초록 ▼

A vertical-axis wind power generator having adjustable-angle rotating blades is provided, which can maximize generation efficiency through angle adjustment of rotating blades for upper and lower support arms. The vertical-axis wind power generator having adjustable-angle rotating blades is configure

A vertical-axis wind power generator having adjustable-angle rotating blades is provided, which can maximize generation efficiency through angle adjustment of rotating blades for upper and lower support arms. The vertical-axis wind power generator having adjustable-angle rotating blades is configured such that a rotation angle range, in which forward-rotation wind power is applied to the rotating blades, can be maximized and a rotation angle range, in which reverse-rotation wind power is applied to the rotating blades, can be minimized through angle adjustment of the rotating blades so as to apply maximum forward-rotation wind power to the rotating blades and to apply minimum reverse-rotation wind power thereto, and through angle adjustment of the rotating blades so as to generate forward rotation even by reverse-rotation wind power in a partial angle range.

대표청구항 ▼

1. A vertical-axis wind power generator having adjustable-angle rotating blades comprising: a main shaft vertically extending;a support arm box having upper and lower support arms that are coupled to the main shaft to be spaced apart from each other;a rotating blade having a center shaft that is rot

1. A vertical-axis wind power generator having adjustable-angle rotating blades comprising: a main shaft vertically extending;a support arm box having upper and lower support arms that are coupled to the main shaft to be spaced apart from each other;a rotating blade having a center shaft that is rotatably coupled to the upper and lower support arms of the support arm box;upper and lower support arms for a wind direction key respectively coupled to upper and lower positions of the support arm box of the main shaft;a wind direction key coupled through the upper and lower support arms for the wind direction key;first angle adjustment means installed between the lower support arm of the support arm box and the lower support arm for the wind direction key to make the rotating blade coincide with a wind direction by rotating the rotating blade against the upper and lower support arms at the same angle in a clockwise direction when the support arm box is rotated in an angle range of 45° to 135° in a counterclockwise direction and to make the rotating blade vertical to the wind direction by rotating the rotating blade against the upper and lower support arms at the same angle in the clockwise direction when the support arm box is rotated in an angle range of 225° to 315° in the counterclockwise direction;a second angle adjustment means installed between the lower support arm of the support arm box and the lower support arm for the wind direction key to maintain the angle of the rotating blade against the upper and lower support arms in an angle state of 135° when the support arm box is rotated in an angle range of 135° to 225° in the counterclockwise direction; anda third angle adjustment means installed between the lower support arm of the support arm box and the lower support arm for the wind direction key to maintain the angle of the rotating blade against the upper and lower support arms in an angle state of 315° when the support arm box is rotated in an angle range of 315° to 45° in the counterclockwise direction. 2. The vertical-axis wind power generator of claim 1, wherein the first angle adjustment means comprises: a ring gear installed around the main shaft on the lower support arm for the wind direction key and provided with inner gear teeth that are formed in the angle range of 45° to 135° and in the angle range of 225° to 315′;a gear shaft rotatably installed on the lower support arm of the support arm box;a spur gear integrally fixed to the gear shaft, positioned inside the ring gear, and selectively engaged with the inner gear teeth;a first transmission gear integrally fixed to the gear shaft;a second transmission gear installed on the center shaft of the rotating blade; anda transmission chain transmission-connecting the first and second transmission gears to transfer rotation of the gear shaft to the center shaft of the rotating blade. 3. The vertical-axis wind power generator of claim 2, wherein the first angle adjustment means further comprises: a rugby ball type cam fixedly installed on an upper portion of the spur gear on the gear shaft; anda circular arc type cam guide installed in a pre-sitting position of the inner gear teeth inside the ring gear and coupled to the rugby ball type cam',wherein the inner gear teeth of the ring gear and the spur gear are accurately engaged with each other at the angle positions of 45° and 225° . 4. The vertical-axis wind power generator of claim 1, wherein the first angle adjustment means comprises: a center bevel gear installed around the main shaft on the lower support arm for the wind direction key and provided with bevel gear teeth that are formed on an upper surface of the center bevel gear in the angle range of 45° to 135° and in the angle range of 225° to 315° in the counterclockwise direction;a blade shaft bevel gear installed on the center shaft of the rotating blade; anda transmission bevel gear shaft rotatably installed in a horizontal direction on a lower surface of the lower support arm and having both ends at which first and second transmission bevel gears that are respectively engaged with the center bevel gear and the blade shaft bevel gear are installed. 5. The vertical-axis wind power generator of claim 4, wherein the first angle adjustment means further comprises: a circular arc type cam guide installed on an outside in a radius direction of the center bevel gear on the lower support arm for the wind direction key and formed in a predetermined angle range just before the angle positions of 45° and 225° ; anda rectangular rounding cam installed on the transmission bevel gear shaft and coupled to the circular arc type cam guide, wherein the bevel gear teeth of the center bevel gear and the first transmission bevel gear of the transmission bevel gear shaft are accurately engaged with each other at the angle positions of 45° and 225° . 6. The vertical-axis wind power generator of claim 1, wherein a lower end of the center shaft of the rotating blade extends downward to penetrate the lower support arm. 7. The vertical-axis wind power generator of any one of claims 5, wherein the second angle adjustment means comprises: a circular arc type cam controller fixed to the lower support arm for the wind direction key, installed around the main shaft, and formed in an angle range of 135° to 225° in the counterclockwise direction; anda rugby ball type cam fixedly installed on a lower side of the center shaft of the rotating blade and engaged with an inner surface of the circular arc type cam controller. 