IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0796326
(2010-06-08)
|
등록번호 |
US-8410623
(2013-04-02)
|
우선권정보 |
IT-MI2009A1029 (2009-06-10) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Neal, Gerber & Eisenberg LLP
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
213 |
초록
A wind power electricity generating system having a nacelle; a rotary assembly rotating about an axis with respect to the nacelle; and an angular speed detection device having at least one image sensor facing a surface of the rotary assembly.
대표청구항
▼
1. A wind power electricity generating system comprising: a nacelle;a rotary assembly rotatable about an axis with respect to the nacelle; anda rotary assembly angular speed detection device fixed to the nacelle and including at least one image sensor facing a surface of the rotary assembly. 2. The
1. A wind power electricity generating system comprising: a nacelle;a rotary assembly rotatable about an axis with respect to the nacelle; anda rotary assembly angular speed detection device fixed to the nacelle and including at least one image sensor facing a surface of the rotary assembly. 2. The wind power electricity generating system of claim 1, wherein the image sensor acquires a plurality of images of a plurality of portions of the surface of the rotary assembly. 3. The wind power electricity generating system of claim 2, wherein said surface is selected from the group consisting of: an annular surface and a cylindrical surface. 4. The wind power electricity generating system of claim 1, wherein the surface of the rotary assembly has a plurality of non-uniform optical properties. 5. The wind power electricity generating system of claim 1 wherein the rotary assembly angular speed detection device includes at least one light source facing said surface, said at least one light source illuminates an area of the surface covered by the image sensor. 6. The wind power electricity generating system of claim 5, wherein the light source is selected from the group consisting of: at least one incandescent lamp, at least one fluorescent lamp, at least one halogen lamp, at least one LED, and at least one laser. 7. The wind power electricity generating system of claim 1, wherein the image sensor acquires a plurality of images at an acquisition rate, and the rotary assembly angular speed detection device includes an image processing unit coupled to the image sensor, said image processing unit processes at least two of any overlapping images. 8. The wind power electricity generating system of claim 7, wherein the acquisition rate is such that, when the rotary assembly rotates at a maximum angular speed, two consecutively acquired images overlap. 9. The wind power electricity generating system of claim 7, wherein the image processing unit determines: (i) a plurality of matching image elements in said overlapping images, and (ii) an angular distance traveled by the rotary assembly in the time lapse between the acquisition of the overlapping images. 10. The wind power electricity generating system of claim 9, wherein the image processing unit determines a rotation direction of the rotary assembly. 11. The wind power electricity generating system of claim 9, wherein the image processing unit determines the angular speed of the rotary assembly based on the determined angular distance and the acquisition rate. 12. The wind power electricity generating system of claim 9, wherein the angular speed detection device includes a marker on the surface of the rotary assembly, and the image processing unit includes a memory storing at least one image of the marker. 13. The wind power electricity generating system of claim 12, wherein the image processing unit: (i) compares the images acquired by the image sensor with the at least one stored image of the marker to determine a passage of the marker, and (ii) determines an angular position of the rotary assembly based on the angular distance traveled by the rotary assembly since the passage of the marker. 14. The wind power electricity generating system of claim 7, wherein the image processing unit determines a radial displacement of the rotary assembly with respect to the axis. 15. A wind power electricity generating system angular speed detection device comprising: at least one image sensor fixed to a nacelle and facing a surface of a rotary assembly rotatable rotate about an axis with respect to the nacelle, said at least one image sensor acquires a plurality of images of a plurality of portions of the surface of the rotary assembly at an acquisition rate;at least one light source facing said surface, said at least one light source and configured to illuminate an area of the surface covered by the image sensor; andan image processing unit coupled to the image sensor, said image processing unit processes at least two of any overlapping acquired images to detect an angular speed of the rotary assembly. 16. The wind power electricity generating system angular speed detection device of claim 15, wherein the acquisition rate is such that, when the rotary assembly rotates at a maximum angular speed, two consecutively acquired images overlap. 17. The wind power electricity generating system angular speed detection device of claim 15, wherein the image processing unit determines: (i) a plurality of matching image elements in said overlapping images, and (ii) an angular distance traveled by the rotary assembly in the time lapse between the acquisition of the overlapping images. 18. The wind power electricity generating system angular speed detection device of claim 17, wherein the image processing unit determines a rotation direction of the rotary assembly. 