KR101029100B1 - Movable type aerogenerator - Google Patents

Abstract

The present invention relates to a mobile wind power generator, the power generation unit for converting into electrical energy using a rotating power; A vertical rotation shaft installed in the vertical direction and connected to the power generation unit at the lower end thereof, and transmitting rotational power to the power generation unit; It is installed on both sides of the upper part of the vertical axis in the vertical direction and is rotated in the horizontal direction about the vertical axis of rotation. The wing body is hollow inside, the wing cover coupled to the upper and lower ends of the wing body, and the wing body and the wing cover. A pair of rotary wings consisting of fastening bolts to be fastened; A center portion coupled to the vertical rotation shaft and both sides coupled to the wing body of the rotary blade to support the rotation blade to the vertical rotation shaft; The center portion is fixed to the upper end of the vertical axis of rotation and both ends are fixed to the wing cover consists of a reinforcement frame supporting the upper portion of the rotary blade.

Therefore, even if the wind is not strong, the rotor blades are rotated by the lift force, and due to the characteristics of the streamlined shape during the rotation, almost no resistance to the flow of air is generated, no noise is generated, and the rotor blades rotate in the horizontal direction, so the wind direction is It rotates even if it is changed, and the installation state of the rotary blade is relatively solid.

Power Generation Unit, Vertical Rotating Shaft, Rotating Blade, Streamline, Clamp, Turnbuckle, Reinforcement Frame

Description

Portable wind generators {Movable type aerogenerator}

The present invention relates to a mobile wind power generator, and more particularly, to a mobile wind power generator that rotates even when the wind is low and low noise during operation, even if the direction of the wind changes.

At present, there is an active movement to use clean and clean energy with development of alternative energy due to exhaustion of chemical energy. It is a time when development of alternative energy is absolutely necessary as a countermeasure against exhaustion. Among the alternatives using nature are solar, tidal, geothermal and wind power.

Among them, a wind generator for wind power generation includes a fuselage rotatably installed on an installation object, a propeller rotatably installed at the tip of the fuselage, and a generator for converting rotational force of the propeller into electrical energy.

The propeller of such a wind generator has a direction to the wind. That is, the wind is rotated only when blowing in a constant direction, and if the direction of the wind is not properly rotated or stopped to reduce the amount of power generated.

In addition, the conventional wind power generator is installed horizontally the axis of rotation of the propeller is rotated in a clockwise or counterclockwise direction, it is usually not operated sensitive to the wind. Therefore, the efficiency is reduced in places where there is not a lot of windy days, such as Korea, and the amount of power generated by wind power generation is very small, compared to expensive installation costs, and is limited to only the highlands of the Gangwon-do or some coastal and island regions.

When the propeller shaft is installed horizontally, a relatively large propeller is rotated while falling from the upper part to the lower part of the rotating shaft. Thus, whenever the propeller passes the lower part of the rotating shaft, intermittent loud noise is continuously maintained. Is caused by.

Another problem with these wind turbines is their frequent failure. Since the long and heavy propellers are supported on a part of the rotating shaft installed in the horizontal direction, the coupling structure is relatively weak, and thus frequent failure occurs, and a lot of time and expense are required for maintenance.

An object of the present invention for solving the above problems is to provide a mobile wind power generator having a relatively low noise generation during operation, even in a weak wind and rotating even when the wind direction is changed, as well as a coupling structure of the rotary blades.

Mobile wind power generator of the present invention for achieving the above object, the power generation unit for converting into electrical energy using a rotating power; A vertical rotation shaft installed in the vertical direction and connected to the power generation unit at the lower end thereof, and transmitting rotational power to the power generation unit; It is installed on both sides of the upper part of the vertical axis in the vertical direction and is rotated in the horizontal direction about the vertical axis of rotation. The wing body is hollow inside, the wing cover coupled to the upper and lower ends of the wing body, and the wing body and the wing cover. A pair of rotary wings consisting of fastening bolts to be fastened; A center portion coupled to the vertical rotation shaft and both sides coupled to the wing body of the rotary blade to support the rotation blade to the vertical rotation shaft; The central portion is fixed to the upper end of the vertical axis of rotation and both ends are fixed to the wing cover to support the upper portion of the rotary blade; characterized in that consisting of.