8. The vertical-axis wind power generator of claim 7, wherein the third angle adjustment means comprises: a circular arc type cam controller fixed to the lower support arm for the wind direction key, installed around the main shaft, and formed in an angle range of 315° to 45° in the counterclockwise direction; anda rugby ball type cam fixedly installed on the lower side of the center shaft of the rotating blade and engaged with the inner surface of the circular arc type cam controller. 9. The vertical-axis wind power generator of claim 8, wherein rolling wheels are installed in a center and at both ends of the rugby ball type cam of the second angle adjustment means and the rugby ball type cam of the third angle adjustment means to reduce friction. 10. A vertical-axis wind power generator having adjustable-angle rotating blades comprising: a main shaft vertically extending;a support arm box having upper and lower support arms that are coupled to the main shaft to be spaced apart from each other;a rotating blade having a center shaft that is rotatably coupled to the upper and lower support arms of the support arm box;upper and lower support arms for a wind direction key respectively coupled to upper and lower positions of the support arm box of the main shaft;a wind direction key coupled through the upper and lower support arms for the wind direction key; anda single angle adjustment means installed between the lower support arm of the support arm box and the lower support arm for the wind direction key or between the upper support arm of the support arm box and the upper support arm for the wind direction key to make the rotating blade coincide with a wind direction when the support arm box is rotated in an angle range of 45° to 135° in a counterclockwise direction, to maintain the angle of the rotating blade against the upper and lower support arms in an angle state of 135° when the support arm box is rotated in an angle range of 135° to 225° in the counterclockwise direction, to make the rotating blade vertical to the wind direction when the support arm box is rotated in an angle range of 225° to 315° in the counterclockwise direction, and to maintain the angle of the rotating blade against the upper and lower support arms in an angle state of 315° when the support arm box is rotated in an angle range of 315° to 45° in the counterclockwise direction. 11. The vertical-axis wind power generator of claim 10, wherein the single angle adjustment means comprises: a main control bar installed on the center shaft of the rotating blade that projects to a lower portion of the lower support arm of the support arm box or an upper portion of the upper support arm of the support arm box;horizontal bearings engaged with both end portions of the main control bar; anda main bearing traveling guide plate fixed to the lower support arm for the wind direction key to form a traveling path of the horizontal bearings through an outer circumference thereof and a traveling path of the horizontal bearings through an inner closed curve line that communicates with the outer circumference at an angle position of 90° in the counterclockwise direction,wherein the main bearing traveling guide plate forces the horizontal bearing positioned on an outside based on an angle position of 270° in the counterclockwise direction to travel along the outer circumference in the counterclockwise direction around the main shaft to enter into the inner closed curve line, and forces the horizontal bearing positioned on an inside based on the angle position of 270° in the counterclockwise direction to travel along the inner closed curve line in the counterclockwise direction around the main shaft to secede from the inner closed curve line and to travel along the outer circumference. 12. The vertical-axis wind power generator of claim 11, wherein the single angle adjustment means further comprises: an auxiliary control bar vertically extending from the main control bar;auxiliary horizontal bearings engaged with both sides of the auxiliary control bar; andan inner auxiliary bearing traveling guide plate installed on the bearing traveling guide plate from an angle position of 270° in a radius direction to guide the auxiliary horizontal bearings so that the rotating blade is prevented from being rotated in the counterclockwise direction at the angle position of 270° . 13. The vertical-axis wind power generator of claim 11, wherein the single angle adjustment means further comprises an outer auxiliary bearing traveling guide plate fixed to one side of the main bearing traveling guide plate on the lower support arm for the wind direction key or the upper support arm for the wind direction key to force traveling of the horizontal bearing positioned on an outer side on the bases of an angle position of 270° in the counterclockwise direction so that the horizontal bearing positioned on the inside on the basis of the angle position of 270° in the counterclockwise direction secedes from the inner closed curve line of the main bearing traveling guide plate and travels along the outer circumference. 14. The vertical-axis wind power generator of claim 1 or 10, wherein the rotating blade comprises: a blade frame;a horizontal rotating shaft installed to be spaced apart from the blade frame;a wind gate integrally installed on the horizontal rotating shaft; anda wind gate opening/closing means installed on the blade frame to open/close the wind gate through rotation of the horizontal rotating shaft. 15. The vertical-axis wind power generator of claim 14, wherein the wind gate opening/closing means comprises: a driving motor installed on the blade frame;a driving gear interlocking with the driving motor;a driving gear shaft integrally installed with the driving gear, rotatably installed on the blade frame, and integrally installed with a first transmission gear;a second transmission gear integrally installed on an end portion of the horizontal rotating shaft; anda transmission chain transmission-connecting the first and second transmission gears. 16. The vertical-axis wind power generator of claim 1, further comprising a power supply means provided on the main shaft and the center shaft of the rotating blade. 17. The vertical-axis wind power generator of claim 10, wherein the rotating blade comprises: a blade frame;a horizontal rotating shaft installed to be spaced apart from the blade frame;a wind gate integrally installed on the horizontal rotating shaft; anda wind gate opening/closing means installed on the blade frame to open/close the wind gate through rotation of the horizontal rotating shaft. 18. The vertical-axis wind power generator of claim 10, further comprising a power supply means provided on the main shaft and the center shaft of the rotating blade.