Method of wind-collecting power generation and its equipment
First Claim
1. A wind power accumulating power generating method used in a power generating system including at least one power generating tower;
- at least one wind turbine device being located on the at least one power generating tower;
a wind-collecting device and a power generator;
comprising the steps of;
annularly arranging each of the at least one wind turbine device around the at least one power generating tower;
the axis of the wind turbine device which perpendicularly to the ground being collinearly to the power generating tower; and
guiding and accumulating wind power by wind-collecting device or the power generating tower for enhancing torques applied to the wind turbine device and speed of airflow so that the wind turbine device installed on the power generating tower to rotate rapidly; and
thus driving the power generator to generate electric power.
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Accused Products
Abstract
A wind-collecting device of the power generation tower is used to guide and accumulate airflow. The guiding device is used to minish air resistance acted on the wind wheel that is against the wind. The wind-collecting device can be moved, rotated or shape-changed, and its inlet transverse section area is greater than the outlet one, so strong airflow can still be generated at the outlet to drive the wind wheel on the power generation tower under puny natural airflow. One kind of the power generation tower is fixed type; the other one can be moved from one place to another. The axis of the tower is perpendicular to the ground. The tower has a rotating curved surface or a cylindrical surface, and the electric power is generated by the rotation of couples of or wind wheels installed flatly on the tower.
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Citations
158 Claims
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1. A wind power accumulating power generating method used in a power generating system including at least one power generating tower;
- at least one wind turbine device being located on the at least one power generating tower;
a wind-collecting device and a power generator;
comprising the steps of;
annularly arranging each of the at least one wind turbine device around the at least one power generating tower;
the axis of the wind turbine device which perpendicularly to the ground being collinearly to the power generating tower; and
guiding and accumulating wind power by wind-collecting device or the power generating tower for enhancing torques applied to the wind turbine device and speed of airflow so that the wind turbine device installed on the power generating tower to rotate rapidly; and
thus driving the power generator to generate electric power. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 103, 104)
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2. The wind power accumulating power generating method as claimed in claim 1, wherein a supporting system is used to support at least one of the wind-collecting device and the at least one power generating tower;
- the supporting system has a tail device;
wind power applied to the tail device rotates the supporting system so that the wind-collecting device or the power generating tower has a preferred location for accumulating wind power.
- the supporting system has a tail device;
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3. The wind power accumulating power generating method as claimed in claim 1, wherein there are two power generating towers, a first power generating tower and a second power generating tower;
- each power generating tower has a wind turbine device and a power generator;
the wind turbine device is pivotally installed to a respective power generating tower;
the power generator is installed to the respective wind turbine device and the power generating tower;
when the wind turbine device rotate, induction current is induced;
a net distance between the two power generators is not over twice of the diameter of each wind turbine;
a funnel shape air flow channel is formed between the two power generating towers so that the two power generating towers have a function of accumulating wind power as a virtual wind-collecting device;
the wind turbine devices on the two power generating towers are arranged symmetrically at two sides of the two power generating towers;
when the windturbines are blown by airflow, the wind turbines rotate clockwise or counterclockwise with the direction of airflow so that the power generators generate current by magnetic induction.
- each power generating tower has a wind turbine device and a power generator;
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4. The wind power accumulating power generating method as claimed in claim 3, wherein the first power generating tower is fixed motionlessly and the second power generating tower has a movable base for changing the speed of airflow between the two power generating towers and control the power generation of the power generator by the wind power.
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5. The wind power accumulating power generating method as claimed in claim 2, wherein there are two power generating towers, a first power generating tower and a second power generating tower;
- each power generating tower has a wind turbine device and a power generator;
the wind turbine device is pivotally installed to a respective power generating tower;
the power generator is installed to the respective wind turbine device and the power generating tower;
when the wind turbine device rotate, induction current is induced;
a net distance between the two power generators is not over twice of the diameter of each wind turbine;
a funnel shape air flow channel is formed between the two power generating towers so that the two power generating towers have a function of accumulating wind power as a virtual wind-collecting device;
the wind turbine devices on the two power generating towers are arranged symmetrically at two sides of the two power generating towers;
when the wind turbines are blown by airflow, the wind turbines rotate clockwise or counterclockwise with the direction of airflow so that the power generators generate current by magnetic induction.
- each power generating tower has a wind turbine device and a power generator;
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6. The wind power accumulating power generating method as claimed in claim 5, wherein the first power generating tower is fixed motionlessly and the second power generating tower has a movable base for changing the speed of airflow between the two power generating towers and control the power generation of the power generator by the wind power.
