KR20100103901A - Vertical-axis wind turbine - Google Patents

Abstract

PURPOSE: A vertical axis wind turbine is provided to maximize power generation capacity, since the number of a cover ring, a shaft, and a main blade is minimized with the minimum quantity. CONSTITUTION: A vertical axis wind turbine(1) comprises a rotator, a shaft(30), a shaft blade(40), a ring, and a main blade(60). The rotator forms a central axis(10) coupled with a generator. The rotator is coupled with the central axis. The shaft is coupled with a cover ring(20). The ring is formed at the upper end and the lower end of the shaft.

Description

Vertical Axis Wind Turbine {Vertical-Axis Wind Turbine}

The present invention is a cover of the wind turbine generator is configured to be coupled to the central shaft that is coupled to the generator, three shafts are coupled to the shaft blades and cables, the auxiliary wing and the front wing and the rear wing and noise prevention device Combining the main blade is configured to combine to form a rotating body to maximize the rotational force of the rotating body by the wind direction to the wind turbine generator of the vertical axis form to obtain the electrical energy while generating the generator.

In general, the wind turbine of the vertical axis form a central axis of the vertical axis form is configured to be coupled to the generator, the rotating body is configured to be coupled to the central axis, the rotating body is composed of a coupling and the shaft and the main blade, the covering is Unlike the horizontal axis wind turbine that combines only one covering on the central axis, the vertical axis wind turbine combines the top and bottom of the central axis or combines multiple coverings to develop technologies without determining the quantity. There is a problem, by combining two or more coverings in the central axis as described above, there is a problem that the acceleration is lowered when the rotating body is rotated, the shaft is almost no need for coupling configuration in the horizontal axis type wind turbine, but the vertical axis type In the wind generator of the coupling configuration of the covering and the main wing As it is necessary to be determined by the quantity of the main wing at this time, and also configured to combine the upper and lower ends of the main wing, the shaft as described above has a problem that has only a simple function of combining the covering and the main wing In addition, as described above, the quantity of the covering and the shaft is indefinitely developed so that those skilled in the art can combine the five or more main blades in the form of a vertical axis wind turbine in the form of a main blade having a larger cross-sectional area in order to use more wind direction. Rotors are formed by combining the main wing having a large cross-sectional area with the shaft and the covering, and the above-described rotor has a disadvantage in that a rotation force is not obtained at low wind speeds due to its wide weight and cross-sectional area. There is a disadvantage that the rotational force is lowered due to the increased fatigue during rotation, as described above The rotor has a disadvantage in that the whole rotor should be disassembled when the installation and the problem occurs, the main blade has a problem that the rotational force of the rotor is lowered by the resistance of the main blade back caused by the wind direction blowing from the front, The main blade has a problem of increasing only the centrifugal force by the rotational force of the rotating body combined with the main blade, there is a problem that the noise generated when the rotating body is rotated high.

Therefore, the present invention should be a wind turbine generator in the form of a vertical axis to have the maximum generating capacity even if the cover and the shaft and the main wing of the constituent elements are configured in a minimum quantity, the covering on the central axis of the vertical axis form Even if only one coupling configuration should be able to increase the safety and acceleration when the rotation is rotating, the shaft has only three combinations to the covering while solving the problem of having only the simple function of combining the covering and the main blades The shaft should be coupled to the shaft to be able to actively use the wind direction, and the upper and lower ends of the shaft and the upper and lower ends of the main blade are combined and configured to have balance and safety of the main wing. When the rotating body is formed, the coupling configuration and installation of the covering and the shaft and the main wing and It should be easy to disassemble, and the main wing is formed in a curved shape so that the wind direction blowing from the front does not flow out of the main wing. The main wing is formed in a curved shape and the main wing is generated by the wind direction blowing from the front. The resistance of the back side should be minimized, and the main wing should have a length longer than the width so that the wind speed can be effectively used by the "wind altitude change table". The purpose of the present invention is to provide a centrifugal force, and to provide a wind turbine in a vertical axis form to reduce noise generated when the rotor rotates.

