FR2902842A3 - WIND TURBINE. - Google Patents

Abstract

A wind turbine according to the present invention has a pole (10), a rail (20) mounted on the pole (10) and a set of blades (30) rotatably mounted on an upper portion of the pole (10). The blade assembly (30) comprises a plurality of blades (33) formed radially around a base (31). Each blade (33) has a plurality of vents, a fin (341) and a plurality of relief valves. The fin (341) is controllably mounted to open or close the vents to adjust a wind force applied to the blades (33). The relief valves are pivotally mounted to selectively cover valve holes formed through the blades (33) to mitigate the wind resistance force applied to the blades (33). As a result, the wind turbine can operate in both a turbulent airflow and a low wind force without breaking.

Description

WIND TURBINE

  The present invention relates to a generator, and more particularly, to a wind turbine that operates at low wind speeds, in turbulent air flows and that does not break at high wind speeds. Wind turbines are machines for converting wind kinetic energy into electricity and are developed in various types to suit different situations. A wind turbine includes a pole, a set of blades and a generator. The post is mounted vertically.

  The generator is mounted on the pole to generate electricity. The blade assembly is rotatably mounted on the generator and is rotated horizontally by the wind to allow the generator to operate.

  However, such wind turbines suffer from a pulsating torque produced during each revolution and their efficiency is reduced by the drag created when the blades turn against the wind. Wind turbines are also not suitable for installation in high locations, which means they must operate at lower wind speeds near the ground, causing discomfort and leading to energy extraction efficiency. weaker. To overcome these disadvantages, the present invention provides a wind turbine to avoid or reduce the aforementioned problems. The main object of the present invention is to provide a wind turbine which can operate in any turbulent or slow air flow condition. Another object of the present invention is to provide a wind turbine which has a set of blades which automatically balance the blade loads of the blade assembly to prevent the wind turbine from being damaged. The present invention therefore relates to a wind turbine, characterized in that it comprises: a pole having an upper portion and at least two support bars attached perpendicularly diametrically near the upper portion of the pole; a rail which is annular and mounted on the support bars of the post; a set of blades which is rotatably mounted on the top of the post, having a base which is an open container and having a bottom opening which is rotatably mounted around the top of the post and having a surface internal and several internal teeth formed around the inner surface of the bottom opening; a bearing which is mounted in the bottom opening of the base and the top of the post to facilitate rotation of the base; and a plurality of blades projecting radially from the base at an angle and each blade having a control wing having a distal end, a luff edge, a luff surface, a drop surface, a plurality of vents which are formed through the control wing and a plurality of fins which are pivotally mounted on the luff surface, respectively corresponding to and controllably covering the vents, and each fin having a drop surface and a plurality of valve holes formed through the fin; a fixed wing mounted along the luff edge of the control wing at an angle and having a distal end, a luff surface, a drop surface, a drop edge and a plurality of valve holes which are separately formed at through the fixed wing; and a plurality of discharge valves that are pivotally mounted to and fall on the falling surfaces of the ailerons and the fixed wing and selectively overlapping the valve holes of the fins and the fixed wing; a shoring assembly comprising - a plurality of bars which are securely mounted on the upper portion of the base to form an apex; and 20 - several winches which are securely mounted in the top of the bars and respectively corresponding to the blades of the blade assembly, and - each winch having a wire connected to the distal end of the blade control wing Correspondingly and controllably pulling the corresponding blade; and a generator assembly comprising a translator which is securely mounted on the pole near the top of the pole and which has a rotatable gear wheel engaging with the internal teeth of the pole. bottom opening of the base and rotating simultaneously with the set of blades to recover the kinetic energy of the wind; - a generator that is securely mounted on the pole and is capable of converting kinetic energy into electricity; and at least one transmission pipe connecting the translator to the generator and transmitting the kinetic energy of the translator to the generator for conversion.

  The fixed wing of each blade may furthermore have several telescopic struts which are pivotally mounted on the falling surface of the fixed wing and respectively corresponding to the fins, and each telescopic strut having an axis connected to a corresponding and opening wing 15. or controllably closing the corresponding flap. The fixed wing of each blade may further have: a wheel support which is securely mounted on the falling edge proximate the distal end of the fixed wing and corresponding to the rail; and a wheel which is rotatably mounted in the wheel support to facilitate rotation of the blade assembly and stabilize it. Each blade may further have a load balancing device comprising: a detector which is mounted in the wheel support of the blade and detects a load on the blade wheel a rail which is securely mounted on the surface drop of the fixed wing of the blade; A weight which is slidably mounted on the rail; and a threaded rod which is rotatably mounted on the rail and through the weight, and which is controlled by the sensor to rotate and thereby adjust the weight position on the rail. The wind turbine according to the present invention may further have an acceleration motor which is securely mounted near the top of the pole and having an active gear engaging with the inner teeth of the bottom opening of the pole. base to help the rotation of the set of blades. The post can be tubular.