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7. The wind power accumulating power generating method as claimed in claim 1, wherein a airflow inlet cross section of the wind-collecting device is larger than a airflow outlet of the wind-collecting device;
- the wind turbine device is pivotally installed on the power generating tower;
the power generator is installed on the wind turbine device and power generating tower respectively;
when the wind turbines rotate, current will be induced;
the power generating tower is installed at a wind outlet of the wind-collecting device;
the wind turbine devices are driven by wind from a wind outlet of the wind-collecting device.
- the wind turbine device is pivotally installed on the power generating tower;
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8. The wind power accumulating power generating method as claimed in claim 2, wherein a airflow inlet cross section of the wind-collecting device is larger than a airflow outlet cross section of the wind wind-collecting device;
- the wind turbine device is pivotally installed on the power generating tower;
the power generator is installed on the wind turbine device and power generating tower respectively;
when the wind turbines rotate, current will be induced;
the power generating tower is installed at a outlet of the wind-collecting device;
the wind turbines are driven by wind from a wind outlet of the wind-collecting device.
- the wind turbine device is pivotally installed on the power generating tower;
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9. The wind power accumulating power generating method as claimed in claim 3, wherein a airflow inlet cross section of the wind-collecting device is larger than a airflow outlet cross section of the wind wind-collecting device for accumulating wind power;
- the wind-collecting device is installed in front of the wind blowing side of the two power generating towers so that the wind outlet of the wind-collecting device is near the wind inlet of the funnel shape airflow channel for increasing the ability of accumulating wind power.
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10. The wind power accumulating power generating method as claimed in claim 4, wherein a airflow inlet cross section of the wind-collecting device is larger than a airflow outlet cross section of the wind wind-collecting device for accumulating wind power;
- the wind-collecting device is installed in front of the wind blowing side of the two power generating towers so that the wind outlet of the wind-collecting device is near the wind inlet of the funnel shape airflow channel for increasing the ability of accumulating wind power.
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11. The wind power accumulating power generating method as claimed in claim 5, wherein a airflow inlet cross section of the wind-collecting device is larger than a airflow outlet cross section of the wind wind-collecting device for accumulating wind power;
- the wind-collecting device is installed in front of the wind blowing side of the two power generating towers so that the wind outlet of the wind-collecting device is near the wind inlet of the funnel shape airflow channel for increasing the ability of accumulating wind power.
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12. The wind power accumulating power generating method as claimed in claim 6, wherein an airflow inlet cross section of the wind-collecting device is larger than a airflow outlet cross section of the wind wind-collecting device for accumulating wind power;
- the wind-collecting device is installed in front of the wind blowing side of the two power generating towers so that the wind outlet of the wind-collecting device is near the wind inlet of the funnel shape airflow channel for increasing the ability of accumulating wind power.
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13. The wind power accumulating power generating method as claimed in claim 7, wherein the speed of airflow at a wind outlet of the wind-collecting device is controllable for controlling the power output of the wind power generator.
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14. The wind power accumulating power generating method as claimed in claim 8, wherein the speed of airflow at a wind outlet of the wind-collecting device is controllable for controlling the power output of the wind power generator.
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15. The wind power accumulating power generating method as claimed in claim 9, wherein the speed of airflow at a wind outlet of the wind-collecting device is controllable for controlling the power output of the wind power generator.
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16. The wind power accumulating power generating method as claimed in claim 10, wherein the speed of airflow at a wind outlet of the wind-collecting device is controllable for controlling the power output of the wind power generator.
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17. The wind power accumulating power generating method as claimed in claim 11, wherein the speed of airflow at a wind outlet of the wind-collecting device is controllable for controlling the power output of the wind power generator.
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18. The wind power accumulating power generating method as claimed in claim 12, wherein the speed of airflow at a wind outlet of the wind-collecting device is controllable for controlling the power output of the wind power generator.
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19. The wind power accumulating power generating method as claimed in claim 2, further comprising a flow guide device for guiding airflow and shielding airflow of the wind turbine device for reducing air resistances of areas resisting the rotation of the wind turbine device when the wind turbine device rotates.
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20. The wind power accumulating power generating method as claimed in claim 3, further comprising a flow guide device for guiding airflow and shielding airflow of the wind turbine device for reducing air resistances of areas resisting the rotation of the wind turbine device when the wind turbine device rotates.
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21. The wind power accumulating power generating method as claimed in claim 4, further comprising a flow guide device for guiding airflow and shielding airflow of the wind turbine device for reducing air resistances of areas resisting the rotation of the wind turbine device when the wind turbine device rotates.
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22. The wind power accumulating power generating method as claimed in claim 5, further comprising a flow guide device for guiding airflow and shielding airflow of the wind turbine device for reducing air resistances of areas resisting the rotation of the wind turbine device when the wind turbine device rotates.