The configuration of the present invention forms a central axis in the form of a vertical axis is configured to be coupled to the generator, the rotating body is coupled to the central axis; The rotating body may include three shafts providing the one covering and coupled to the covering; Providing a shaft blade of a "∪" shape that is coupled behind the shaft, forming a ring 31 coupled to an upper / lower left side of the shaft, and forming a left cable coupled to the ring; A turnbuckle coupled to the left cable is formed, and a right cable is coupled to the right side of the turnbuckle to provide a cable, and at least five shaft frame holes are coupled to the right side of the shaft. A main blade coupled to the shaft and providing a shaft frame configured to be coupled; Forming at least five auxiliary wing frame holes configured to be coupled to the left side of the main blade, providing auxiliary wing frames configured to be coupled to the auxiliary wing frame holes, and one auxiliary upper and lower ends respectively coupled to the auxiliary wing frame; Forming a wing hole, providing an auxiliary wing configured to be coupled to the auxiliary wing hole, providing at least one front wing configured to be coupled by giving an angle of 15 ° or more in the right rearward direction to the right side of the auxiliary wing, and the front wing Forming an upper housing configured to be coupled to an upper end, and forming a wing of a "∪" shape configured to be coupled at a ratio of 1 (horizontal): 6 (length) vertically below the upper housing, and forming a wing of the "∪" shape It provides a lower wing coupled to the bottom housing is coupled to the bottom, provides a noise prevention device coupled to the right side of the rear wing,

The shaft wing and the rear wing and the front wing and the auxiliary wing and the auxiliary wing frame configured to be coupled to the shaft and the shaft and the shaft blade and the cable and the shaft frame are configured to be coupled to the covering 5 or more shaft frame holes configured to be coupled to the main blade configured to be coupled to the right side of the shaft and at least 5 auxiliary wing frame holes configured to be coupled to the left side of the main blade using bolts and nuts, and the upper right side of the shaft It is characterized in that the combination consisting of the auxiliary wing hole is configured to be coupled to the upper and lower ends of the right side of the cable and the main wing coupled to the bottom.

In addition, the shaft blade of the "∪" shape that is coupled behind the shaft forms a left frame formed by coupling the grooves of the "∪" shape to the "∪" type flat plate, and "∪" is configured to be coupled to the right side of the left frame. Form a wing of the cross-section, forming a right frame formed by coupling the grooves of the "∪" shape to the "∪" shaped plate that is configured to be coupled to the right side of the "∪" shape wings, "∪" configured in the left frame The shaft is coupled to the center of the end of the "shaped groove" and the center of the wing of the "∪" shape formed on the right frame and the center of the wing of the "∪" form the horizontally arranged.

In addition, the main blade is formed on the left side of the five or more auxiliary wing frame holes are coupled to form, the auxiliary wing frame hole is coupled to the auxiliary wing frame is configured, and the upper and lower ends are coupled to the auxiliary wing frame, respectively Forming one auxiliary wing hole, forming an auxiliary wing coupled to the auxiliary wing hole, and forming at least one front wing configured to be coupled by giving an angle of 15 ° or more in the right rearward direction to the right side of the auxiliary wing, Form an upper housing coupled to the top of the front wing, and forms a wing of the "∪" shape that is configured to be coupled in a ratio of 1 (horizontal): 6 (vertical) vertically below the upper housing, the "∪" A lower wing is formed at the bottom of the wing, and a rear wing is formed to be coupled, and a noise prevention device is coupled to the right side of the rear wing. .

The present invention relates to a wind turbine of the vertical axis type to have a maximum generating capacity even if the cover and the shaft and the main wing as a component of the rotor is configured to a minimum, the rotor has a rotational force at a low wind speed and high acceleration It has an effect, the rotor has the effect of obtaining a rotational force in any height and direction in accordance with the difference in the direction of the wind direction, even if only the three main blades coupled to the rotor can obtain the rotational force due to the shaft blades There is an effect, by combining the front wing in front of the rear wing has the effect of increasing the centrifugal force by using the wind direction blowing from the front from the main wing itself, and has the effect of preventing noise generated when the rotating body rotates New renewable energy industry by producing electrical energy using wind direction. It will bring a very useful effect.