  The base can be cylindrical. The set of blades may comprise four blades. Other objects, advantages and novel features of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

On the drawings:

  Figure 1 is a perspective view of a wind turbine according to the present invention;

  - Figure 2 is a top view of the wind turbine of Figure 1;

  Figure 3 is an exploded perspective view of the wind turbine of Figure 1;

  Figure 4 is an enlarged exploded perspective view of a blade assembly of the wind turbine of Figure 1; Figure 5 is an enlarged perspective view of the blade assembly of the wind turbine of Figure 1; Figure 6 is a partial sectional side view of the wind turbine of Figure 1;

  Figure 7 is an operational side view of the blade assembly of Figure 5, which is driven by a high velocity wind;

  Figure 8 is an operational side view of the blade assembly of Figure 5, which is pushed by a low speed wind; and

  Figure 9 is an operational side view of the blade assembly of Figure 1 moving against an air flow. With reference to Figures 1, 2 and 3, it can be seen that the wind turbine according to the present invention comprises a pole 10, a rail 20, a set of blades 30, a shoring assembly 40, a set generator 60 and an optional acceleration motor 70. The post 10 may be tubular, it is securely installed on a surface of a building, a floor or the like, and has an upper portion and at least two bars. 11 The rail 20 is annular and is mounted on the support bars 11 of the post 10. The set of blades 30 is rotatably mounted on the support portion 11 of the post 10. upper pole 10, it is pushed by the wind to rotate relative to the pole 10 and has a base 31, a bearing 32 and several blades 33.

  Referring also to Figure 6, it can be seen that the base 31 is an open container, that it can be cylindrical and that it has a bottom opening 310. The bottom opening 310 is mounted rotatively about the upper portion of the post 10 and has an inner surface and a plurality of inner teeth 311 formed around the inner surface of the bottom opening 310. The bearing 32 is mounted in the bottom opening 310 of the base 31 and on the upper part of the post 10 10 to facilitate the rotation of the base 31. With reference also to FIG. 5, it can be seen that the blades 33 protrude radially from the base 31 to a predetermined angle to each other, and that each blade 33 has a control wing 34, a fixed wing 35, a plurality of discharge valves 36 and a load balancer 50. A preferred embodiment comprises four The control wing 34 has a distal end, a luff ridge, luff surface, drop surface, several vents 340 and a plurality of fins 341. Vents 340 are formed through control wing 34. Flaps 341 are pivotally mounted on the luff surface, and correspond to and controllably open or close the vents 340 to adjust the resistance of the corresponding blade 33. Each fin 341 has a drop surface and a plurality of valve holes 342 formed through the fin 341. The fixed wing 35 is mounted along the luff edge of the control wing 34 at a predetermined angle 30 and has a distal end, luff surface, drop surface, drop edge, several valve holes 350, several telescopic braces 351, a wheel support 352 and a wheel 353.

  The valve holes 350 are formed separately through the second flange 35. The telescopic struts 351 are pivotally mounted on the falling surface of the fixed wing 35 and each telescopic strut 351 has an axis connected to the corresponding wing 341 and controllably opens or closes the corresponding fin 341 of the corresponding vent 340 of the control wing 34. The wheel support 352 is securely mounted on the drop edge proximate the distal end of the fixed wing 35 and corresponds to the rail 20. The wheel 353 is rotatably mounted in the wheel support 352 to facilitate the rotation of the set of blades 30 and stabilize it. The relief valves 36 are pivotally mounted on the falling surfaces of the fins 341 and the fixed wing 35, and correspond to and selectively cover the valve holes 342, 350. Referring also to Figures 8 and 9, it can be seen that, when the wind direction is in conflict with the rotation of the blade assembly 30, the relief valves 36 open the valve holes 342, 350 of the fins 341 and the wing fixed 35 to reduce wind resistance. Otherwise, when the wind direction is in accordance with the rotation of the blade assembly 30, the relief valves 36 close the valve holes 342, 350 of the fins 341 to increase the force of the wind applying to the blades 33. Each load balancing device 50 comprises a detector 51 and a rail 52, a weight 521 and a threaded rod 522, and is mounted on each corresponding blade 33. The sensor 51 is mounted in the wheel support 352 and detects the load. of the wheel 353.

  The rail 52 is securely mounted on the falling surface of the fixed wing 35 of the blade 33. The weight 521 is movably mounted on the rail 520. The threaded rod 522 is rotatably mounted on the rail 520 and through the weight 521, and is controlled by the sensor 51 to turn and thereby adjust the weight position 521 on the rail 520 to balance the loads on the wheels 353 of all the blades 33. The shoring assembly 40 comprises several bars 41 and several winches 42. The bars 41 are mounted securely on the upper part of the base 31 and form a vertex. The winches 42 are securely mounted at the top of the bars 41 and respectively correspond to the blades 33 of the blade assembly 30, and each winch 42 has a wire 420 connected to the distal end of the control wing 34 of the blade. corresponding blade 33 and controllably pulls the corresponding blade. Therefore, the distal ends of the blades 33 of the blade assembly 30 are supported to maintain an equal load on the wheels 353. The generator assembly 60 includes a translator 61, a generator 62 and at least one transmission pipe 63 The translator 61 is securely mounted on the post 10 near the top of the post 10 and has a rotatable gearwheel 610 engaged with the inner teeth 311 of the bottom opening 310 of the base 31 and rotates simultaneously with the set of blades 30 to recover the kinetic energy of the wind. Generator 62 is securely mounted on post 10 and is capable of converting kinetic energy into electricity. The transmission pipe 63 connects the translator 61 to the generator 62 and can use the oil pressure to transmit the energy from the translator 61 to the generator 62. The acceleration motor 70 is securely mounted near the top of the generator. 10 and has an active gear 71 engaged with the inner teeth 311 of the bottom opening 310 of the base 31, so as to assist the rotation of the set of blades 30 when the wind speed is too low. As a result, the wind turbine according to the present invention is less likely to break due to the pulsating torque produced during each revolution and the drag created when the blade 33 rotates against the wind. The wind turbine is stably installed at locations with severe air turbulence or slow airflow, and has a high energy extraction efficiency.

