KR100715938B1 - Wind direction of air compressor & wind a dust chamber a system for wind power generator - Google Patents

Abstract

The present invention is configured to maximize the rotational force by engaging the amplification gear and the small gear formed in the wind direction compression rotating device has a rotational force by the wind direction dust collecting device in a low wind direction, and is configured to be coupled to the small gear The present invention relates to a wind turbine in a vertical axis form and configured to produce electrical energy by transmitting rotational force to a generator, and a wind turbine for power generation.

An object of the present invention is to configure the wind collecting device on the outside of the wind direction compression rotary apparatus even at low wind speed while maximizing the wind direction while reducing the resistance of the wind hitting the back of the wing of the wind direction compression rotary apparatus while blowing the wind direction outside the wind direction compression rotary apparatus To maximize the rotational force of the wind direction compression rotating device by concentrating the wind direction only to the front of the wing of the wind direction compression rotating device, and by mounting a wing feather formed to form a plurality of radially backwards in the wind direction compression rotating device, When the wind enters the large inlet of the wind vane compressor and is compressed into the vane of the angled vane, the wind speed changes to a high wind speed and accelerates the rotation of the wind vane. Combination configuration of the amplification gear, can maximize the rotational force of the amplification gear The present invention relates to a wind gearbox using a wind gear, characterized in that it is configured to be engaged with a small gear in the form of a lock gear and connected to a generator capable of producing electrical energy using the rotational force of the small gear.

The configuration of the present invention for achieving the above object,

A radially formed tab in the central axis of the wind direction compression rotating device rotates by the wind direction, a plurality of holes are formed and the bearing is equipped with a cover is inserted, and the cover has a plurality of holes at the top, middle and bottom Combining the amplification cover is formed, the amplification covering is configured to combine a plurality of supports at the top and middle and the bottom, and the amplification gear consisting of a plurality of cog wheels in the lower portion of the intermediate support, the top and middle And an outer housing including a plurality of housings coupled to each other at a lower end of the housing, and a plurality of wind direction compressors and a plurality of vanes formed at an angle in a radial direction to the respective housings and the plurality of supports. Vertical axis form using the wind direction, characterized in that made to be rotated vertically by Wind direction compressor.

In order to maximize the rotational force of the wind direction compression rotary unit by reducing the wind resistance hitting the backside of the wind direction compression rotary unit and at the same time even the wind direction blowing outside the wind direction compression rotary unit by concentrating the wind direction only to the front of the plurality of wings of the wind direction compression rotary unit. In order to form a tab in the radial axis of the central axis and a plurality of holes are formed, the bearing is mounted upper and lower and top covering, a plurality of supports coupled to the cover, and the wind direction compression rotary device to the plurality of supports It is formed inside and reduces the resistance of the wind that hits the back of the wing, and directs the wind causing resistance to the front of the plurality of wings of the wind direction compressor, and at the same time the rear wind generated while the wind direction compressor rotates. To the front of the wing and as an auxiliary part of the wind guidance system. The left dust collector and the wind blowing outside the wind direction compression rotating device to the front of the plurality of wings of the wind direction compression rotating device, and the changing wind is directed to the front surface of the plurality of wings of the wind direction compression rotating device, The right dust collector which plays a role, the wind vane tracking device which allows the wind vane to quickly adapt the wind direction by the change of the wind direction, and the wind vane rotary device of the present invention is settled down due to heavy snow in winter. Wind direction dust collector for collecting the wind direction, characterized in that the cable device is configured to prevent in advance to impede the rotation of the rotation,

The generator is coupled to a generator fixing device configured to be coupled to the generator connection support to the lower side of the intermediate support of the central axis and the wind direction compression rotating device, and combines a central axis configured with a hole in the generator, and a plurality of gears on the central axis It forms a small gear consisting of, and the small gear is coupled to the amplification gear consisting of a plurality of cogwheels formed coupled to the wind direction compression rotating device to maximize the rotational force of the wind direction compression rotating device to increase the amount of power generation and power generation efficiency of the generator Wind power generator, characterized in that the energy is produced safely and in large quantities.

A wind direction dust collecting device for collecting the wind direction, a wind direction compression rotating device having a rotational force even at a low wind speed by the wind direction collecting device, an amplification gear that amplifies the rotational force of the wind direction compression rotating device, and a rotational force engaged with the amplifying gear Wind turbine with a vertical axis to generate wind power using the wind direction, characterized in that the small gear to maximize the, and the generator and the like coupled to the small gear is configured to be configured.

In addition, as described above, the wind energy is used to produce electric energy, thereby making the use of infinite resources effective, environmentally friendly, and as a renewable energy alternative.

Central shaft, Covering, Amplification covering, Wind direction compressor, Wind direction compressor, Wind direction dust collector, Amplifier, Generator,

Description

Wind direction compressed air type wind turbine generator {wind direction of air compressor & wind a dust chamber a system for wind power generator}

1 is a perspective view showing a wind compressor of the present invention, a wind collecting compressor of the preferred embodiment of the present invention.

Figure 2 is a partial cross-sectional view showing a wind turbine of the present invention.

Figure 3 is an exploded perspective view showing a wind direction compression device of the wind turbine type wind turbine of the present invention.

Figure 4 is an exploded perspective view showing a partially enlarged view showing the coupling state of the wind direction compression device and the blade of the wind turbine generator of the present invention.

5 is a perspective view showing a partially enlarged view showing a coupling state of a small gear and an amplifier gear in the generator of the wind turbine generator of the present invention.

Figure 6 is a perspective view showing a wind direction dust collecting apparatus of the wind turbine generator of the present invention.

Figure 7 is an exploded perspective view showing a wind direction dust collecting device of the wind turbine generator of the present invention.

8 is a cross-sectional view of the wind turbine generator of the present invention.
Figure 9 is an installation state diagram showing the wind direction compressed dust collector of the present invention.