19. The wind power electricity generating system angular speed detection device of claim 17, wherein the image processing unit determines the angular speed of the rotary assembly based on the determined angular distance and the acquisition rate. 20. The wind power electricity generating system angular speed detection device of claim 15, wherein the image processing unit determines a radial displacement of the rotary assembly with respect to the axis. 21. A method of controlling a wind power electricity generating system including a nacelle and a rotary assembly rotatable about an axis with respect to the nacelle and a rotary assembly angular speed detection device, said method comprising: (a) acquiring a plurality of images of a surface of the rotary assembly by the rotary assembly angular speed detection device fixed to the nacelle;(b) determining an angular speed of the rotary assembly based on the acquired images; and(c) controlling the wind power electricity generating system based on the determined angular speed of the rotary assembly. 22. The method of claim 21, which includes illuminating the surface with at least one light source selected from the group consisting of: at least one incandescent lamp, at least one fluorescent lamp, at least one halogen lamp, at least one LED, and at least one a laser. 23. The method of claim 21, which includes coating the surface such that the surface has a plurality of non-uniform optical properties. 24. The method of claim 21, which includes determining an angular distance traveled by the rotary assembly. 25. The method of claim 24, which includes: (i) acquiring and storing an image of a marker on the surface of the rotary assembly;(ii) comparing the images acquired by the image sensor with the stored image of the marker;(iii) determining a passage of the marker; and(iv) determining an angular position of the rotary assembly based on the angular distance traveled by the rotary assembly since the passage of the marker. 26. The method of claim 21, which includes determining a radial displacement of the rotary assembly with respect to the axis. 27. The method of claim 21, which includes processing the acquired images to determine a rotation direction of the rotary assembly. 28. The wind power electricity generating system of claim 1, wherein the image sensor is a television camera. 29. A wind power electricity generating system comprising: a nacelle;a rotary assembly rotatable about an axis with respect to the nacelle; anda rotary assembly angular speed detection device fixed to the nacelle and including:a television camera facing a surface of the rotary assembly, said television camera acquires a plurality of images at an acquisition rate, andan image processing unit coupled to the television camera, said image processing unit receives the plurality of images processes at least two of any overlapping images and determines a displacement of the rotary assembly. 30. The wind power electricity generating system of claim 29, wherein the image processing unit determines: (i) a plurality of matching image elements in said overlapping images, and (ii) a displacement of the matching image elements. 31. The wind power electricity generating system of claim 30, wherein the image processing unit determines: (i) an tangential component of the determined displacement of the matching image elements, and (ii) an angular distance traveled by the rotary assembly in the time lapse between the acquisition of the overlapping images by the tangential component of said determined displacement of the matching image elements. 32. The wind power electricity generating system of claim 31, including a control device that processes the angular distance to determine a plurality of events. 33. The wind power electricity generating system of claim 30, wherein the image processing unit determines: (i) a radial component of the determined displacement of the matching image elements, and (ii) a radial displacement of the rotary assembly with respect to the axis by the radial component of the determined displacement of the matching image elements. 34. The wind power electricity generating system of claim 33, including a control device that processes the radial displacement of the rotary assembly with respect to the axis to determine a plurality of events. 35. The wind power electricity generating system of claim 29, including a control device that transmits, via one of a cable or a radio signal, the determined displacement of the rotary assembly to a remote control centre. 36. A method of controlling a wind power electricity generating system including a nacelle, a rotary assembly rotatable about an axis with respect to the nacelle and a television camera, said method comprising: (a) acquiring a plurality of images of a surface of the rotary assembly by the television camera fixed to the nacelle;(b) processing at least two of any overlapping images of the surface of the rotary assembly; and(c) determining a displacement of the rotary assembly. 37. The method of claim 36, which includes: (i) determining a plurality of matching image elements in said overlapping images, and(ii) determining a displacement of the matching image elements. 38. The method of claim 37, which includes: determining a tangential component of the determined displacement of the matching image elements; andan angular distance traveled by the rotary assembly in the time lapse between the acquisition of the overlapping images by the tangential component of said determined displacement of the matching image elements. 39. The method of claim 37, which includes: determining a radial component of the determined displacement of the matching image elements; anddetermining a radial displacement of the rotary assembly with respect to the axis by the radial component of the determined displacement of the matching image elements. 40. The method of claim 39, which includes processing the angular distance to determine a plurality of events. 41. The method of claim 39, which includes processing the determined radial displacement of the rotary assembly with respect to the axis to determine a plurality of events. 42. The method of claim 36, which includes transmitting, via one of a cable or a radio signal, the determined displacement of the rotary assembly to a remote control centre.
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