourth quadrant (k8) of the second blade body 410, and the other side is located on one side of the fourth quadrant (k8) adjacent to the third quadrant (k7). A wind turbine capable of preventing overspeed rotation, characterized in that it comprises an eighth zipper portion 450 located at. According to claim 2,
The first zipper portion 220 is
A first zipper tooth portion 221 having a predetermined length and formed by meshing teeth;
It includes a first zipper hook part 222 located at the lower end of the first zipper tooth part 221 and formed with a hole of a predetermined size,
The second zipper part 230 is
A second zipper tooth portion 231 having a predetermined length and formed by meshing teeth;
It includes a second zipper hook part 232 located at the lower end of the second zipper tooth part 231 and formed with a hole of a predetermined size,

The third zipper portion 240 is
A third zipper tooth portion 241 having a predetermined length and formed by meshing teeth;
It includes a third zipper hook part 242 located at the lower end of the third zipper tooth part 241 and formed with a hole of a predetermined size,

The fourth zipper part 250 is
A fourth zipper tooth portion 251 having a predetermined length and formed by meshing teeth;
It includes a fourth zipper hook part 252 located at the lower end of the fourth zipper tooth part 251 and formed with a hole of a predetermined size,

The fifth zipper part 420 is
A fifth zipper tooth portion 421 having a predetermined length and formed by meshing teeth;
It includes a fifth zipper hook part 422 located at the lower end of the fifth zipper tooth part 421 and formed with a hole of a predetermined size,

The sixth zipper part 430 is
A sixth zipper tooth portion 431 having a predetermined length and formed by meshing teeth;
It includes a sixth zipper hook portion 432 located at the lower end of the sixth zipper tooth portion 431 and formed with a hole of a predetermined size,

The seventh zipper part 440 is
A seventh zipper tooth portion 441 having a predetermined length and formed by meshing teeth;
It includes a seventh zipper hook part 442 located at the lower end of the seventh zipper tooth part 441 and formed with a hole of a predetermined size,

The eighth zipper part 450 is
An eighth zipper tooth portion 451 having a predetermined length and formed by meshing teeth;
Positioned at the lower end of the eighth zipper tooth portion 451, the wind power generator capable of preventing overspeed rotation, characterized in that it comprises an eighth zipper ring portion 452 formed with a hole of a predetermined size. According to claim 3,
The first zipper hook part 222 of the first zipper part 220, the second zipper hook part 232 of the second zipper part 230, and the third zipper hook part 242 of the third zipper part 240 And a first linkage joint 300 formed in a ring shape having a predetermined size and passing through the fourth zipper ring portion 252 of the fourth zipper portion 250, respectively;
The fifth zipper hook part 422 of the fifth zipper part 420, the sixth zipper hook part 432 of the sixth zipper part 430, and the seventh zipper hook part 442 of the seventh zipper part 440 and a second connecting ring joint 500 formed in a ring shape of a predetermined size and passing through the eighth zipper ring portion 452 of the eighth zipper portion 450, respectively. available wind generators. According to claim 4,
The first support 130 is
It includes a predetermined number of first hook parts 131 formed at predetermined intervals,
The second support 140 is
It includes a predetermined number of second hooks 141 formed at predetermined intervals,

The first blade body portion 200 is
A first reinforcing part located on one side of the first blade body 210 adjacent to the part where the second support 140 is located but formed long along the longitudinal direction of the second support but having a predetermined thickness ( 260) and,
It is formed in a ring shape formed at predetermined intervals on the first reinforcement part 260 and includes a first frame fastening ring part 270 formed to be fastened to the second hook part 141 of the second support 140, ,

The second blade body portion 400 is
Positioned on one side of the second blade main body 410 adjacent to the portion where the first support 130 is located, but formed long along the longitudinal direction of the first support 130, the second formed to have a predetermined thickness. With the reinforcement part 460,
It is formed in a ring shape formed at predetermined intervals in the second reinforcement part 460 and includes a second frame fastening ring part 470 formed to be fastened to the first hook part 131 of the first support 130 A wind turbine capable of preventing overspeed rotation, characterized in that.

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