Mobile wind power generator of the present invention for achieving the same object described above, the power generation unit for converting into electrical energy using a rotating power; A vertical rotation shaft installed in the vertical direction and connected to the power generation unit at the lower end thereof, and transmitting rotational power to the power generation unit; Rotating blade is installed in the vertical direction on the upper both sides of the vertical axis of rotation to rotate in the horizontal direction about the vertical axis of rotation; A center portion coupled to the vertical rotation shaft and both sides coupled to the rotation blades to support the rotation blades on the vertical rotation shaft; A fastening nut which is fastened to the male screw part of the upper part of the vertical rotating shaft to fix the clamp to the vertical rotating shaft; The central portion is fixed to the upper end of the vertical axis of rotation and both ends are fixed to the wing cover to support the upper portion of the rotary blade; characterized in that consisting of.

Mobile wind power generator of the present invention for achieving the same object described above, the power generation unit for converting into electrical energy using a rotating power; A vertical rotation shaft installed in the vertical direction and connected to the power generation unit at the lower end thereof, and transmitting rotational power to the power generation unit; It is installed on both sides of the upper part of the vertical rotation shaft in the vertical direction and rotates in the horizontal direction about the vertical rotation shaft and has a hollow wing body, a wing cover coupled to the upper and lower ends of the wing body, and fastened to the wing body and the wing cover. A pair of rotating blades consisting of fastening bolts; The coupling boss is inserted and fixed to the periphery of the vertical rotation shaft, and fixed to the upper and lower ends of the coupling boss and both ends are fixed to the wing body of the rotary blade to support the rotary blade to the vertical rotary shaft and formed a plurality of weight reducing holes Characterized in that consisting of; wing support portion consisting of a pair of fixing plates.

According to another aspect of the present invention, a clamp includes a first coupling ring coupled to an upper portion of a vertical rotation shaft and rotated together with a first arm, a first arm extending integrally with the first coupling ring, and an end portion of the first arm. A first clamp comprising a first hook formed in the support body and supported on one side of the wing body, a second coupling ring coupled to an upper portion of the vertical rotational shaft and rotated together with the second arm and integrally extending to the second coupling ring And a second clamp comprising a second hook formed at an end of the second arm and supported on the other side of the wing body, and coupled to the first arm and the second arm so as to pull the first arm and the second arm into the corresponding inner side. It consists of 2; turnbuckle to support both sides of the wing body.

Another feature of the mobile wind turbine of the present invention, the rotary blade, when viewed horizontally in its horizontal cross-section, the inner surface is in the shape of an arc around the vertical axis of rotation, the outer surface of the rotary wing is lifted outward It is streamlined to be generated.

The present invention as described above, the rotary blade is installed so as to rotate in a horizontal direction about a vertical rotation axis is installed vertically, the flat cross-sectional shape of the rotary blade is made of a streamlined. Therefore, even though the wind is not strong, the rotor blades are easily rotated because lift is generated, and due to the nature of the streamline during rotation, almost no resistance to the flow of air is generated, so noise is not generated. In addition, the rotating blade is rotated in the horizontal direction, so the wind is rotated even if the direction is changed, so it is suitable for the Korean terrain where the wind direction changes frequently.

This rotary blade is installed long along the longitudinal direction of the vertical axis of rotation. Therefore, the whole from the top to the bottom of the rotary blade is opposed to the vertical axis of rotation, and thus the coupling portion of the vertical axis and the rotary blade need not be limited to one part. In the present invention, since the middle portion of the rotary blade is fixed to the vertical rotation shaft by the clamp and the upper portion of the rotary blade is fixed to the vertical rotation shaft by the reinforcing frame, the installation state of the rotary blade is relatively firm. Therefore, even if the direction of the wind changes from time to time, the rotor blades are stably supported without being twisted around the vertical axis of rotation, and the shaking of the top of the rotor blades during rotation is prevented.