<Explanation of symbols for main parts of drawing>

10: wind direction compression type wind turbine generator 11: wind direction compressor

12: wind direction dust collector 13: wind power generator

14: central axis 15: appearance

16: bearing 17: covering

18: covering hole 19: amplification covering

20: covering coupling hole 21: upper support coupling hole

22: middle and lower support holes 23: upper outer round housing

24: Upper inner round housing 25: Upper outer round housing hole

26: upper inner round housing hole 27: upper support

28: upper support hole 29: suspended support hole

30: Lower outer round housing 31: Lower outer round housing

32: Lower inner round housing 33: Lower inner round housing hole

34: suspended outer round housing 35: suspended outer round housing

36: suspended internal circular housing 37: suspended internal circular housing hole

38: suspended support 39: suspended support hole

40: middle and lower end circular housing 41: middle and lower end outer housing

42: middle lower and lower circular housing 43: middle and lower inner circular housing

44: middle and lower support 45: middle and lower support holes

46: upper wind direction compression tube 47: lower wind direction compression tube

48: wing 49: wing hole

50: wind direction compression device 51: upper wind direction inlet

52: lower wind direction exit 53: upper wind direction exit

54: lower wind direction exit 55: wind direction entrance exit plate

56: upper wind direction separator 57: lower wind direction separator
58: intermediate plate 59: wing upper housing
60: wing lower housing 61: angle feather wings
62: wind direction secondary acceleration wing 63: wind direction suction wing
64: wing hole 70: small gear
71: generator connection support 72: generator fixing device
73: hole 74: generator
75: small gear central axis 80: left dust collector
81: right dust collector 82: wind direction tracking device
83: left single stage dust collector 84: left two stage dust collector
85: left three-stage dust collector 86: left auxiliary wind direction tracking device
87: left single stage dust collector 88: left three stage dust collector
89: upper left housing 90: lower left housing
91: right one-stage dust collector 92: right two-stage dust collector
93: right three-stage dust collector 94: right auxiliary wind direction tracking device
95: right one-stage dust collector 96: right three-stage dust collector
97: left rear dust collector 98: right front dust collector
99: support 100: upper support
101: lower support 102: ring
103: covering 104: bearing
105: cable 106: upper right housing
107: lower right housing 200: tower
300: wind direction compressor 1 stage 301: wind direction compressor 2 stage
302: wind direction compressor 3 stages 303: appearance 1 stage
304: 2 stages external appearance 305: 3 stages external appearance

The present invention relates to a wind turbine for wind power generation of a vertical axis type wind power generation using a wind direction, and more specifically, to form a wind direction compression rotary device on the central axis of the vertical axis form on one tower, the wind direction compression rotary device outside Forming a wind collecting device, a support unit is formed at the lower central shaft of the wind compression compressor, a fixing device is formed on the support, a generator is formed on the fixing device, and a gear wheel is formed on the central axis of the generator. It forms a small gear of the form, the cogwheel-shaped amplification gear formed in the lower gear is formed inside the wind direction compression rotary unit connected to the wind direction compressed dust collector, characterized in that to generate electric energy It is about.

In the conventional vertical shaft type wind power generator, while the rotor composed of a plurality of blades on the central axis rotates by the wind direction, the generator is generated by the rotational force to produce electric energy.

However, the rotating body composed of a plurality of wings on the central axis has the disadvantages of low power generation efficiency due to the resistance of the wind to the back of the wing when rotating by the wind direction and the problem of not generating power at low wind speed and low power generation efficiency There was a problem.

In order to supplement the above disadvantages and problems, the device is configured to reduce the resistance of the wind that the wind hits the back of the wing when the rotor rotates, so that the rotor has rotational force in the non-resistance. The problem of using the wind direction only 50% due to the device to reduce the resistance, the disadvantage of not using the wind direction on the outside of the rotor, the disadvantage of not using the wind direction generated by the rotation of the rotor and the wind when the rotor rotates The device that reduces the resistance of the wind to hit the back of the wing falls down due to heavy snowfall in winter, causing problems in the rotation of the rotor, the problem of using the wind direction only once in the rotor, and the generator as a substructure of the rotor. It is composed on the ground of the tower, the problem of overload on the rotating body and the instability of the central axis There was.

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Therefore, the object of the present invention as invented to solve the disadvantages and problems of the prior art is to form a left dust collector that prevents the resistance of the wind that the wind hits the back of the wing when the rotor rotates, to reduce the wind resistance Due to the formation of the left stage 1 dust collector to solve the problem of using only 50% of the wind direction, and to form the right dust collector to solve the disadvantage of using the wind direction on the outside of the rotor, the rotor is generated while rotating To form a left two-stage dust collector to solve the disadvantage of not using the wind direction, to form a left three-stage dust collector so that the rotating body has the effect of the left one-stage dust collector and the left two-stage dust collector, the left Maximize the effect of the 1,2,3-stage dust collector and form the left wind direction tracking auxiliary device to assist the wind direction tracking, and the left 1,2,3-stage dust collector and the left The wind direction tracking assist device is connected to form a left dust collector, and forms the right wind direction trace device to solve the disadvantage of not using the wind direction of the outside of the rotating body, and may have the effect of the right wind direction tracking assist device. The first and second stage dust collectors are formed on the right side, and the right three stage dust collectors are formed to use the blades of the rotating body even for the instantaneously changing wind direction, and the right one, two and three stage dust collectors and the right wind direction tracking assistant are used. A device is connected to form a right dust collector, and the left dust collector and the right dust collector are configured to track the wind direction that changes instantaneously to collect the wind direction on the rotating body is formed, the left dust collector Forming a plurality of supports to combine the device and the right dust collector and the wind direction tracking device, the support can be configured as one It forms a covering so as to form a wind collecting device configured to be connected to the central axis by configuring a bearing inside the covering so that the cover can rotate the wind direction, reducing the resistance of the wind hit the back of the wing during rotation In order to solve the problem of the device falling down due to heavy snow in winter, the rotation of the rotating body is prevented. The cover is built on the top of the central axis, and the ring is formed on the top of the wind collecting device. It forms a wind direction compression device that solves the problem of using the wind direction only once in the rotating body, and forms a plurality of wings and a multi-stage wind direction compression rotating device to be radially angled to maximize the wind direction, the rotating body In order to maximize the rotational force of the amplification covering to form one covering on the central axis, To form a wind direction and a plurality of compressor blades and the wind direction compression rotating device configured to connect the rotor of the multi-stage amplifier group on the support to the covering,
The generator is formed on the ground of the tower, which is a lower structure of the wind compressor, and a support is formed on the central axis to solve the problems of the rotating body and the instability of the central axis, and a generator fixing device is formed on the support. A generator is formed in the fixing device, and a small gear in the form of a gear is formed in the generator, and the small gear is an amplification gear in the lower portion of the wind direction compression device in order to maximize the rotational force by the wind direction compressor and increase the power generation efficiency. To form a wind turbine
An object of the present invention is to provide a wind direction compression dust collector for a wind turbine in a vertical axis form using the wind direction by combining the wind direction compression device, the wind direction dust collector, and the wind power generator.

