Detection device, and corresponding system for determining the orientation of the wheels of a vehicle
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01B-011/25
G01B-011/275
출원번호
US-0977544
(2011-12-30)
등록번호
US-9453724
(2016-09-27)
우선권정보
IT-TO2010A1094 (2010-12-30)
국제출원번호
PCT/IB2011/056032
(2011-12-30)
§371/§102 date
20130912
(20130912)
국제공개번호
WO2012/090187
(2012-07-05)
발명자
/ 주소
Cerruti, Piero
Manganelli, Fausto
출원인 / 주소
SPACE S.R.L. CON UNICO SOCIO
대리인 / 주소
The Belles Group, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A detection device for determining the orientation of a first and a second wheel of a vehicle, the wheels being arranged on a first side of the vehicle with respect to a longitudinal axis thereof. The device is set laterally with respect to the vehicle on the first side, between the first and second
A detection device for determining the orientation of a first and a second wheel of a vehicle, the wheels being arranged on a first side of the vehicle with respect to a longitudinal axis thereof. The device is set laterally with respect to the vehicle on the first side, between the first and second wheels, and has a first and a second image-acquisition elements located on a base support having a respective viewing area for acquiring images of a first and a second target coupled to the first and second wheels. A displacement unit is operatively coupled to the first and second image acquisition elements for rotating them simultaneously through the same angle of rotation so as to adapt their viewing area to the position of the first and second targets. The detection device comprises additional alignment sensors located on the base support for measuring calibration parameters of the base support.
대표청구항▼
1. A first detection device for a system for determining the orientation of at least one first wheel and one second wheel of a vehicle under examination in a measuring area, said wheels being arranged on a first side of said vehicle with respect to a longitudinal axis thereof, said device being conf
1. A first detection device for a system for determining the orientation of at least one first wheel and one second wheel of a vehicle under examination in a measuring area, said wheels being arranged on a first side of said vehicle with respect to a longitudinal axis thereof, said device being configured to be arranged laterally with respect to said vehicle on said first side with respect to said longitudinal axis, in a position set between said first and second wheels, and including a first image-acquisition element and a second image-acquisition element, having a respective viewing area and being configured to acquire images respectively of a first target and a second target coupled, respectively, to said first and second wheels, a displacement unit, operatively coupled to said first image-acquisition element and second image-acquisition element, and configured to jointly rotate said first image-acquisition element and said second image-acquisition element through a same angle of rotation so as to adapt automatically their viewing area to the position, respectively, of the first target and of the second target, according to different values of track and/or wheelbase of the vehicle and/or to a different positioning thereof in the measuring area. 2. The device according to claim 1, wherein said first detection device is configured to be set in a fixed way with respect to said vehicle, and said first and second wheels lie in a horizontal plane; said displacement unit being configured to cause a rotation of said first image-acquisition element and second image-acquisition element in said horizontal plane such as to enable said first and second image-acquisition elements to view said first and second targets independently of a displacement of said first and second wheels along, or transverse to, said longitudinal axis. 3. The device according to claim 1, wherein axes of rotation of said first and second image-acquisition elements are aligned to one another parallel to said longitudinal axis. 4. The device according to claim 1, wherein said displacement unit includes a motor and a pair of gears mechanically coupled to said first and second image-acquisition elements and driven in rotation by said motor; said gears being arranged to engage with one another in order to rotate substantially through said same angle of rotation upon actuation by said motor. 5. The device according to claim 4, wherein said displacement unit includes a motor gear, fitted on a rotation shaft of said motor and set so as to engage with a given gear of said pair so as to drive it in rotation. 6. The device according to claim 4, wherein the gears of said pair have play compensation, each gear of the pair including, a first gear wheel and a second gear wheel, mechanically coupled to one another by an elastic biasing element and designed to engage with a respective gear wheel of the other gear of the pair of gears; deformation of said elastic biasing element being such as to enable recovery of any play associated to said first and/or second gear wheels. 7. The device according to claim 4, comprising a casing inside which a base support is arranged; said gears being set on a bottom surface of said base support, and said first and second image-acquisition elements being set on a top surface of said base support, opposite to said bottom surface; wherein said first and second image-acquisition elements are rigidly coupled to a respective rotation shaft of a respective one of said gears. 8. The device according to claim 4, further comprising an electronic unit including: an acquisition and processing circuit, for acquisition of said images and execution of a first processing of said images aimed at identifying pre-set geometrical parameters of said targets; and a driving circuit for driving said motor, designed to receive control signals and to control said motor accordingly for executing desired rotations of said first and second image-acquisition elements as a function of said control signals. 9. The device according to claim 1, comprising a base support coupled to which are said first and second image-acquisition elements, and associated to which is a first device reference system; wherein associated to said first and second image-acquisition elements are, respectively, a first image reference system and a second image reference system, within which said first and second image-acquisition elements are configured to acquire said respective images; further comprising alignment sensor elements configured to enable definition of the device reference system and to establish a relation between the first and second image reference systems and the device reference system. 