The present invention will now be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a vertical wind power generator of the present invention, Figure 2 is an exploded perspective view showing a vertical wind power generator of the present invention, Figure 3 is a cross-sectional view showing a vertical wind power generator of the present invention. 4 is a front view showing a vertical wind turbine generator of the present invention, Figure 5 is a perspective view showing the main wing of the vertical wind turbine generator of the present invention. Figure 6 is a perspective view showing another embodiment of the wind turbine of the vertical axis type of the present invention.

As shown in Figures 1 to 6 the present invention is a component of the wind power generator as one of the covering 20 is configured to be coupled to the central shaft 10 is coupled to the generator 200, the shaft blade 40 And the main shaft 60 is configured to combine the three shafts 30 and the cable 50, the auxiliary wing 61 and the front wing 68 and the rear wing 69 and the noise suppression device 70 Combining configuration to form a rotating body 100 to maximize the rotational force of the rotating body 100 by the wind direction to the wind turbine generator 1 of the vertical axis type to obtain electrical energy while the generator 200 is generated As,

A rotating body (100) which forms a central axis (10) in the form of a vertical axis which is configured to be coupled to the generator (200), and which is configured to be coupled to the central axis (10); The rotating body 100 is provided with the one covering 20, three shafts 30 are configured to be coupled to the covering (20); A shaft wing 40 having a “∪” shape coupled to the shaft 30 is provided, and a ring 31 coupled to an upper / lower left side of the shaft 30 is formed, and the ring 31 is formed. A left cable 50-a coupled to the left cable 50-a, a turn buckle 51 coupled to the left cable 50-a, and a right cable 50-b on the right side of the turn buckle 51. This coupling configuration provides a cable 50, forms five or more shaft frame holes 33 configured to be coupled to the right side of the shaft 30, and the shaft frame configured to be coupled to the five or more shaft frame holes 33 ( 32, a main blade (60) configured to be coupled to the right side of the shaft (30); Forming at least five auxiliary wing frame holes 64 coupled to the left side of the main wing 60, providing the auxiliary wing frame 63 is coupled to the auxiliary wing frame hole 64, the auxiliary wing frame One auxiliary wing hole 62 is formed at the upper and lower ends coupled to the 63, and the auxiliary wing 61 is coupled to the auxiliary wing hole 62. The auxiliary wing 61 is provided. On the right side of the right back direction to provide an angle of at least 15 ° to provide one or more front wings 68 are configured to be coupled, to form a top housing 65 is coupled to the top of the front wing 68, the top housing (65) Form a wing (67) of the "∪" shape that is configured to be combined at a ratio of 1 (horizontal): 6 (length) vertically below the bottom, and the lower housing ( 66 provides a rear wing 69 is configured to be coupled, and is configured to be coupled to the right side of the rear wing 69 Well provide protection device 70,

Shaft wing 40 and the cable 50 and the shaft frame 32 coupled to the cover 20 is configured to combine the shaft 30 and the noise prevention device 70 is coupled to the shaft 30 and 5 or more shaft frame holes configured to combine the main wing 60 formed by combining the rear wing 69, the front wing 61, the auxiliary wing 61 and the auxiliary wing frame 32 to the right side of the shaft 30 ( 33) and at least five auxiliary wing frame holes 64 coupled to the left side of the main blade 60 by using a bolt 90 and a nut 80, and the upper and lower ends of the shaft 30 on the right side. The auxiliary cable hole (62) configured to be coupled to the upper and lower ends of the right cable (50-b) and the left side of the main blade (60) is coupled to be configured.

Shaft wing 40 in the form of "형태" that is coupled behind the shaft 30 forms a left frame 44 in which the groove 46 of the "결합" shape is coupled to the flat plate 45 of the "∪" shape, , A horizontally formed wing 41 of the "∪" shape configured to be coupled to the right side of the left frame 44, and a flat plate of the "∪" shape configured to be coupled to the right side of the "∪" shaped wing 41 ( 47 to form a right frame 42 formed by coupling the grooves 48 having the shape of ", ", and the center end of the grooves 46 having the shape of " " The shaft 30 is formed by combining the center portion of the wing 41 of the "∪" shape and the central end of the groove 48 of the "의" shape formed in the right frame 42.