It is another object of the present invention to be easily installed in various terrains, and can be independent and systemic, it is invented to modify the size and shape of the wind turbine generators of the small to medium-large to large depending on the generation capacity It is to provide a wind turbine for the wind power generation of the vertical axis form wind power generating using a.

In order to achieve the above object, the present invention allows the direction of the wind direction in the direction of the instantaneous wind direction to collect the wind direction by collecting the wind direction in the direction of the direction of the wind compressor, so that the wind direction of the compressor can rotate even at low wind speed, The wind direction compressor attached to the compression rotating device adds acceleration to the rotational force, so that the amplifier gear and the small gear mesh with each other to maximize the rotational power, and increase the power generation efficiency of the generator with the maximum rotational power. It is characterized in that to provide a wind turbine for wind power generation of a vertical axis type wind power generation.

In addition, the wind collecting dust according to the present invention, the left dust collector is formed on the left side of the wind direction compression rotation apparatus in the direction of the wind direction, the right dust collector is formed on the right side of the wind direction compression rotation apparatus, the left dust collector and A wind direction tracking device is formed so that the right dust collector tracks the wind direction and collects the wind direction only to the front of the wing of the wind direction compression rotating device, and has a plurality of supports for combining the left dust collector with the right dust collector and the wind direction tracking device. Forming a plurality of supports as one and forming a covering on a central axis to rotate and track the wind direction, and each of the 1,2 and 3 stage dust collectors to maximize the wind direction in the left dust collector and the right dust collector; A device and a wind direction tracking assist device are formed, and the 1, 2, and 3 stage dust collectors and the wind direction assist device are further provided with a small dust collector for effect. And that is characterized.
In addition, in order to prevent the left dust collector and the right dust collector from falling down due to heavy snow in winter, to prevent the rotation of the rotating body in advance, a coupling having a bearing built in the top of the central shaft is formed. It forms a ring on the top of the device, characterized in that it further comprises a cable.

In addition, the wind direction compression rotating apparatus is formed mounted inside the wind direction dust collecting apparatus according to the present invention to form a plurality of radially angled wings in order to maximize the wind direction, and the upper circular housing and to combine the plurality of wings A lower circular housing is formed, and a middle circular housing is formed in order to further use wind direction in the upper circular housing and the lower circular housing, and a middle and lower circular housing is formed to mount an amplification gear in the lower circular housing. In the middle plate, wind direction separating plate and wind direction separating plate inside the angled wing to form a plurality of wings further angled to the suspended circular housing and the lower and middle circular housing, and to maximize the wind direction entering the front of the wing. It forms an angled wind direction suction wing, an angled wind direction secondary acceleration wing, the wind direction entry / exit to the wind direction separation plate A plate is formed, and a wind direction compression device is coupled to the wind direction inlet / outlet plate, and a wind direction inlet and a wind direction outlet are respectively formed in the wind direction compression device, and a wind direction compression tube is configured to constitute the wind direction inlet and the wind direction outlet. And a plurality of supports formed by combining the wing, the wind direction compression device, the upper outer / inner circular housing, the inner and outer circular housings, and the lower / lower inner and outer circular housings, respectively, and the circular housings respectively formed on the plurality of supports. Each circular housing is provided in one and forms an amplification covering so as to track and rotate the wind direction, and forms one covering to maximize the rotational force of the rotor in the amplifying covering, and centers the central axis on the covering. It is characterized in that it further comprises a bearing or the like to rotate.
In addition, the wind power generator according to the present invention forms a connection support on the central axis, and a generator fixing device on the connection support, a generator on the fixing device, and a small gear in the form of a cog wheel in the generator, In addition, the gear having a small gear is characterized in that it further comprises an amplification gear and the like in the lower portion of the wind direction compression device to achieve the maximum rotational force by the wind direction compression rotation device.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.
1 is a perspective view showing a wind turbine of the present invention, and FIG. 2 is a partial cross-sectional view of the wind turbine of the present invention, Figure 3 is a wind turbine of the present invention. 4 is an exploded perspective view showing the wind direction compression rotating apparatus, Figure 4 is an exploded perspective view showing a partial enlarged view showing a coupled state of the wind direction compression device and the wing of the wind turbine compressor of the present invention, Figure 5 is a wind direction compression of the present invention 6 is a perspective view illustrating a partial enlargement showing a coupling state of a small gear and an amplifier gear in a generator of a dust collecting wind turbine, and FIG. 6 is a perspective view illustrating a wind collecting apparatus of the wind turbine generator of the present invention, and FIG. Is an exploded perspective view showing a wind direction dust collecting device of the wind turbine generator of the wind direction, Figure 8 is a cross-sectional view of the wind turbine of the present invention 9 is an installation state diagram showing the wind direction compressed dust collector of the present invention.