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23. The wind power accumulating power generating method as claimed in claim 6, further comprising a flow guide device for guiding airflow and shielding airflow of the wind turbine device for reducing air resistances of areas resisting the rotation of the wind turbine device when the wind turbine device rotates.
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24. The wind power accumulating power generating method as claimed in claim 2, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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25. The wind power accumulating power generating method as claimed in claim 3, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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26. The wind power accumulating power generating method as claimed in claim 4, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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27. The wind power accumulating power generating method as claimed in claim 5, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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28. The wind power accumulating power generating method as claimed in claim 6, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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29. The wind power accumulating power generating method as claimed in claim 7, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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30. The wind power accumulating power generating method as claimed in claim 8, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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31. The wind power accumulating power generating method as claimed in claim 9, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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32. The wind power accumulating power generating method as claimed in claim 10, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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33. The wind power accumulating power generating method as claimed in claim 11, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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34. The wind power accumulating power generating method as claimed in claim 12, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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35. The wind power accumulating power generating method as claimed in claim 13, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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36. The wind power accumulating power generating method as claimed in claim 14, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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37. The wind power accumulating power generating method as claimed in claim 15, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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38. The wind power accumulating power generating method as claimed in claim 16, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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39. The wind power accumulating power generating method as claimed in claim 17, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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40. The wind power accumulating power generating method as claimed in claim 18, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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41. The wind power accumulating power generating method as claimed in claim 19, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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42. The wind power accumulating power generating method as claimed in claim 20, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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43. The wind power accumulating power generating method as claimed in claim 21, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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44. The wind power accumulating power generating method as claimed in claim 22, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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45. The wind power accumulating power generating method as claimed in claim 23, wherein there is at least two groups;
- each group contains at least one power generator;
wind turbine device and wind-collecting device;
different groups contain same configuration or different configurations.
- each group contains at least one power generator;
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46. The wind power accumulating power generating method as claimed in claim 13, wherein the direction for accumulating wind power by the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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47. The wind power accumulating power generating method as claimed in claim 14, wherein the direction for accumulating wind power by the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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48. The wind power accumulating power generating method as claimed in claim 15, wherein the direction for accumulating wind power by the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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49. The wind power accumulating power generating method as claimed in claim 16, wherein the direction for accumulating wind power by the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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50. The wind power accumulating power generating method as claimed in claim 17, wherein the direction for accumulating wind power by the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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51. The wind power accumulating power generating method as claimed in claim 18, wherein the direction for accumulating wind power by the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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52. The wind power accumulating power generating method as claimed in claim 13, wherein an airflow inlet cross section of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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53. The wind power accumulating power generating method as claimed in claim 14, wherein an airflow inlet cross section of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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54. The wind power accumulating power generating method as claimed in claim 15, wherein an airflow inlet cross section of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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55. The wind power accumulating power generating method as claimed in claim 16, wherein an airflow inlet cross section of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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56. The wind power accumulating power generating method as claimed in claim 17, wherein an airflow inlet cross section of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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57. The wind power accumulating power generating method as claimed in claim 18, wherein an airflow inlet cross section of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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58. The wind power accumulating power generating method as claimed in claim 13, wherein a shape of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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59. The wind power accumulating power generating method as claimed in claim 14, wherein a shape of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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60. The wind power accumulating power generating method as claimed in claim 15, wherein a shape of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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61. The wind power accumulating power generating method as claimed in claim 16, wherein a shape of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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62. The wind power accumulating power generating method as claimed in claim 17, wherein a shape of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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63. The wind power accumulating power generating method as claimed in claim 18, wherein a shape of the wind-collecting device is changed for controlling the speed of airflow at wind outlet of the wind-collecting device so as to control the power generation of the power generator.
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64. The wind power accumulating power generating method as claimed in claim 1, wherein the power generator contains a coil induction unit and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the wind turbine device moves relative to the power generating tower so that the coil induction unit cuts through the magnetic field so that magnetic flux of the loop induction unit changes to induce current.
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65. The wind power accumulating power generating method as claimed in claim 2, wherein the power generator contains a coil induction unit and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the wind turbine device moves relative to the power generating tower so that the coil induction unit cuts through the magnetic field so that magnetic flux of the coil induction unit changes to induce current.
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66. The wind power accumulating power generating method as claimed in claim 3, wherein the power generator contains a coil induction unit and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the wind turbine device moves relative to the power generating tower so that the coil induction unit cuts through the magnetic field so that magnetic flux of the coil induction unit changes to induce current.