Claims (8)

  1 - Wind turbine, characterized in that it comprises: a pole (10) having an upper part and at least two support bars (11) attached perpendicularly diametrically close to the upper part of the pole (10); a rail (20) which is annular and mounted on the support bars (11) of the post (10); a blade assembly (30) which is rotatably mounted on the upper portion of the post (10), having a base (31) which is an open container and having a bottom opening (310) which is rotatably mounted around the upper portion of the post (10) and having an inner surface and a plurality of inner teeth (311) formed around the inner surface of the bottom opening (310); a bearing (32) which is mounted in the bottom opening (310) of the base (31) and on the upper portion of the post (10) to facilitate rotation of the base (31); and a plurality of blades (33) protruding radially from the base (31) at an angle and each blade (33) having a control wing (34) having a distal end, a luff edge, a luff surface, a falling surface, a plurality of vents (340) which are formed through the control wing (34) and a plurality of fins (341) which are pivotally mounted on the luff surface respectively corresponding to and controllably covering the vents ( 340), and each fin (341) having a falling surface; and a plurality of valve holes (342) formed through the fin (341); a fixed wing (35) mounted along the luff edge of the control wing (34) at an angle and having a distal end, a luff surface, a drop surface, a drop edge and a plurality of valve holes (350) which are separately formed through the fixed wing (35); and a plurality of discharge valves (36) pivotally mounted on and / or on the falling surfaces of the fins (341) and the fixed wing (35) and selectively covering the valve holes (342) (350). ) fins (341) and fixed wing (35); a shoring assembly (40) comprising a plurality of bars (41) which are securely mounted on the upper portion of the base (31) to form an apex; and - a plurality of winches (42) which are securely mounted in the top of the bars (41) and respectively corresponding to the blades (33) of the blade assembly (30), and - each winch (42) having a wire ( 420) connected to the distal end of the control wing (34) of the corresponding blade (33) and controllably pulling the corresponding blade (33); and a generator assembly (60) comprising - a translator (61) securely mounted on the post (10), near the top of the post (10), and having a gear wheel (610). ) rotatable, engaging with the inner teeth (311) of the bottom opening (310) of the base (31) and simultaneously rotating with the set of blades (30) to recover the kinetic energy of the wind; - a generator (62) which is securely mounted on the pole (10) and which is capable of converting kinetic energy into electricity; and at least one transmission pipe (63) connecting the translator (61) to the generator (62) and transmitting the kinetic energy of the translator (61) to the generator (62) for conversion.   2 - Wind turbine according to claim 1, characterized in that the fixed wing (35) of each blade (33) further has several telescopic struts (351) which are pivotally mounted on the falling surface of the fixed wing (35) and respectively corresponding to the fins (341), and each telescopic brace (351) having an axis connected to a corresponding flap (341) and controllably opening or closing the corresponding flap (341).   3 - Wind turbine according to claim 2, characterized in that the fixed wing (35) of each blade (33) further has: - a wheel support (352) which is mounted securely on the edge of fall near the distal end of the fixed wing (35) and corresponding to the rail (20); and a wheel (353) which is rotatably mounted in the wheel support (352) to facilitate rotation and stabilization of the blade assembly (30).   4 - Wind turbine according to claim 3, characterized in that each blade (33) further has a load balancing device (50) comprising: - a detector (51) which is mounted in the wheel support (352 ) of the blade (33) and detecting a load on the wheel (353) of the blade (33), a rail (52) which is securely mounted on the falling surface of the fixed wing (35) of the blade (33). blade (33); a weight (521) which is slidably mounted on the rail (52); and a threaded rod (522) which is rotatably mounted on the rail (52) and through the weight (521), and which is controlled by the sensor (51) to rotate and thereby adjust the weight position ( 521) on the rail (52). Wind turbine according to claim 1, characterized in that it further has an acceleration motor (70) which is securely mounted near the top of the pole (10) and having an active gear (71). engaging with the inner teeth (311) of the bottom opening (310) of the base (31) to assist rotation of the blade assembly (30). 6 - Wind turbine according to claim 1, characterized in that the pole (10) is tubular. 7 - Wind turbine according to claim 1, characterized in that the base (31) is cylindrical. 8 - Wind turbine according to claim 1, characterized in that the set of blades (30) comprises four blades (33).