The present invention shown in Figures 1 to 9 is a wind generator to collect the wind direction through the wind direction dust collecting device wind power generator to maximize the rotation force by engaging the small gear and amplification gear using the rotational force of the wind direction compression rotary device In the wind-driving wind turbine comprising a,

A covering 103 having a plurality of holes 102 including a bearing 104 is inserted and formed on the central shaft 14, and a portion to be coupled to the covering 103 has a threaded end and left / right dust collection. A plurality of upper and lower supporters 100 and 101 having holes formed in portions to be coupled to the supporters 99 of the apparatuses 80 and 81, and left and right dust collectors 80 and 101 to the upper and lower supporters 100 and 101. 81) and the support 99 of the wind direction tracking device 82, and the left three-stage dust collector 85 is formed on the left side of the support 99, two left three-stage dust collector 88 is formed; And a left two-stage dust collector 84 to the left of the left three-stage dust collector 85, and a left one-stage small dust collector 87 to the left of the left two-stage dust collector 84. The left first stage dust collector 83 is formed, and the left rear small dust collector 97 is formed at the rear of the left one, two, three stage dust collectors 83, 84, 85. It forms a wind direction tracking device 86, the left upper housing (89) and the left to combine the left 1, 2, 3 stage dust collector (83, 84, 85) and the left auxiliary wind direction tracking device (86) By connecting the lower housing 90 and the like, the left wind direction dust collecting device 80 is formed.

On the right side of the support 99 is formed a right one-stage dust collector 91 is formed with two right one-stage small dust collector (95), the right two stages to the right of the right one-stage dust collector (91) A dust collector 92 is formed, and a right three-stage dust collector 93 is formed to the right of the right two-stage dust collector 92, and the right three-stage dust collector 93 is formed. A right auxiliary wind direction tracking device 94 is formed in front of the two and three stage dust collectors 91, 92, and 93, and the right one, two and three stage dust collectors are formed. The right wind direction collecting device 81 is formed by connecting the upper right housing 106 and the right lower housing 107 and the like to connect the 91 and 92 and 93 and the right auxiliary wind direction tracking device 94. There is a characteristic.
The hole 102 is formed on the upper support 100 to connect the bolts 66 and the like to form a wind direction tracking device 82 having two wings.
The upper housing (89, 100) and the wind direction formed in the left dust collector (80) and the right dust collector (81) by forming a covering (103) having a bearing (104) embedded on the top of the central shaft (14) The wind direction dust collector 12 is formed by coupling and fixing the ring 102 to the tracking device 82 to connect the cable 105 and the like.

The bearing 16 is inserted into and formed in the central shaft 14 of the inside of the wind direction dust collecting device 12, and the covering 16 is formed with a plurality of holes 18 formed in the bearing 16, and the covering ( A plurality of holes (21, 20, 29, 22) is formed in 17 and a plurality of amplified coverings 19 are formed, and a plurality of holes 31 are formed below the bottom of the amplifying coverings 19. After inserting the lower outer circular housing 30 and the lower inner circular housing 32 constituting the plurality of holes 33, the lower middle outer circular housing 40 and the plurality of holes 43 constituting the plurality of holes 41 are inserted. Forming the lower and middle inner circular housing 42 configured, and forming the middle and lower end support 44 consisting of a plurality of holes 45 on the upper and lower middle circular housing (40) and the upper and lower middle circular housing (42) On the middle and lower end support 44, the suspended outer circular housing 34, which constitutes a plurality of holes 35, and the suspended inner circular housing 36, which constitutes a plurality of holes 37, are formed. And a suspension support 38 including a plurality of holes 39 formed on the suspended outer circular housing 34 and the suspended inner circular housing 36, and forming a plurality of holes 25 on the suspended support 38. The upper outer circular housing 23 and the upper inner circular housing 24 forming the plurality of holes 26 are formed, and the plurality of holes 28 on the upper outer circular housing 23 and the upper inner circular housing 24. ) Is configured to connect the upper support (27), etc. that is configured to form the outer shape (15).

An upper wind direction compression tube 46 including an upper wind direction inlet 51 and an upper wind direction outlet 53 is formed in the upper inner circular housing 24 and the suspended inner circular housing 36, and the upper wind direction compression tube (46) forming a lower wind direction compression tube (47) consisting of a lower wind direction inlet (52) and a lower wind direction outlet (54) at the lower end, and the wind direction mouth in the upper wind direction compression tube (46) and the lower wind direction compression tube (47). / Outboard plate 55 and the like to form a wind direction compression device 50, the outer and upper outer circular housing 24 and the outer inner circular housing 36 and the outer outer circular housing 23 and the suspended outer The wind direction suction vane 63 and the wind direction secondary acceleration wing on the wind direction inlet / outlet plate 55 which are coupled to the respective wind direction compression devices 50 under the inner side of the circular housing 34 and under the upper support 27. An upper wind direction separating plate 56 and a lower wind direction separating plate 57 are formed, and the upper wind direction separating plate 56 and the lower portion 62 are formed. An intermediate plate 58 is formed inside the fragrance separating plate 57, an angled wing blade 61 is formed at the rear of the intermediate plate 58, and the wing blade 61 and the upper wind direction separating plate 56 are formed. ) And the lower wind direction separating plate 57 and the middle plate 58 are connected to the upper housing 59 and the lower housing 60 to form a wing 48, and the wings 48 are radially multiple. It is characterized in that the wind direction compression rotary device 1 stage 300 is formed by being connected to the first stage 303.

