Method for measuring a chassis and device for measuring the chassis geometry of a motor vehicle
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01B-011/00
G01B-011/275
출원번호
US-0142392
(2009-10-29)
등록번호
US-9127937
(2015-09-08)
우선권정보
DE-10 2008 055 163 (2008-12-29)
국제출원번호
PCT/EP2009/064254
(2009-10-29)
§371/§102 date
20110927
(20110927)
국제공개번호
WO2010/076054
(2010-07-08)
발명자
/ 주소
Nobis, Guenter
Abraham, Steffen
Uffenkamp, Volker
출원인 / 주소
ROBERT BOSCH GMBH
대리인 / 주소
Kenyon & Kenyon LLP
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A method and device are described for measuring a chassis and for measuring the chassis geometry of a vehicle, which includes providing a chassis measurement system having four measurement heads situated in known positions relative to one another, of which each has a monocular image recording device
A method and device are described for measuring a chassis and for measuring the chassis geometry of a vehicle, which includes providing a chassis measurement system having four measurement heads situated in known positions relative to one another, of which each has a monocular image recording device, the position of the measurement heads relative to one another being known, and the distance of the front measurement heads from one another differing from the distance of the rear measurement heads from one another.
대표청구항▼
1. A method for chassis measurement, the method comprising: providing a chassis measurement system having four measurement heads situated in known positions relative to one another, each of which has a monocular image recording device, the position of the measurement heads relative to one another be
1. A method for chassis measurement, the method comprising: providing a chassis measurement system having four measurement heads situated in known positions relative to one another, each of which has a monocular image recording device, the position of the measurement heads relative to one another being known, and a distance of front measurement heads from one another differing from a distance of rear measurement heads from one another;recording one of a respective front wheel and a measurement target attached thereto, in at least one run-in position of the vehicle, using the rear measurement heads;recording each of (i) the four wheels and (ii) the measurement targets attached thereto, using each of the four measurement heads, in a first main measurement position and in at least one second main measurement position of the vehicle, wherein each of (i) the four wheels or (ii) the measurement targets attached thereto is recorded by the same respective measurement head in the first main measurement position and in the at least one second main measurement position, and wherein each of (i) the four wheels and (ii) the measurement targets attached thereto moves relative to its respective measurement head between the first main measurement position and the at least one second main measurement position of the vehicle;executing local 3D reconstructions using a local scale to determine translation vectors, rotation vectors, and wheel angles of rotation between these positions, as well as centers of rotation and axes of rotation of the wheels, from one of (i) recorded images of the wheels and (ii) the measurement targets attached thereto;adapting the four local scales of the main measurement positions to a common, global scale through compensation of the vehicle movement;transferring the global scale to the 3D reconstruction of the run-in measurement positions via compensation of the identical geometry of the front axle; determining an absolute scale for the measurement heads from one of (i) the measurements of the front wheels and (ii) the measurement targets attached thereto in the run-in positions and in the main measurement positions; and determining the chassis measurement parameters of the vehicle, including at least one of a camber, a partial toe, and a total toe; wherein at least one of (a) and (b) is satisfied, wherein (a) includes image sequences made up of one of (i) a plurality of images of the front wheels and (ii) the measurement targets attached thereto, which are recorded during each of the recordings made by the rear measurement heads in the run-in positions of the vehicle, and wherein (b) includes image sequences made up of one of (i) a plurality of images of the wheels and (ii) the measurement targets attached thereto being recorded during each of the recordings made by the measurement heads in the main measurement positions of the vehicle. 2. The method of claim 1, wherein an absolute scale is determined from the ratio of track widths, calculated from the local 3D reconstructions, to the known distance of the measurement heads. 3. The method of claim 1, wherein the recordings of the measurement heads in the run-in positions and in the main measurement positions occur during movement of the vehicle. 4. The method of claim 1, wherein one of (i) the recordings of the wheels and (ii) the measurement targets attached thereto, by the measurement heads occur synchronously. 5. The method of claim 1, wherein the measurement heads carry out the recordings with the same measurement frequency, or wherein the time intervals between two image recordings is known. 6. A device for measuring a chassis geometry of a vehicle, comprising: a system of four measurement heads situated in known positions relative to one another, of which each has a monocular image recording device, the heads being set up so as to acquire during operation an image of a respective wheel, or of a measurement target attached thereto, of the vehicle, the position of the measurement heads relative to one another being known, and a distance of the front measurement heads from one another differing from the distance of the rear measurement heads from one another;wherein the system is set up to satisfy at least one of (a) and (b), wherein (a) includes image sequences made up of one of (i) a plurality of images of the front wheels and (ii) the measurement targets attached thereto, which are recorded during each of the recordings made by the rear measurement heads in the run-in positions of the vehicle, and wherein (b) includes image sequences made up of one of (i) a plurality of images of the wheels and (ii) the measurement targets attached thereto being recorded during each of the recordings made by the measurement heads in the main measurement positions of the vehicle; andan evaluation device, which is set up to:(i) determine, during operation, the translation vectors and the rotation vectors of the wheels, the wheel rotational angles between the run-in positions, and the centers of rotation and axes of rotation of the wheels, the determination being made from the recordings of the wheels, or of the measurement targets attached thereto, in a first run-in position and in a second run-in position of the vehicle, using each of the two measurement heads,(ii) determine the translation vectors and the rotation vectors of the wheels, the wheel angles of rotation between the main measurement positions, and the rotational centers and axes of rotation of the wheels, the determination being made from the recordings of the wheels, or of the measurement targets attached thereto, in a first main measurement position and in a second main measurement position of the vehicle, using each of the four measurement heads, wherein each of the four measurement heads records the same wheel, or measurement target attached thereto, in the first main measurement position and in the second main measurement position of the vehicle, and wherein each wheel, or measurement target attached thereto, moves relative to its respective measurement head between the first main measurement position and the second main measurement position of the vehicle,(iii) determine, from the measurements of the front wheels or the measurement targets attached thereto in the run-in positions and in the main measurement positions, an absolute scale for the measurement heads, and(iv) determine the chassis measurement parameters of the vehicle, including at least one of a camber, a partial toe, and a total toe. 7. The device of claim 6, further comprising: setting up the evaluation device to determine, during operation, the absolute scale from the ratio of the track widths, calculated from the local 3D reconstructions, to the known distance of the measurement heads. 8. The device of claim 6, the distance of the front measurement heads from one another being greater than the distance of the rear measurement heads from one another. 9. The device of claim 6, the distance of the front measurement heads from one another being smaller than the distance of the rear measurement heads from one another.
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이 특허에 인용된 특허 (3)
Guenter Nobis DE; Volker Uffenkamp DE, Device for determining the wheel and/or axle geometry of motor vehicles.
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