The main wing 60 forms at least five auxiliary wing frame holes 64 coupled to the left side, the auxiliary wing frame 63 coupled to the auxiliary wing frame holes 64, and the auxiliary wing One auxiliary wing hole 62 is formed at the upper and lower ends of the frame 63, and the auxiliary wing 61 is formed to be coupled to the auxiliary wing hole 62, and the auxiliary wing 61 is formed. 1 or more front wings 68 are formed to be coupled to each other by giving an angle of 15 ° or more in the right rearward direction to the right side, and the upper housing 65 is formed to be coupled to the top of the front wings 68, and the top A lower housing is formed under the housing 65 at a lower portion of the wing 67 having a "∪" shape, which is configured to be coupled at a ratio of 1 (horizontal): 6 (length) vertically and above. Forming the back wing 69 is configured to combine 66, the noise prevention device 7 on the right side of the back wing 69 It is characterized by the combination consisting of 0).

Looking at the effect of the vertical axis type wind turbine of the present invention configured as described above are as follows.

When the cover 20 is coupled to the upper and lower ends of the wind turbine of the general vertical axis form by combining only one covering 20 to the central axis 10 of the vertical axis form that is coupled to the generator 200 There is an effect of reducing the dispersion of the force generated differently, since the weight of the main blade 60 is configured to be coupled to the right side of the shaft 30 by configuring only one covering 20 is coupled to the rotating body 100 There is an effect that the acceleration is increased during rotation, by combining only three shafts (30-a, 30-b, 30-c) to the covering 20, the main blade 60 is the fatigue during rotation due to the wind direction There is an effect that can be lowered, by combining the shaft blades (40-a, 40-b, 40c) of the "∪" type to each of the three shafts (30-a, 30-b, 30-c) Coupling configuration spacing of the three main wings 60-a, 60-b, 60-c when the length of the shaft 30 is long The wind cover blowing away from the gap between the main wings 60, which are generated at a time away from the main wings 60, 60-a, 60-b or 60-b, 60-c or 60-a, 60-c. In the simple function of connecting the 20 and the main wing 60 has the effect of increasing the function of the shaft 30, forming the auxiliary wing 61 is configured to be coupled to the shaft wing 40 right, By combining the main blade 60 of the curved shape on the right side of the auxiliary wing 61, the wind direction pushes the inside of the wing 60 has the effect that the rotating body 100 can be rotated, the main blade 60 The back side 65 of the back wing 69 is configured in a curved form has the effect of reducing the resistance of the back side 65 of the main wing 60 caused by the wind direction blowing from the front, the main wing By forming the front wing (68) formed in the (60), the wind direction blowing from the front to the main wing (60) There is an effect of increasing the centrifugal force while hitting the right side of the rear wing 69, the noise prevention wing 70 is coupled to the right side of the front wing 68 is generated when the rotating body 100 is rotated. There is an effect that the noise prevention wing 70 to reduce the noise that is going out of the rotating body (100). Three shafts 30-a, 30-b, and 30-c which are coupled to the only covering 20 are formed, and the ring 31 coupled to the upper and lower ends of the shaft 30 is formed. And a left cable 50-a coupled to the ring 31, a turn buckle 51 coupled to the left cable 50-a, and a right side of the turn buckle 51. The right cable (50-b) is coupled to provide the cable 50, by assembling the main blade (60) to the shaft 30 in order to correct the balance due to the weight of the main blade (60) Since it is difficult to assemble and install the whole 100, the shaft is formed by adjusting the left cable 50-a and the right cable 50-b, which are coupled to the cable 50, with the turnbuckle 51. There is a convenient effect in balance and assembly in the coupling configuration of the main blade 60 to 30, the grain on the right side of the shaft 30 Forming five or more shaft frame holes 33, and providing a shaft frame 32 is configured to be coupled to the five or more shaft frame holes 33, five or more auxiliary wings are configured to be coupled to the shaft frame 32 Forming the frame hole 64, and providing the auxiliary wing frame 63, which is configured to be coupled to the auxiliary wing frame hole 64, the wind turbine of the general vertical axis type is a rotating body of the shaft and the main blade combined on the ground To combine the configuration on the tower 300, as a problem generated at this time to raise the rotating body to the tower 300 to combine the configuration and when the problem occurs when the entire rotor is to be taken down from the tower 300 Since there is a difficulty, the shaft 30 and the main wing 60, respectively, the shaft frame 32 and the auxiliary wing frame 63 are combined and configured using the bolt 90 and the nut 80 to the shaft By constructing a prefabricated form that combines the lamination hole 33 and the auxiliary wing frame hole 64, only the problem-producing area when the problem occurs without difficulty in the coupling configuration of the rotating body 100 to the tower 300 There is an effect that can be quickly resolved by disassembling, forming one auxiliary wing hole 62 in the upper and lower ends coupled to the auxiliary wing frame 63, and coupled to the auxiliary wing hole 62 By providing the auxiliary wing 61 constituting, the main wing 60 is curved in the form of a flat plate shape of the auxiliary wing frame 63 and the shaft frame 30 while having difficulty in the coupling configuration of the main wing 60 And the cable 50 has a difficulty in connection configuration by providing the auxiliary wing 61 coupled to the main blade 60 in the form of a flat plate to the auxiliary wing 61 and the auxiliary wing frame 63 and 1 each at the top and bottom The coupling configuration of the auxiliary wing hole 62 has a convenient effect, the coupling configuration of the auxiliary wing frame 63 and the shaft frame 30 has a convenient effect, the cable 50 and the auxiliary wing hole 62. The combination of the configuration has a convenient effect.