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

Figure 1 is a schematic exploded perspective view showing an embodiment of a mobile wind power generator of the present invention, Figure 2 is a perspective view of the combination of Figure 1, which is a power generation unit 10, vertical axis of rotation 30, rotary blades 40 , Made of a reinforcing frame (60).

The power generation unit 10 performs a role of converting into electrical energy by using rotational power.

The vertical rotation shaft 30 is installed in the vertical direction long and the lower end is connected to the power generation unit 10 and transmits rotational power to the power generation unit 10. The support 20 is installed around the vertical rotation shaft 30 so as to support it. A bearing (not shown) may be installed between the support 20 and the vertical rotation shaft 30 to support the rotation of the vertical rotation shaft 30.

Rotating blades 40, the wing body 41, the wing cover 43, made of a fastening bolt (44). The wing body 41 is installed on both upper sides of the vertical rotation shaft 30 in the vertical direction and is rotated in the horizontal direction about the vertical rotation shaft 30 and penetrates the inside thereof. Since the wing body 41 is made of a hollow, it is easy to manufacture and the total weight of the rotary wing 40 is greatly reduced and the manufacturing cost is reduced. The wing cover 43 is coupled to the upper and lower ends of the wing body 41 to close both ends of the wing body 41. The fastening bolts 44 are fastened to the wing cover 43 and the wing body 41 to couple them to each other.

Here, when the wing body 41 of the rotary blade 40 has its horizontal cross section in plan view, the inner surface 41a of the wing body 41 forms an arc shape centering on the vertical rotation shaft 30, and the wing body. The outer surface 41b of the 41 has a streamlined shape so that lifting force is generated to the outside of the rotary blade 40.

Therefore, when the wind blows on the rotary blade 40, the wind flows to the inner surface (41a) and the outer surface (41b) of the rotary blade, the lifting force is generated on the outer surface having a streamlined. The rotary blade 40 has almost no resistance to the flow of air due to the streamlined nature. Therefore, no noise is generated during rotation.

Clamp 50, the central portion is coupled to the vertical rotation shaft 30 and both sides are coupled to the wing body 41 of the rotary blade 40 to support the rotary blade 40 to the vertical rotation shaft (30). The clamp 50 includes a first clamp 51, a second clamp 55, and a turnbuckle 59.

The first clamp 51 is coupled to the upper portion of the vertical rotation shaft 30, the first coupling ring 52 is rotated with it, and the first arm 53 integrally extending to the first coupling ring 52. And a first hook 54 formed at an end of the first arm 53 and supported on one side of the wing body 41.

The second clamp 55 is coupled to the upper portion of the vertical rotation shaft 30, the second coupling ring 56 is rotated with it, and the second arm 57 integrally extending to the second coupling ring 56. And a second hook 58 formed at an end of the second arm 57 and supported on the other side of the wing body 41. The first coupling ring 52 and the second coupling ring 56 are fixed to the vertical rotation shaft 30 by bolts 45.

The turnbuckle 59 is coupled to them so that the first arm 53 and the second arm 57 can be pulled inward, and the first hook 54 and the second hook 58 are formed of the wing body 41. Support both sides. Accordingly, the first coupling ring 52 and the second coupling ring 56 are coupled to the vertical rotation shaft 30, and the rotating blade 40 is engaged with the first hook 54 and the second hook to tighten the turnbuckle 59. The first hook 54 and the second hook 58 are in close contact with both sides of the rotary blade 40.

Reinforcement frame 60, the overall shape is formed in a V-shape, the center portion is fixed to the upper end of the vertical rotation shaft 30 by a fixing bolt 61, both ends of the other fixing bolt 62 to the wing cover 43 It is fixed with) to support the upper portion of the rotary blade 40 to the vertical rotation shaft (30).