A wind direction compression device 50 is formed inside the suspended inner circular housing 36 and the middle lower and lower circular housing 40, and the outside of the suspended inner circular housing 36 and the lower middle inner circular housing 42. Wings in the wind direction inlet / outlet plate 55 which are configured to be coupled to the respective wind direction compression devices 50 under the suspended outer circular housing 34 and the lower and lower outer circular housing 40 and the suspended support 38. (48) is formed, the blade 48 is composed of a plurality of wings in a radial configuration consisting of two stages (304) of the wind direction compression rotary device is characterized in that the second stage (301) is formed.
A wind direction compression device 50 is formed in the middle lower and lower inner circular housings 42 and the lower inner circular housings 32, and the outside of the lower and lower inner circular housings 42 and the lower inner circular housings 32; On the inside and outside of the lower and lower circular housing (40) and the lower outer circular housing (30), the wind direction inlet / outlet plate (55) configured to be coupled to each wind direction compression device (50). The blades 48 are formed, and the blades 48 are radially configured to form a plurality of wings and are configured to be connected to the external three-stage 305 to form a three-stage 302 of the wind compressor unit.

Holes 20, 29, 31, 33, 25, 26, 35, 37, the outer shape 15 and the wind direction compression rotary device 1,2, 3 stages (300, 301, 302) are formed in the central shaft (14), respectively. 41, 43, 28, 39, 45, 64 is characterized in that the wind direction compression rotating device 11 formed by coupling the bolt 66 and the nut 67 is formed.
The generator connecting support 71 is formed on the central shaft 14, and the generator fixing device 72 in which the hole 73 is formed in the generator connecting support 71 is formed, and the generator fixing device 72 is formed. The generator 74 is mounted on the generator 74, and the generator central shaft 75 is formed on the generator 74, and the small gear 75 having a gear shape is mounted on the generator central shaft 75. The small gear 75 in the form of a wheel is engaged with a plurality of holes 69 of the middle and lower end supports 69 in the wind direction compression rotating device 11, and is engaged with a bolt 66 or the like by engaging with an amplifier gear 68 or the like. It is a characteristic that the wind power generator 13 which consists of a structure is formed.

The wind generator 13 is formed by combining the wind direction compression device 11, the wind direction dust collector 12, the tower 200, and the like, and the wind direction compression type wind generator 10 for wind power generation having a vertical axis form. There is a characteristic.

Looking at the effect of the wind direction compressed dust collector according to the present invention configured as described above are as follows.

By inserting the covering 103 including the bearing 104 on the central axis 14, the wind direction dust collecting device has an effect of collecting the wind direction by rotating tracking in the direction of the wind direction.

The portion to be coupled to the covering 103 has a screw end and forms a plurality of upper and lower supports 100 and 101 on the supports 99 of the left and right dust collectors 80 and 81 to the covering 103. There is an effect that can be fixed to the upper / lower support (100, 101). The left and right dust collectors 80 and 81 and the support 99 of the wind direction tracking device 82 are fixed to the upper and lower supporters 100 and 101 to track the wind direction. The wind direction tracking device 82 is rotated to have an effect of collecting the wind direction by the wind direction compression rotating device 11.

By forming a left three-stage dust collector (85) in which two left three-stage dust collectors (88) are formed on the left side of the support (99), the wind resists the wind that hits the back of the wing when the rotor is rotated. The left three-stage small dust collector 88 formed on the left one-stage dust collector 83 is formed to blow the wind that the wind hits the back of the wing to the front of the blade in the direction in which the rotor rotates. The left secondary wind direction tracking device 86 that maximizes the effects of the left two-stage dust collector 84 and the left two-stage dust collector 84 that collects the rear wind direction of the rotating body generated while rotating to the front of the rotor blade. The left rear small dust collecting device 97 is formed to collect the wind direction on the front surface of the wing in the direction in which the rotating body rotates the incoming wind.

By forming the left two-stage dust collector 84 on the left side of the left three-stage dust collector 85, there is an effect of collecting the rear wind direction of the rotor generated while the rotor rotates to the front of the rotor blade.
By forming a left first stage dust collector 83 having a left first stage small dust collector 87 formed on the left side of the left two stage dust collector 84, the wind is hit by the back of the wing when the rotor rotates. It prevents the resistance, by forming a left one-stage small dust collector 87, there is an effect of collecting the wind hit the back of the wing with the left three-stage small dust collector (88) to the front surface of the wing in the direction of rotation of the rotor.

The left auxiliary wind direction tracking device 86 having the left rear small dust collecting device 97 formed behind the left one, two, and three stage dust collectors 83, 84, and 85 may be used. There is an effect of the secondary role, and also the effect of blowing the wind direction coming into the left first stage small dust collector (87) with the left three stage small dust collector (88) to the front of the wing in the direction in which the rotor rotates In addition, by forming the left rear small dust collector 97, to maximize the effect of the left two-stage dust collector (84) to collect the rear wind direction of the rotor generated while the rotor rotates to the front of the rotor blade It works.

The left upper housing 89 and the left lower housing 90 are connected and fixed in order to combine the left 1, 2, and 3 stage dust collectors 83, 84, 85 and the left auxiliary wind direction tracking device 86. The wind direction dust collecting device 80 is provided.
By forming the right first stage dust collector 91 having two right one stage small dust collectors 95 formed on the right side of the support 99, the right front side array formed in the right side auxiliary wind direction tracking device 94 Wind direction blowing to the outside of the rotating body by the true device 98 has the effect of collecting and maximizing the external wind direction to the front of the blade in the rotation direction of the rotating body.

By forming the right two-stage dust collector 92 on the right side of the right one-stage dust collector 91, it is blown to the outside of the rotating body by the right front small dust collector 98 formed on the right auxiliary wind direction tracking device 94. Wind direction is the front of the blade in the direction of rotation of the rotating body has the effect of maximizing the outside wind direction and maximize more.
By forming a right three-stage dust collector (93) having a right three-stage small dust collector (96) formed on the right side of the right two-stage dust collector (92) to direct the instantaneous wind direction toward the front of the blade of the rotor. It works.