The shaft blade 40 is composed of the wing 41 of the "∪" shape horizontally by using the wind direction as the main wing 60 while the wind direction blowing from the front is compressed in the wing "41" type. There is an effect of rotating the rotating body 100, the wing 41 of the "∪" shape by the left and right frame (44, 42) configured to be coupled to the left and right of the "∪" shaped wing 41 ), While the wind direction compressed in the inside does not fall to the left and right sides, the wing 41 of the "∪" shape is effective in increasing propulsion while falling in the opposite direction of rotation when rotating, and the "∪" configured in the left frame 44. The shaft 30 is formed at the center end of the groove 46 of the form 46 and the center end of the wing 41 of the form " ∪ " The shaft blade 40 is stably coupled to the shaft 30 by configuring the coupling There are effects that can kill.

Form the auxiliary wing 61 is configured to be coupled to the right side of the auxiliary wing frame 63, the rear wing 69 by combining the configuration on the right side of the auxiliary wing 61 in the form of the rear wing 69 Even though the curved shape has an effect that can be configured to be securely coupled to the shaft 30, the rear wing 69 to the "67" type wing 67, the upper housing 65 and the lower housing Combining the configuration of the 66 to the wind direction blowing from the front of the "∪" shaped wing 67 is compressed to the inside without falling out of the "∪" shaped wing 67 has the effect of pushing back, the back By forming the wing 69 in a ratio of 1 (width): 6 (length) or more, the wind speed can be easily utilized by the "high altitude change table of the wind direction", and the back of the "67" type wing 67 Curved shape minimizes resistance due to wind blowing The front wing (68-a, 68-b, 68-a) by forming at least one front wing (68) that is configured to give an angle of more than 15 ° to the right in front of the rear wing (69). c) is given an angle of more than 15 ° to the right to increase the centrifugal force while the wind direction blowing from the front while hitting the right side of the rear wing (69) while maximizing the centrifugal force when the rotor 100 rotates When the rotor 100 rotates by the wind direction, the wind direction compressed in the three main wings (60-a, 60-b, 60-c) comes out in the opposite direction of rotation and the wind direction blowing from the front Noise caused by the friction and noise generated while the rotating body 100 rotates to generate a variety of problems by combining the anti-noise wing 70 on the right side of the main wing 60 to reduce the noise There is.

As described above, the present invention has been described with reference to the embodiments in the drawings, but this is only an example, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1 is a perspective view showing a wind turbine of the vertical axis type of the present invention.

Figure 2 is an exploded perspective view showing a wind turbine of the vertical axis type of the present invention.

Figure 3 is a sectional view showing a wind turbine of the vertical axis type of the present invention.

Figure 4 is a front view showing a wind turbine of the vertical axis type of the present invention.