The mobile wind generator of the present invention, the rotary blade 40 is installed so as to rotate in a horizontal direction about the vertical rotary shaft 30 is installed vertically, the flat cross-sectional shape of the rotary blade 40 is made of a streamlined.

Therefore, even if the wind is not strong, the rotor blades 40 are easily rotated because lift is generated, and the resistance to the flow of air is hardly generated due to the streamlined characteristics during rotation, and thus no noise is generated.

In addition, since the rotary blade 40 is rotated in a horizontal direction, the wind is rotated even if the direction is changed, and thus the wind direction is often suitable for Korean terrain changes.

The rotary blade 40 is installed long along the longitudinal direction of the vertical axis of rotation (30). Therefore, the whole from the top to the bottom of the rotary blade 40 is opposed to the vertical rotary shaft 30, and thus the coupling portion of the vertical rotary shaft 30 and the rotary blade 40 need not be limited to one part.

In the present invention, the middle portion of the rotary blade 40 by the clamp 50 is fixed to the vertical axis of rotation 30 and the upper portion of the rotary blade 40 is fixed to the vertical axis of rotation 30 by the reinforcement frame 60 to rotate The installation state of the blade 40 is relatively solid.

Therefore, even if the direction of the wind changes from time to time, the rotary blade 40 is stably supported without being twisted about the vertical axis of rotation 30, and the rotation of the rotary blade 40 is prevented during rotation.

Figure 3 is a schematic exploded perspective view showing another embodiment of the mobile wind generator of the present invention, Figure 4 is a perspective view of the combination of Figure 3, which is a power generation unit 10, vertical axis of rotation 30, the rotor blades 40, The clamp 50, the fixing nut 63, the reinforcing frame 60, the rotary blade 40 is integrated, the fixing nut 63 is further fixed to fix the clamp 50 to the vertical axis of rotation 30 It is characterized by the provided points.

The power generation unit 10 converts the electrical power into electrical energy using the rotational power.

The vertical axis of rotation 30 is installed in the vertical direction long in the support 20, the lower end is connected to the power generation unit 10 and transmits the rotational power to the power generation unit (10).

Rotating blade 40 is installed in the vertical direction on both sides of the upper vertical axis of rotation (30) is rotated in the horizontal direction about the vertical axis of rotation (30). The rotary blade 40 is formed integrally with the whole. When the rotary blade 40 has its horizontal cross section in plan view, its inner surface 41a forms an arc shape around the vertical rotation shaft 30, and the outer surface 41b of the rotary blade 40 It is streamlined so that lift is generated to the outside.

The clamp 50 has a center portion coupled to the vertical rotation shaft 30 and both sides coupled to the rotation blade 40 to support the rotation blade 40 to the vertical rotation shaft 30. The clamp 50 includes a first clamp 51, a second clamp 55, and a turnbuckle 59. The first clamp 51 is coupled to the upper portion of the vertical rotation shaft 30, the first coupling ring 52 is rotated with it, and the first arm 53 integrally extending to the first coupling ring 52. And a first hook 54 formed at an end of the first arm 53 and supported on one side of the wing body 41. The second clamp 55 is coupled to the upper portion of the vertical rotation shaft 30, the second coupling ring 56 is rotated with it, and the second arm 57 integrally extending to the second coupling ring 56. And a second hook 58 formed at an end of the second arm 57 and supported on the other side of the wing body 41. The turnbuckle 59 is coupled to them so that the first arm 53 and the second arm 57 can be pulled inward, and the first hook 54 and the second hook 58 are formed of the wing body 41. Support both sides.

The fixing nut 63 is fastened to the male screw portion 31 above the vertical rotation shaft 30 to fix the clamp 50 to the vertical rotation shaft 30.

Reinforcement frame 60, the center portion is fixed to the upper end of the vertical rotation shaft 30 and both ends are fixed to the wing cover 43 to support the upper portion of the rotary blade (40).