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67. The wind power accumulating power generating method as claimed in claim 4, wherein the power generator contains a coil induction unit and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the wind turbine device moves relative to the power generating tower so that the coil induction unit cuts through the magnetic field so that magnetic flux of the coil induction unit changes to induce current.
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68. The wind power accumulating power generating method as claimed in claim 5, wherein the power generator contains a coil induction unit and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the wind turbine device moves relative to the power generating tower so that the coil induction unit cuts through the magnetic field so that magnetic flux of the coil induction unit changes to induce current.
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69. The wind power accumulating power generating method as claimed in claim 6, wherein the power generator contains a coil induction unit and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the wind turbine device moves relative to the power generating tower so that the coil induction unit cuts through the magnetic field so that magnetic flux of the coil induction unit changes to induce current.
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70. The wind power accumulating power generating method as claimed in claim 7, wherein the power generator contains a coil induction unit and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the wind turbine device moves relative to the power generating tower so that the coil induction unit cuts through the magnetic field so that magnetic flux of the coil induction unit changes to induce current.
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71. The wind power accumulating power generating method as claimed in claim 8, wherein the power generator contains a coil induction unit and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the wind turbine device moves relative to the power generating tower so that the coil induction unit cuts through the magnetic field so that magnetic flux of the coil induction unit changes to induce current.
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72. The wind power accumulating power generating method as claimed in claim 1, wherein the power generator contains a coil induction unit having a magnetic conduct core with an induction end and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the magnetic poles of the magnetic pole set approach to the induction end of the coil induction unit alternatively so that magnetic flux passing through the magnetic conduct core of a coil induction unit changes alternatively so as to induce current.
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73. The wind power accumulating power generating method as claimed in claim 2, wherein the power generator contains a coil induction unit having a magnetic conduct core with an induction end and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the magnetic poles of the magnetic pole set approach to the induction end of the coil induction unit alternatively so that magnetic flux passing through the magnetic conduct core of a coil induction unit changes alternatively so as to induce current.
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74. The wind power accumulating power generating method as claimed in claim 3, wherein the power generator contains a coil induction unit having a magnetic conduct core with an induction end and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the magnetic poles of the magnetic pole set approach to the induction end of the coil induction unit alternatively so that magnetic flux passing through the magnetic conduct core of a coil induction unit changes alternatively so as to induce current.
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75. The wind power accumulating power generating method as claimed in claim 4, wherein the power generator contains a coil induction unit having a magnetic conduct core with an induction end and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the magnetic poles of the magnetic pole set approach to the induction end of the coil induction unit alternatively so that magnetic flux passing through the magnetic conduct core of a coil induction unit changes alternatively so as to induce current.
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76. The wind power accumulating power generating method as claimed in claim 5, wherein the power generator contains a coil induction unit having a magnetic conduct core with an induction end and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the magnetic poles of the magnetic pole set approach to the induction end of the coil induction unit alternatively so that magnetic flux passing through the magnetic conduct core of a coil induction unit changes alternatively so as to induce current.
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77. The wind power accumulating power generating method as claimed in claim 6, wherein the power generator contains a coil induction unit having a magnetic conduct core with an induction end and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the magnetic poles of the magnetic pole set approach to the induction end of the coil induction unit alternatively so that magnetic flux passing through the magnetic conduct core of a coil induction unit changes alternatively so as to induce current.
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78. The wind power accumulating power generating method as claimed in claim 7, wherein the power generator contains a coil induction unit having a magnetic conduct core with an induction end and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the magnetic poles of the magnetic pole set approach to the induction end of the coil induction unit alternatively so that magnetic flux passing through the magnetic conduct core of a coil induction unit changes alternatively so as to induce current.
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79. The wind power accumulating power generating method as claimed in claim 8, wherein the power generator contains a coil induction unit having a magnetic conduct core with an induction end and a magnetic pole set which are installed on the power generating tower and the wind turbine device, respectively, when the wind turbine device rotates, the magnetic poles of the magnetic pole set approach to the induction end of the coil induction unit alternatively so that magnetic flux passing through the magnetic conduct core of a coil induction unit changes alternatively so as to induce current.
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80. The wind power accumulating power generating method as claimed in claim 7, wherein airflow at the wind outlet of the wind-collecting device flows along a tangent direction of the wind turbine device to blow to the wind turbine device so that the wind turbine device rotates.
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81. The wind power accumulating power generating method as claimed in claim 8, wherein airflow at the wind outlet of the wind-collecting device flows along a tangent direction of the wind turbine device to blow to the wind turbine device so that the wind turbine device rotates.