Wind direction tracking device 82 is formed by forming a right side auxiliary wind direction tracking device 94 in which a right front side dust collector 98 is formed in front of the right one, two, and three stage dust collectors 91, 92, and 93. There is an effect of the secondary role of, the right front small dust collector 98 is formed is formed to have the effect of collecting the wind direction blowing outside the rotor to the front of the blade in the direction of rotation of the rotor.

The right upper housing 106 and the right lower housing 107 are connected to fix the right 1, 2, 3 stage dust collectors 91, 92, 93 and the right auxiliary wind direction tracking device 94 to the right. The wind direction dust collecting device 80 is provided.
The wind direction tracking device 82 having two wings on the upper support 100 is formed in the middle of the left dust collector 80 and the right dust collector 81 and behind the central axis 14. Even if the wind blowing in the wind direction tracking device 82 is provided with an effect capable of tracking.

The upper housing (89,100) and the wind direction tracking formed on the left dust collector (80) and the right dust collector (81) by forming a covering (103) having a bearing (104) embedded at the end of the central shaft (14) By coupling and fixing the ring 102 to the device 82 to configure the cable 105, the wind vane 12 is settled due to heavy snow in winter to impede the rotation of the wind direction compression rotary device 11 It is to provide a cable 105 device having an effect to prevent in advance.
The left dust collecting device 80 and the right dust collecting device 81 are also configured to couple the support 99 and the ring 102 to the wind direction tracking device 82 and the cable 105 device, respectively. The bolt 66 or the cable is connected to the coupling structure, and the upper and lower ends of each upper and lower supporters 100 and 101 are screwed to the covering 17 formed by coupling to the central shaft 14. The wind direction dust collecting device 12 is provided.

By inserting and fixing the bearing 16 to the central axis 14 of the inside of the wind direction dust collecting device 12, the covering 17 can be rotated, and the covering 17 has a plurality of holes 18 By forming only one configuration by combining the amplification covering (19) has the effect of maximizing the rotational force of the wind direction compression rotating device (11), a plurality of holes (21, 20, 22, 29 in the covering 17) And a plurality of holes 21 are formed in the plurality of holes 21 of the amplification covering and the connecting portion is formed in a cylindrical shape by fixing the plurality of amplification coverings 19 composed of a plurality of upper supports 27, The middle and lower ends consisting of a plurality of holes (39) formed in the plurality of holes (29) and the support portion 38 is formed in a cylindrical shape, a plurality of holes (45) in the plurality of holes and the connecting portion is formed in a cylindrical shape There is an effect that can be fixed to the zone 44 by bolts 66,

After inserting the lower outer circular housing 30 constituting the plurality of holes 31 and the lower inner circular housing 32 constituting the plurality of holes 33 to the outside of the amplifying covering 19, a plurality of holes 41 are inserted. By forming the mid-lower stage outer circular housing 40 and the mid-lower stage inner circular housing 42 including the plurality of holes 43, the outer shape 303 of the first stage 300 of the wind direction compression rotating apparatus 11 is formed. It works,

The middle and lower ends of the outer circular housing 40 and the middle and lower ends of the inner circular housing 42 form a lower and lower support 44 constituting a plurality of holes 45, the plurality of holes (44) The outer shape 304 of the second stage 301 of the wind direction compression rotating device 11 is formed by forming the suspended outer circular housing 34 constituting the 35 and the suspended inner circular housing 36 constituting the plurality of holes 37. Has the effect of
An upper end of the suspended outer circular housing 34 and the suspended inner circular housing 36 to form a suspended support 38 consisting of a plurality of holes 39, the upper end of the plurality of holes 25 formed on the suspended support 38 The upper inner circular housing 24 forming the outer circular housing 23 and the plurality of holes 26 is formed, and a plurality of holes 28 are formed on the upper outer circular housing 23 and the upper inner circular housing 24. Since the upper supporters 27 and the like are configured to be connected to each other, the outer shape 15 of the whole wind direction compression rotating device 11 has the effect that the outer shape 305 of the third stage 302 of the wind direction compression rotating device 11 is formed. Will be provided.

A portion of the upper inner circular housing 24 and the suspended inner circular housing 36 into which the wind direction enters is a rectangular top shape, and a wide upper wind direction inlet 51 and a portion where the wind direction is discharged are narrow upper wind direction outlets 53. By forming the upper wind direction compression tube 46 of the rectangular pipe form constituting a large number of wind direction entering the wide wind direction inlet 51 is discharged to the narrow wind direction outlet 53 has the effect of increasing the wind speed is increased,
By forming a lower wind direction compression tube (47) consisting of the upper wind direction compression tube 46 and the lower wind direction inlet 52 and the lower wind direction outlet 54, the wind direction is compressed to maximize the effect of increasing the wind speed There is,
The wind direction compression unit 46 and the wind direction inlet / outlet plate 55 and the like by connecting to the configuration of the wing 48 and the wind direction compression rotary device (11) It is to provide a wind direction compression device 50 that has the effect of having an acceleration when the rotation of the).