Wind turbine of the present invention, the rotary blade 40 is formed integrally. Therefore, the total number of parts is reduced, thereby reducing the assembly labor and assembly time.

In addition, fixing the clamp 50 to the vertical rotation shaft 30 is very simple and quick. When the first coupling ring 52 and the second coupling ring 56 of the clamp 50 are inserted into the vertical rotation shaft 30 and the fixing nut 63 is fastened to the male screw portion 31 of the vertical rotation shaft 30, the clamp 50 is fixed to the vertical axis of rotation 30. Therefore, since the clamp 50 is fixed to the vertical rotation shaft 30 by a simple operation of fastening the fixing nut 63 to the vertical rotation shaft 30, the entire assembly fixing becomes as simple as that.

Figure 5 is a schematic perspective view showing another embodiment of the present invention, Figure 6 is a perspective view of the combination of Figure 5, which is a power generation unit 10, vertical axis of rotation 30, rotary blades 40, wing support 70 ), The rotary blade 40 is characterized in that it is firmly supported on the vertical rotation shaft (30).

The power generation unit 10 converts the electrical power into electrical energy using the rotational power.

Vertical rotation shaft 30 is installed in the vertical direction in the interior of the support 20, the lower end is connected to the power generation unit 10 and transmits the rotational power to the power generation unit (10).

Rotating blade 40 is installed in the vertical direction on both sides of the vertical rotation shaft 30 in the vertical direction is rotated in the horizontal direction around the vertical rotation shaft 30 and the hollow wing body 41 and the wing body 41 Wing cover 43 is coupled to the top and bottom of the, consisting of a fastening bolt 44 is fastened to the wing body 41 and the wing cover 43. When the horizontal blade is viewed in plan view, the rotary blade 40 has an inner surface 41a having an arc shape around the vertical rotation axis 30, and the outer surface 41b of the rotary blade 40 is rotated. It is streamlined so that lifting force is generated to the outside.

The wing support part 70 is composed of a coupling boss 71 and a fixed plate 73. Coupling boss 71 is inserted into the circumference of the vertical rotation shaft 30 is fixed to the fixing bolt 72. The fixing plate 73 is fixed to the upper and lower ends of the coupling boss 71 and both ends are fixed to the wing body 41 of the rotary blade 40 to support the rotary blade 40 to the vertical rotation shaft (30). A plurality of weight reducing holes 73a are formed in the fixed plates 73 to reduce the overall weight.

The mobile wind generator of the present invention, the upper and lower parts of the rotary blade 40 by the wing support 70 is firmly supported on the vertical rotation shaft (30). Therefore, even if the direction of the wind changes from time to time, the rotary blade 40 is stably supported without being twisted about the vertical rotation shaft 30, and the rotation of the rotary blade 40 is prevented during rotation.

In addition, a plurality of weight reducing holes 73a are formed in the wing support part 70. Therefore, the weight of the wing support 70 is reduced by the weight reducing holes 73a, and thus, the transfer and assembly of the portable wind turbine is easy.

1 is a schematic exploded perspective view showing an embodiment of a mobile wind power generator of the present invention

2 is a perspective view of the combination of FIG.

Figure 3 is a schematic exploded perspective view showing another embodiment of the mobile wind turbine of the present invention

4 is a perspective view of the combination of FIG.

Figure 5 is a schematic perspective view showing another embodiment of the present invention

6 is a perspective view of the combination of FIG.