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82. The wind power accumulating power generating method as claimed in claim 9, wherein airflow at the wind outlet of the wind-collecting device flows along a tangent direction of the wind turbine device to blow to the wind turbine device so that the wind turbine device rotates.
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83. The wind power accumulating power generating method as claimed in claim 10, wherein airflow at the wind outlet of the wind-collecting device flows along a tangent direction of the wind turbine device to blow to the wind turbine device so that the wind turbine device rotates.
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84. The wind power accumulating power generating method as claimed in claim 11, wherein airflow at the wind outlet of the wind-collecting device flows along a tangent direction of the wind turbine device to blow to the wind turbine device so that the wind turbine device rotates.
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85. The wind power accumulating power generating method as claimed in claim 12, wherein airflow at the wind outlet of the wind-collecting device flows along a tangent direction of the wind turbine device to blow to the wind turbine device so that the wind turbine device rotates.
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86. The wind power accumulating power generating method as claimed in claim 7, wherein at least one cross section of the wind outlet of the wind-collecting device is formed as a trumpet reduced airflow channel.
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87. The wind power accumulating power generating method as claimed in claim 8, wherein at least one cross section of the wind outlet of the wind-collecting device is formed as a trumpet reduced airflow channel.
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88. The wind power accumulating power generating method as claimed in claim 9, wherein at least one cross section of the wind outlet of the wind-collecting device is formed as a trumpet reduced airflow channel.
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89. The wind power accumulating power generating method as claimed in claim 10, wherein at least one cross section of the wind outlet of the wind-collecting device is formed as a trumpet reduced airflow channel.
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90. The wind power accumulating power generating method as claimed in claim 11, wherein at least one cross section of the wind outlet of the wind-collecting device is formed as a trumpet reduced airflow channel.
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91. The wind power accumulating power generating method as claimed in claim 12, wherein at least one cross section of the wind outlet of the wind-collecting device is formed as a trumpet reduced airflow channel.
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92. The wind power accumulating power generating method as claimed in claim 3, wherein airflow at the wind outlet of the wind-collecting device flows along a tangent direction of the wind turbine device to blow to the wind turbine device so that the wind turbine device rotates.
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93. The wind power accumulating power generating method as claimed in claim 4, wherein airflow at the wind outlet of the wind-collecting device flows along a tangent direction of the wind turbine device to blow to the wind turbine device so that the wind turbine device rotates.
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94. The wind power accumulating power generating method as claimed in claim 3, wherein at least one cross section of the funnel shape airflow channel is formed as a trumpet reduced airflow channel.
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95. The wind power accumulating power generating method as claimed in claim 5, wherein at least one cross section of the funnel shape airflow channel is formed as a trumpet reduced airflow channel.
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96. The wind power accumulating power generating method as claimed in claim 3, wherein the supporting device between two power generating towers serves for adjusting a distance of the two power generating towers.
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97. The wind power accumulating power generating method as claimed in claim 5, wherein the supporting device between two power generating towers serves for adjusting a distance of the two power generating towers.
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103. The wind turbine device as claimed in claim 92, wherein the wind power reflector has a shape selected from one of a bullet type with a tail end which has a semispherical concave hole, a concave plate, a curved vane, a concave semi-cone shape, a concave pyramid-shape shell, a concave cone-shape shell, a dome-shape shell, a semi-cylindrical shape, a curved shell shape, a angle-shape plate, and a spiral-shape;
- a concave surface of the wind power reflector faces the airflow; and
a back side of the wind power reflector has a needle or a taper tip.
- a concave surface of the wind power reflector faces the airflow; and
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104. The wind turbine device as claimed in claim 93, wherein The wind power reflector has a shape selected from one of a bullet type with a tail end which has a semispherical concave hole, a concave plate, a curved vane, a concave semi-cone shape, a concave pyramid-shape shell, a concave cone-shape shell, a dome-shape shell, a semi-cylindrical shape, a curved shell shape, a angle-shape plate, and a spiral-shape;
- a concave surface of the wind power reflector faces the airflow; and
a back side of the wind power reflector has a needle or a taper tip.
- a concave surface of the wind power reflector faces the airflow; and
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2. The wind power accumulating power generating method as claimed in claim 1, wherein a supporting system is used to support at least one of the wind-collecting device and the at least one power generating tower;
- at least one wind turbine device being located on the at least one power generating tower;
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98. A wind turbine device used in a wind power accumulating power generating device comprising at least one wind turbine;
- at least one annular beam for fixing and supporting the wind turbine device;
a plurality of supporting wheels below the first annular beam; and
at least one annular track for supporting the first annular beam;
wherein each wind turbine having a plurality of spoon-like devices which are annually arranged with a radiate configuration on a power generating tower;
each spoon has a supporting rod;
a free end of each spoon has a wind power reflector and another end of the spoon is pivotally installed to the power generating tower. - View Dependent Claims (99, 100, 101, 102)
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99. The wind turbine device as claimed in claim 98, further comprising at least one second annular beam for fixing and supporting the wind turbine device;
- and brake devices are installed below the second annular beam.