Figure 5 is a perspective view of the main blade of the wind turbine of the vertical axis type of the present invention.

Figure 6 is a perspective view showing another embodiment of the wind turbine of the vertical axis type of the present invention.

Claims (3)

The wind turbine is composed of one covering, which is coupled to the central shaft that is coupled to the generator, three shafts that are coupled to the shaft blades and cables, and auxiliary wings, front wings, rear wings, and noise suppressors. It relates to a wind turbine of the vertical axis form by combining the main blades to form a rotating body to maximize the rotational force of the rotating body by the wind direction to obtain electrical energy while generating the generator, A rotational body configured to form a central axis in the form of a vertical axis coupled to the generator and coupled to the central axis; The rotating body may include three shafts providing the one covering and coupled to the covering; Providing a shaft blade of a "∪" shape coupled to the rear of the shaft, forming a ring 31 coupled to the upper and lower ends of the shaft, forming a left cable coupled to the ring, and forming the left side of the shaft. Forming a turnbuckle coupled to the cable, the right cable is coupled to the right side of the turnbuckle to provide a cable, forming at least five shaft frame holes are coupled to the right side of the shaft, coupled to the five or more shaft frame holes A main blade configured to provide a shaft frame configured to be coupled to the right side of the shaft; Forming at least five auxiliary wing frame holes configured to be coupled to the left side of the main blade, providing auxiliary wing frames configured to be coupled to the auxiliary wing frame holes, and one auxiliary upper and lower ends respectively coupled to the auxiliary wing frame; Forming a wing hole, providing auxiliary wings configured to be coupled to the auxiliary wing holes, and providing one or more front wings configured to be coupled to each other by giving an angle of 15 ° or more in the right rearward direction on the right side of the auxiliary wing, and the front wing Forming an upper housing configured to be coupled to an upper end, and forming a wing of a "∪" shape configured to be coupled at a ratio of 1 (horizontal): 6 (length) vertically below the upper housing, and forming a wing of the "∪" shape It provides a lower wing coupled to the bottom housing is coupled to the bottom, provides a noise prevention device coupled to the right side of the rear wing, The shaft wing and the rear wing and the front wing and the auxiliary wing and the auxiliary wing frame configured to be coupled to the shaft and the shaft and the shaft blade and the cable and the shaft frame are configured to be coupled to the covering 5 or more shaft frame holes configured to be coupled to the main blade configured to be coupled to the right side of the shaft and at least 5 auxiliary wing frame holes configured to be coupled to the left side of the main blade using bolts and nuts, and the upper right side of the shaft Wind turbines of the vertical axis type, characterized in that the coupling consisting of the right wing is coupled to the bottom and the auxiliary wing hole coupled to the upper and lower ends of the left side of the main blade. The method of claim 1, Shaft wing of "∪" shape that is coupled behind the shaft forms a left frame formed by coupling the groove of the "∪" shape to the plate of "형태" shape, and "∪" type that is coupled to the right side of the left frame. A right side frame is formed horizontally, and a right side frame in which a "∪" shape groove is coupled to a "∪" shape plate that is configured to be coupled to the right side of the "∪" shape wing forms a "∪" shape configured in the left frame. Wind turbine of the vertical axis type, characterized in that the shaft is coupled to the center of the end of the groove and the center of the blade of the "놓" form the horizontal frame and the "놓" type formed in the right frame. The method of claim 1, The main wing forms at least five auxiliary wing frame holes coupled to the left side, and forms an auxiliary wing frame coupled to the auxiliary wing frame holes, and each one of the upper and lower ends coupled to the auxiliary wing frame. Forming auxiliary wing holes, forming auxiliary wings coupled to the auxiliary wing holes, and forming at least one front wing configured to be coupled to each other by giving an angle of 15 ° or more in the right rearward direction on the right side of the auxiliary wing; The upper housing is coupled to the upper end of the wing, and the upper and lower housings of the "∪" shape is configured to be coupled in a ratio of 1 (horizontal): 6 (vertical) vertically, and the "∪" type The rear wing is formed at the bottom of the wing is combined with the lower housing, and the noise suppression device is formed on the right side of the rear wing is configured vertically The form of a wind power generator.

Images