* Description of the symbols for the main parts of the drawings *

10: power generation unit 20: prop

30: vertical axis of rotation 40: rotary blade

41: wing body 41a: inner surface

41b: outer side 43: wing cover

44: fastening bolt 45: bolt

50: clamp 51: first clamp

52: first coupling ring 53: first arm

54: first hook 55: second clamp

56: second coupling ring 57: second arm

58: second hook 59: turnbuckle

60: reinforcement frame 61,62,72: fixing bolt

63: fixing nut 70: wing support

71: coupling boss 73: fixed plate

73a: weight reduction hole

Claims (5)

Power generation unit 10 for converting into electrical energy using a rotating power; A vertical rotary shaft 30 installed in the vertical direction and having a lower end connected to the power generation unit 10 and transmitting rotational power to the power generation unit 10; It is installed on both sides of the upper part of the vertical rotation shaft 30 in the vertical direction and is rotated in the horizontal direction about the vertical rotation shaft 30 and is hollow inside, and the upper and lower ends of the wing body 41, respectively. A pair of rotary blades (40) consisting of a wing cover (43) to be coupled and a fastening bolt (44) fastened to the wing body (41) and the wing cover (43); A central portion coupled to the vertical rotary shaft 30 and both sides coupled to the wing body 41 of the rotary blade 40 to support the rotary blade 40 on the vertical rotary shaft 30; The center portion is fixed to the upper end of the vertical axis of rotation (30) and both ends are fixed to the wing cover (43) reinforcement frame (60) for supporting the upper portion of the rotary blade (40). Power generation unit 10 for converting into electrical energy using a rotating power; A vertical rotary shaft 30 installed in the vertical direction and having a lower end connected to the power generation unit 10 and transmitting rotational power to the power generation unit 10; Rotating blades 40 are installed on both sides of the upper portion of the vertical rotation shaft 30 in the vertical direction and rotate in the horizontal direction about the vertical rotation shaft 30; A central portion coupled to the vertical rotation shaft 30 and both sides coupled to the rotation blade 40 to support the rotation blades on the vertical rotation shaft 30; A fixing nut 63 which is fastened to the male screw part 31 above the vertical rotation shaft 30 to fix the clamp 50 to the vertical rotation shaft 30; The center portion is fixed to the upper end of the vertical axis of rotation (30) and both ends are fixed to the wing cover (43) reinforcement frame (60) for supporting the upper portion of the rotary blade (40). Power generation unit 10 for converting into electrical energy using a rotating power; A vertical rotary shaft 30 installed in the vertical direction and having a lower end connected to the power generation unit 10 and transmitting rotational power to the power generation unit 10; It is installed on both sides of the upper part of the vertical rotation shaft 30 in the vertical direction and rotates in the horizontal direction about the vertical rotation shaft 30 and is coupled to the wing body 41 which is hollow inside, and the upper and lower ends of the wing body 41. A pair of rotary blades 40 comprising a wing cover 43 and a fastening bolt 44 fastened to the wing body 41 and the wing cover 43; Coupling boss 71 is inserted and fixed around the vertical rotation shaft 30, and fixed to the top and bottom of the coupling boss 71 and both ends are fixed to the wing body 41 of the rotary blade 40, respectively, rotary blade And a wing support part (70) made of a pair of fixing plates (73) having a plurality of weight reducing holes (73a) formed thereon to support the vertical rotation shaft (30). The clamp 50 according to claim 1 or 2, The first coupling ring 52 coupled to the upper portion of the vertical rotation shaft 30 and rotated therewith, the first arm 53 integrally extending to the first coupling ring 52, and the first arm 53. A first clamp 51 formed at an end of the first clamp 54, the first hook 54 being supported at one side of the wing body 41; The second coupling ring 56 coupled to the upper portion of the vertical rotation shaft 30 and rotated therewith, the second arm 57 integrally extending to the second coupling ring 56, and the second arm 57. A second clamp (55) formed at an end of the second hook (58) and supported on the other side of the wing body (41); Turnbuckle coupled to the first arm 53 and the second arm 57 so as to pull inwardly thereof, such that the first hook 54 and the second hook 58 support both sides of the wing body 41. (59); The mobile wind generator, characterized in that consisting of. The rotating blade 40 according to any one of claims 1 to 3, When the horizontal cross section is viewed in a plan view, the inner surface 41a forms an arc shape around the vertical rotation shaft 30, and the outer surface 41b is streamlined so that lift is generated outward of the rotary blade 40. Mobile wind turbine, characterized in that consisting of.

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