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100. The wind turbine device as claimed in claim 98, further comprising a dust-proof device fixed to an outer ring of the wind turbine device.
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101. The wind turbine device as claimed in claim 98, wherein a diameter of the wind turbine device is D, a size of the wind reflector device of wind turbine in the radius direction is d, a speed ratio of the wind turbine is Ns, then D/d=(30˜
- 90)/Ns, Ns is between 2-6, Ns is a ratio of the wind speed to the tangent speed of the wind turbine.
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102. The wind turbine device as claimed in claim 98, wherein each wind reflector has two cups;
- an airflow jet reflect angle to the input airflow is between 120 degrees to 180 degrees; and
a back side of the wind power reflector has a needle or a taper tip.
- an airflow jet reflect angle to the input airflow is between 120 degrees to 180 degrees; and
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99. The wind turbine device as claimed in claim 98, further comprising at least one second annular beam for fixing and supporting the wind turbine device;
- at least one annular beam for fixing and supporting the wind turbine device;
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105. A power generating tower used in a wind power accumulating power generating device comprising at least one wind turbine device;
- at least one tower structure of the power generating tower and at least one power generator;
the wind turbine device has a plurality of wind power reflectors which are sequentially and longitudinally arranged on the tower structure;
each wind turbine device is horizontally arranged along the tower structure;
each wind turbine rotates independently;
each power generator includes a magnetic pole set and a coil induction unit;
when the wind turbine rotates, the coil induction unit is induced by the magnetic pole set so as to induce current. - View Dependent Claims (106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158)
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106. The power generating tower as claimed in claim 105, wherein a bottom of the tower body is a surface of revolution having a shape selected from one of a cylindrical shape, a revolution parabolic shape;
- and a revolution hyperbolic shape.
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107. The power generating tower as claimed in claim 105, further comprising at least one arch roof with a lighting arrester.
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108. The power generator as claimed in claim 105, further comprising a elevator inside the tower structure.
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109. The power generating tower as claimed in claim 105, further comprising a supporting system having a tail wing for change positions for supporting and installing the tower structure.
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110. The power generating tower as claimed in claim 105, further comprising at least one wind-collecting device;
- the power generating tower is installed at a wind outlet of the wind-collecting device;
airflow at a wind outlet is applied to the wind power reflectors of the wind turbine device along a tangent direction of the wind turbine device so as to drive the wind turbines to rotate rapidly so that the power generator generates induced current.
- the power generating tower is installed at a wind outlet of the wind-collecting device;
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111. The power generating tower as claimed in claim 110, wherein the wind-collecting device has a movable base for adjusting a direction of accumulating wind power.
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112. The power generating tower as claimed in claim 111, further comprising at least one control system for controlling the movable base and adjusting wind-collecting direction.
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113. The power generating tower as claimed in claim 110, further comprising at least one control system for performing one of adjusting a cross section of a wind inlet of the wind-collecting device;
- adjusting a cross section of a wind outlet and changing shape of the wind-collecting device.
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114. The power generating tower claimed in claim 105, further comprising at least one flow guide device for guiding airflow and cover part of airflow blowing to the wind turbine device so as to reduce the air resistance which reduce the rotation speed of the wind turbine device.
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115. The power generating tower as claimed in claim 105, wherein there are two tower structures;
- a net distance between the two tower structures is not over two times of a diameter of the tower structures;
a funnel shape air flow channel is formed between the two power generating towers so that the two power generating towers have a function of accumulating wind power as a virtual wind-collecting device.
- a net distance between the two tower structures is not over two times of a diameter of the tower structures;
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116. The power generating tower as claimed in claim 109, wherein there are two tower structures;
- a net distance between the two tower structures is not over two times of a diameter of the tower structures;
a funnel shape air flow channel is formed between the two power generating towers so that the two power generating towers have a function of accumulating wind power as a virtual wind-collecting device.
- a net distance between the two tower structures is not over two times of a diameter of the tower structures;
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117. The power generating tower as claimed in claim 115, further comprising at least one supporting device between the two tower structure for resisting the Magnus pressure force of the tower structures due to the high speed airflow between the two tower structures.
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118. The power generating tower as claimed in claim 116, further comprising at least one supporting device between the two tower structure for resisting the Magnus pressure force of the tower structures due to the high speed airflow between the two tower structures.