Each of the wind direction compression device inside and outside the upper outer circular housing 23 and the outer outer circular housing 23 and the suspended outer circular housing 34 and the upper support 27 of the upper inner circular housing 24 and the suspended inner circular housing 36 Wind direction compression rotary device 11 has a rotational force by affecting the front surface of the wing blade 61 angled to the direction of the wind direction from the outside primarily to the wind direction inlet / outlet plate 55 that is coupled to (50) The wind direction suction vanes 57 and 63 are formed to exit the wind direction exiting the inside to the wind direction inlets 51 and 52 formed in the wind direction compression device 50, and the wind direction of the wind direction compression rotating device 50. The upper wind direction separating plate 56, which is composed of wind direction secondary acceleration blades 56 and 62, which is formed so as to reuse the wind direction discharged to the wind direction outlets 53 and 54 by changing the rapid wind speed in the compression pipes 46 and 47. And a lower wind direction separating plate 57, the upper wind direction separating plate 56 and a lower wind direction separating plate 57. A middle plate 58 is formed in order to maximize the wind direction entering the outside from the outside, and the wind direction of the wind direction is increased behind the middle plate 58, and the wind direction is the wind direction separating plates 56 and 57. When it hits the wind direction suction vanes 63 and 57 which are formed at the angles, the wind direction entrances 51 and 52 coupled to the wind direction inlet / outlet plate 55 enter the wind direction outlets 53 and 54. It forms an angled wing blade 61 formed to have a wind direction on the upper and lower wind direction secondary acceleration blades 62 through the wind direction inlet / outlet plate 55 by changing with a high wind speed, and the wing feather 61. And the upper wind direction separating plate 56, the lower wind direction separating plate 57, and the middle plate 58 are connected to the upper housing 59 and the lower housing 60 to form a wing 48, and the wing ( 48) is composed of a plurality of radial shape and connecting a plurality of wind direction compression device 50 and the first stage outer shape (303) of the wind direction compression rotary device 11, etc. To thereby provide a first stage of compression rotational direction of the wind (11) (300).

The second stage 304 of the wind direction compression rotary device 11, the plurality of wind direction compression device 50 and a plurality of radial blades 48, etc. are connected to configure the second stage ( 301).
Three stages of the wind direction compression rotating device 11 by connecting the three-stage outer shape 305 of the wind direction compression rotating device 11 and a plurality of wind direction compression device 50 and a plurality of radial blades 48, etc. 302).

Holes 20, 31, 33, 25, 26, 35, 37, 41, the outer shape 15 and the wind direction compression rotary device 1,2, 3 stages (300, 301, 302) are formed in the central shaft (14), respectively. 43, 28, 39, 45, 64) bolts 66 and nuts 67 are combined and fixed to facilitate the replacement of parts, prompt action in the event of a problem, and can be rotated at low wind speed It provides a compression rotary device (11).

Since the generator connection support 71 is fixed to the inner central shaft 14 of the third stage 302 of the wind direction compression rotating apparatus 11, the wind direction compression rotating apparatus 11 and the generator 74 may have one form. In addition, there is an effect to reduce the force on the rotational force of the wind direction compression rotary device 11, and by forming a generator fixing device 72 in which the hole 73 is formed in the generator connection support 71 of the generator Detachable effect is easy and there is also the effect that can be fixed to the generator (74). The generator center shaft 75 is formed on the generator 74 to effectively couple the small gear 75 in the form of a cog wheel, and the wind direction compression rotary device (to the small gear 75 in the form of a cog wheel) ( In 11), the wind direction compression and rotation device 11 is rotated by the wind direction by engaging with the amplifier gear 68 and the like, which are coupled to the plurality of holes 69 of the middle lower end support 69, and fixing the bolts 66 and the like. Central shaft 14 by wind direction by maximizing the rotational force generated at the time and also configured in the lower stage of the second stage 301 of the wind direction compression rotary device 11 and the third stage 302 of the wind direction compression rotary device 11. It provides an effect of minimizing the instability of the wind power generator 13 that can also have the effect of minimizing the corrosion of the generator 14 due to rain or snow.

Wind turbines (13) and the wind direction compression rotary device 11 and the wind direction dust collecting device 12 is configured to combine the tower 200, etc. in a desired place by combining wind direction compression wind power generator for vertical wind power generation ( 10) to provide.

As described above, the present invention has been described with reference to the embodiments illustrated in the drawings, but this is merely exemplary, and it should be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. will be. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, the present invention,

In the wind collector, the left dust collector prevents the wind resistance that the wind hits the back of the wing when the wind compressor rotates, while the left one stage dust collector reduces the wind resistance by 50%. There is an effect that can be used only 100% that can not be used, the right dust collector has the effect of making maximum use of the wind direction of the outside of the wind direction compression rotary device, the left two-stage dust collector is rotated while the wind direction compression rotary device rotates There is an effect that can use the rear wind direction to generate, and the left wind direction tracking device and the right wind direction tracking device is balanced, there is a secondary effect of the wind direction tracking device, the right wind direction tracking device to the outside wind direction of the rotating body It has the effect of collecting dust as much as possible, and the right three-stage dust collector is capable of turning even the wind direction that changes instantly. It has the effect of making it available to the wing of the sieve, and the wind direction tracking device has the effect of collecting the wind direction in the wind direction compression rotating device by tracking the wind direction that the left dust collector and the right dust collector are instantaneously changing. By fixing the cable at the top, it is effective to prevent the wind collecting device from falling down due to heavy snowfall in winter and causing the impediment to the rotation of the wind direction compression rotating device, and by forming the wind direction compression device, one wind direction is compressed. There is an effect that can be used twice in the rotating device, and by forming a plurality of vanes and angled wind direction rotary device of the angle, it is possible to use the wind direction to the maximum, by forming an amplification covering on one covering on the central axis It has the effect of maximizing the rotational force of the rotating body, the wind direction compression device as described above It has a rotational force even at low wind speeds, and at the same time generates variable wind speeds at high wind speeds, which enables constant speed operation.As a result, the generator is fixed to the inside of the wind direction compressor to reduce the rotational force of the wind direction compressor by the wind direction. In addition, it has the effect of reducing the instability of the central axis as much as possible, and the effect of maximizing the rotational force by the wind direction compression rotating device by combining the small gear fixed to the amplification gear and the generator. It can be easily installed and can be used independently and systematically, and its size and shape can be modified to enable small, medium and large wind power generators according to the power generation capacity. It has a useful effect.