10. The device according to claim 9, wherein said alignment sensor elements include: a rotation angle detector, configured to enable detection of an angle of rotation of said first and second image-acquisition elements in the device reference system about an axis orthogonal to the base support; at least one inclinometer, configured to enable detection of vertical rotations of said device reference system with respect to a horizontal plane belonging to an external reference system; and at least one image sensor, configured to view an external reference device and enable determination of a relative position of said first detection device with respect to said external reference device. 11. A system for determining the orientation of at least one first wheel and one second wheel of a vehicle, said wheels being arranged on a first side of said vehicle with respect to a longitudinal axis thereof, comprising: a first target and a second target, coupled, respectively, to said first and second wheels;a first detection device, according to claim 1; anda processing device, operatively coupled to said first detection device and configured to determine characteristic angles of orientation of said first and second wheels as a function of a single image acquired for each of said first and second wheels, respectively by said first and second image-acquisition elements of said first detection device. 12. The system according to claim 11, wherein said processing device is configured to generate, based on the processing of said single image acquired for each of said first and second wheels, control signals for controlling said displacement unit of said first detection device so as to rotate said first and second image-acquisition elements through said same angle of rotation. 13. The system according to claim 11, wherein said vehicle is arranged on a hydraulic ramp, defining said measuring area, and said first detection device is rigidly fixed to said hydraulic ramp, laterally with respect to said vehicle. 14. The system according to claim 11, wherein said first and second targets have a three-dimensional conformation designed to define geometrical quantities set according to a known three-dimensional arrangement, and each comprise a plurality of target elements, which have a three-dimensional conformation and are arranged with respect to one another according to a three-dimensional distribution, at least some of them in positions mutually linked by a known geometrical relation such as to define said geometrical quantities. 15. The system according to claim 14, wherein said target elements are arranged with respect to one another according to a three-dimensional distribution designed to define an orthogonal triad of target vectors defining a reference system associated to said first or second targets. 16. The system according to claim 14, wherein said first and second targets comprise a respective supporting structure defining internally a concave spherical surface; and wherein said target elements are mechanically coupled to said supporting structure and arranged on said spherical surface to form said three-dimensional distribution. 17. The system according to claim 11, wherein said first detection device comprises alignment sensors and a base support coupled to which are said first and second image-acquisition elements; and wherein said processing device comprises a memory storing calibration parameters, and is configured for receiving measurements from said alignment sensor elements so as to define, as a function of said measurements and of said calibration parameters, a first device reference system associated to the base support of said first detection device and to establish a relation between a first and a second image reference systems wherein said first and second image-acquisition elements are designed to acquire said respective images, and the first device reference system. 18. The system according to claim 17, further comprising: a second detection device arranged laterally with respect to said vehicle on a second side of said vehicle, opposite to said first side with respect to said longitudinal axis, in a position set between a third wheel and a fourth wheel of said vehicle set on said second side; and a third target and a fourth target, coupled respectively to said third and fourth wheels, said second detection device being configured to acquire images of said third and fourth targets; wherein said processing device is operatively coupled to said first and second detection devices and is configured to determine, as a function of said images, said orientation and a mutual alignment, of said first, second, third, and fourth wheels; said processing device being further configured to set in relation, as a function of said measurements and of said calibration parameters, said first device reference system with a second device reference system, associated to said second detection device, and said first and second device reference systems with a common reference system, associated to said vehicle, wherein the information of orientation and mutual alignment of said wheels are processed. 19. The system according to claim 18, wherein said alignment sensor elements include: at least one image sensor configured to frame a respective image sensor of said second detection device; said processing device being configured for processing measurements made by the image sensors of said first and second detection devices so as to determine a relative position of said first detection device with respect to said second detection device. 20. A method for calibration of a detection device according to claim 1, comprising: defining a model of displacement for each of said first and second image-acquisition elements during displacement by said displacement unit;defining a relation between respective image reference systems associated to said first and second image-acquisition elements, with respect to a device reference system associated to said detection device; andstoring a series of calibration parameters associated to said models of displacement and to said relation between the respective image reference systems, said step of defining a relation comprising: positioning said first and second image-acquisition elements In pre-set angular positions, and moreover causing said first and second image-acquisition elements to view one and the same reference target having a pre-set conformation and a pre-set geometrical relation with respect to said detection device.
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이 특허에 인용된 특허 (5)
Muller Patrice,FRX ; Coetsier Paul,FRX ; Douine Denis,FRX, Device and process for the geometric inspection of wheeled vehicles.
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