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119. The power generating tower as claimed in claim 117, wherein the length of the supporting device is adjustable for change the distance between the two power generating towers.
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120. The power generating tower as claimed in claim 118, wherein the length of the supporting device is adjustable for change the distance between the two power generating towers.
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121. The power generating tower as claimed in claim 117, further comprising a movable base for bearing one of the two power generating towers so as to change the distance and direction of the two power generating towers.
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122. The power generating tower as claimed in claim 118, further comprising a movable base for bearing one of the two power generating towers so as to change the distance and direction of the two power generating towers.
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123. The power generating tower as claimed in claim 119, further comprising a movable base for bearing one of the two power generating towers so as to change the distance and direction of the two power generating towers.
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124. The power generating tower as claimed in claim 120, further comprising a movable base for bearing one of the two power generating towers so as to change the distance and direction of the two power generating towers.
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125. The power generating tower as claimed in claim 105, wherein a net distance between the two power generating towers is not over two times of diameter of a power generating tower;
- a funnel shape air flow channel is formed between the two power generating towers so that the two power generating towers have a function of accumulating wind power as a virtual wind-collecting device.
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126. The power generating tower as claimed in claim 110, wherein a net distance between the two power generating towers is not over two times of diameter of a power generating tower;
- a funnel shape air flow channel is formed between the two power generating towers so that the two power generating towers have a function of accumulating wind power as a virtual wind-collecting device.
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127. The power generating tower as claimed in claim 109, wherein the tail is one of a vertical plate, a wing shape or a sail shape.
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128. The power generating tower as claimed in claim 127, further comprising a horizontal stable wing attached to the tail.
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129. The power generating tower as claimed in claim 105, wherein the wind turbine has a cylinder shape and an outer edge of the wind turbine has wind power reflectors;
- when wind applied to the wind power reflectors, the wind turbine will be forced to rotate; and
the power generator induces current.
- when wind applied to the wind power reflectors, the wind turbine will be forced to rotate; and
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130. The power generating tower as claimed in claim 109, wherein the wind turbine has a cylinder shape and an outer edge of the wind turbine has wind power reflectors;
- when wind applied to the wind power reflectors, the wind turbine will be forced to rotate; and
the power generator induces current.
- when wind applied to the wind power reflectors, the wind turbine will be forced to rotate; and
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131. The power generating tower as claimed in claim 105, wherein the wind turbine device includes at least one wind turbine, each wind turbine has a plurality of spoon which are annually arranged with a radiate configuration on a power generating tower;
- each spoon has a supporting beam;
a free end of each spoon has a wind power reflector;
at least one annular beam for fixing the spoons and supporting the wind turbine device;
a plurality of supporting wheels are installed below the first annular beam; and
at least one annular track for supporting the first annular beam.
- each spoon has a supporting beam;
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132. The power generating tower as claimed in claim 109, wherein the wind turbine device includes at least one wind turbine, each wind turbine has a plurality of spoons which are annually arranged with a radiate configuration on a power generating tower;
- each spoon has a supporting beam;
a free end of each spoon has a wind power reflector;
at least one annular beam for fixing the spoons and supporting the wind turbine device;
a plurality of supporting wheels are installed below the first annular beam; and
at least one annular track for supporting the first annular beam.
- each spoon has a supporting beam;
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133. The power generating tower as claimed in claim 105, further comprising a transfer device for transferring torque force for rotating the wind turbine device to the power generator.
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134. The power generating tower as claimed in claim 109, further comprising a transfer device for transferring torque force for rotating the wind turbine device to the power generator.
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135. The power generating tower as claimed in claim 105, wherein the magnetic pole set and the coil induction unit are installed to the tower body and wind turbine device, respectively.
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136. The power generating tower as claimed in claim 109, wherein the magnetic pole set and the coil induction unit are installed to the tower body and wind turbine device, respectively.
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137. The power generating tower as claimed in claim 129, wherein the wind power reflector has a shape selected from one of a bullet type with a tail end which has a semispherical concave hole, a concave plate, a curved vane, a concave semi-cone shape, a concave pyramid-shape shell, a concave cone-shape shell, a dome-shape shell, a semi-cylindrical shape, a curved shell shape, a angle-shape plate, and a spiral-shape.
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138. The power generating tower as claimed in claim 130, wherein the wind power reflector has a shape selected from one of a bullet type with a tail end which has a semispherical concave hole, a concave plate, a curved vane, a concave semi-cone shape, a concave pyramid-shape shell, a concave cone-shape shell, a dome-shape shell, a semi-cylindrical shape, a curved shell shape, a angle-shape plate, and a spiral-shape.