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Claims (3)

The present invention collects the wind direction in the wind direction compression rotary device through the wind direction dust collecting device to maximize the rotational force of the wind direction compression rotating device by engaging the small gear and the amplification gear mounted on the generator using the rotational force of the wind direction compression rotating device. In the wind-driven compressed wind turbine generator including a generator, Inserting and forming a covering including a bearing on the central shaft to be mounted to the wind compressor, the wind turbine, and forms a plurality of upper and lower supports to be coupled to the left and right dust collector and the wind direction tracking device in the covering, The left and right dust collector and the wind direction tracking device are formed on the lower support, and the left three-stage dust collector is formed on the left side of the left dust collector support. The left stage 1 stage dust collector is formed on the left side of the dust collector, and the left stage 1 stage dust collector is formed on the left side of the left stage 2 stage dust collector, and the left stage 1, 2, 3 However, the left auxiliary wind direction tracking device is formed on the rear of the dust collector and the left rear small dust collector is formed, and when the left one, two, three stage dust collector and the left auxiliary wind direction tracking device are combined and configured It connects configure the left upper housing and the lower housing, such as the left is formed with a left wind direction dust collecting device 80 for groups, Forming a right one-stage dust collector with two right one-stage dust collectors on the right side of the right dust collector support; forming a right two-stage dust collector on the right side of the right one-stage dust collector; The right side three-stage dust collector is formed on the right side of the dust collector, and the right three-stage dust collector is formed on the right side, and the right auxiliary wind direction in which the right front small dust collector is formed on the front side of the right one, two, three-stage dust collector. The right wind direction dust collecting device 81 is formed by connecting the upper right housing and the right lower housing to form a tracking device, and to configure the right 1, 2, 3 stage dust collector and the right auxiliary wind direction tracking device. A wind direction tracking device 82 having two wings is formed on the upper support, Comprising a bearing having a built-in bearing on the top of the central axis by coupling the ring to the upper housing and the wind direction tracking device 82 formed in the left dust collector 80 and the right dust collector 81, the cable, etc. Wind direction dust collector 12 is formed by connecting the configuration, The bearing is inserted into the central axis of the inside of the wind direction dust collecting device 12, the covering is inserted into the bearing, the amplification covering is formed on the covering, and the lower outer circular housing and the lower under the amplifying covering. After inserting the inner circular housing to form the lower and lower outer circular housing and the lower and lower inner circular housing, and the upper and lower outer circular housing and the lower and lower inner circular housing to form the upper and lower end support, and the middle and outer end suspended on the lower end support Forming a suspended inner circular housing with the housing, forming a suspended support on the suspended outer circular housing and suspended inner circular housing, forming an upper outer circular housing and an upper inner circular housing on the suspended support; The upper support is formed on the upper inner circular housing to form an outer shape (15), The upper wind direction compression tube configured with the upper wind direction inlet and the upper wind direction exit is formed in the upper inner circular housing and the suspended inner circular housing, and the lower wind direction compression tube configured with the lower wind direction inlet and the lower wind direction outlet at the bottom of the upper wind direction compression tube. And a wind direction inlet / outlet plate is connected to the upper wind direction compression tube and the lower wind direction compression tube to form a wind direction compression device 50, and the outside and the top outside of the upper inner circular housing and the suspended inner circular housing. Circular housing and suspension The upper wind direction separating plate and the lower wind vane and the lower secondary wind vane are formed on the wind direction inlet / outlet plate which is combined with each wind direction compression device under the inner and upper support of the outer circular housing. A wind vane is formed, and an intermediate plate is formed inside the upper wind direction separating plate and the lower wind direction separating plate, and the blade is angled to the rear of the middle plate. It forms a feather, and the wing feather and the upper wind direction separating plate, the lower wind direction separating plate and the middle plate is connected to the upper housing and the lower housing to form a wing 48, and the wings are composed of a plurality of radially To form the first stage 300 of the wind direction compression device formed by connecting to the first stage 303, A wind direction compression device 50 is formed inside the suspended inner circular housing and the lower and lower inner circular housings, and the outer and outer suspended housings of the suspended inner circular housing and the lower and lower inner circular housings and the inner and outer middle lower and lower circular housings. And a blade 48 formed on the wind direction inlet / outlet plate which is coupled to each wind direction compression device 50 under the suspended support, and a plurality of the wings are radially connected to the external second stage 304. Two-stage 301 of the wind direction compression rotating device is formed, and the wind direction compression device 50 is formed inside the middle lower and lower inner circular housing and the lower inner circular housing, and the lower middle inner circular housing and the lower inner circular housing. Wings (48) on the wind direction inlet / outlet plate which are configured to be coupled to the respective wind direction compression devices (50) at the outside of the housing and at the bottom of the outer circular housing and at the bottom of the lower outer circular housing. ) And three wind vanes rotating in three directions (302) formed by connecting the blades 48 to the outer three-stage 305 by forming a plurality of radially, the outer shape 15 and Wind direction compression rotary device 11 is formed by coupling with a bolt and a nut in the hole is formed, respectively, 1,2,3 stages (300,301,302), A generator connecting support is formed on the central axis, a generator fixing device is formed on the generator connecting support, a generator is mounted on the generator fixing device, a generator central axis is formed on the generator, and a gear wheel is formed on the generator central axis. Wind gear formed by mounting a small gear of the form, in conjunction with the cogwheel-type amplification gear and the like formed in the cogwheel-shaped small gear coupled to the lower end of the middle lower end support in the wind direction compression rotary device (11). Forms a generator (13), The wind power generator 13 is characterized in that the wind direction compression rotary device 11 and the wind direction dust collecting device 12 is configured to combine the wind 200 and the wind turbine for wind power generation of the vertical axis form consisting of a combination of the tower 200 and the like. . The method of claim 1, wherein the wind direction rotary unit 10 is characterized in that the wing blades are connected to the cover and the amplification cover, the upper / lower support and the inner / outer cylindrical support with a fixing bolt and nut, without the wind direction dust collecting device Wind turbines for wind power generation, characterized in that formed in order to control and modify the shape and size of the wind turbine generator. delete

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