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139. The power generating tower as claimed in claim 131, wherein the wind power reflector has a shape selected from one of a bullet type with a tail end which has a semispherical concave hole, a concave plate, a curved vane, a concave semi-cone shape, a concave pyramid-shape shell, a concave cone-shape shell, a dome-shape shell, a semi-cylindrical shape, a curved shell shape, a angle-shape plate, and a spiral-shape.
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140. The power generating tower as claimed in claim 131, wherein the wind power reflector has a shape selected from one of a bullet type with a tail end which has a semispherical concave hole, a concave plate, a curved vane, a concave semi-cone shape, a concave pyramid-shape shell, a concave cone-shape shell, a dome-shape shell, a semi-cylindrical shape, a curved shell shape, a angle-shape plate, and a spiral-shape.
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141. The power generating tower as claimed in claim 137, wherein wind power reflector has a head and a tail;
- the head is smooth and faces to the tangent direction along the rotation surface of the wind turbine device.
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142. The power generating tower as claimed in claim 138, wherein wind power reflector has a head and a tail;
- the head is smooth and faces to the tangent direction along the rotation surface of the wind turbine device.
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143. The power generating tower as claimed in claim 139, wherein wind power reflector has a head and a tail;
- the head is smooth and faces to the tangent direction along the rotation surface of the wind turbine device.
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144. The power generating tower as claimed in claim 140, wherein wind power reflector has a head and a tail;
- the head is smooth and faces to the tangent direction along the rotation surface of the wind turbine device.
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145. The power generating tower as claimed in claim 137, wherein the head of the wind power reflector has an air resistance coefficient smaller than the 0.4 times of the air resistance coefficient of the tail of the wind power reflector when the tail is applied by airflow jet.
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146. The power generating tower as claimed in claim 138, wherein the head of the wind power reflector has an air resistance coefficient smaller than the 0.4 times of the air resistance coefficient of the tail of the wind power reflector when the tail is applied by airflow jet.
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147. The power generating tower as claimed in claim 139, wherein the head of the wind power reflector has an air resistance coefficient smaller than the 0.4 times of the air resistance coefficient of the tail of the wind power reflector when the tail is applied by airflow jet.
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148. The power generating tower as claimed in claim 140, wherein the head of the wind power reflector has an air resistance coefficient smaller than the 0.4 times of the air resistance coefficient of the tail of the wind power reflector when the tail is applied by airflow jet.
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149. The power generating tower as claimed in claim 145, wherein a tail of the wind power reflector has a smooth concave hole or concave groove.
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150. The power generating tower as claimed in claim 146, wherein a tail of the wind power reflector has a smooth concave hole or concave groove.
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151. The power generating tower as claimed in claim 147, wherein a tail of the wind power reflector has. a smooth concave hole or concave groove.
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152. The power generating tower as claimed in claim 148, wherein a tail of the wind power reflector has a smooth concave hole or concave groove.
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153. The power generating tower as claimed in claim 129, wherein the supporting device of the wind power reflector has a shape selected from one of a wheel shape, disk shape, or cylindrical shape.
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154. The power generating tower as claimed in claim 130, wherein the supporting device of the wind power reflector has a shape selected from one of a wheel shape, disk shape, or cylindrical shape.
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155. The power generating tower as claimed in claim 105, wherein the tower structure is a hollow tubular supporting axis and an interior thereof is passed by electric wires.
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156. The power generating tower as claimed in claim 109, wherein the tower structure is a hollow tubular supporting axis and an interior thereof is passed by electric wires.
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157. The power generating tower as claimed in claim 105, further comprising a brake device for stop the wind turbine device.
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158. The power generating tower as claimed in claim 109, further comprising a brake device for stop the wind turbine device.
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106. The power generating tower as claimed in claim 105, wherein a bottom of the tower body is a surface of revolution having a shape selected from one of a cylindrical shape, a revolution parabolic shape;
- at least one tower structure of the power generating tower and at least one power generator;
Specification
- Resources
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Current AssigneeChienwen Huang
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Original AssigneeChienwen Huang
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InventorsHuang, Chienwen
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Application NumberUS10/474,346Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current290/55CPC Class CodesF03D 13/20 Arrangements for mounting o...F03D 3/02 having a plurality of rotorsF03D 3/04 having stationary wind-guid...F03D 3/0427 with converging inlets, i.e...F03D 3/0445 the shield being fixed with...F03D 9/25 the apparatus being an elec...F05B 2240/216 of the anemometer typeF05B 2240/40 Use of a multiplicity of si...Y02E 10/728 Onshore wind turbinesY02E 10/74 Wind turbines with rotation...