Device for determining the wheel and/or axle geometry of...

Data processing: measuring – calibrating – or testing – Measurement system – Orientation or position

Reexamination Certificate

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Details

C702S094000, C702S105000, C700S279000, C356S139090, C356S155000

Reexamination Certificate

active

06397164

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a device for determining the wheel and/or axle geometry of motor vehicles in an inspection room using an optical measuring device which has at least two image pick-up devices which, from at least two different perspectives, records images from a marking device (optical target), inclusive of at least one wheel feature existing or arranged on a wheel, and including an evaluation unit.
BACKGROUND INFORMATION
In German Published Patent Application No. 42 12 426 is discussed a device for determining a vehicle's wheel track and camber, characteristic regions of the wheels are recorded by video cameras. The wheel in question is provided outside of its axle with a marking that is able to be registered optically (that is, an optical target). The marking is recorded during rotation of the wheel by two synchronized video cameras. During rotation of the wheel, the vehicle rests on rollers. From the spatial positions of the markings on the wheels, one determines the relative positions of the corresponding axles. The video cameras are arranged symmetrically to the axle of the corresponding wheel, the vehicle resting on rollers, and the wheels turning in roller prisms. When this system is used, the possibilities for measuring wheel or axle geometries are limited to wheel track and camber or measurements, and substantial outlay is required to adjust the axle geometry.
SUMMARY OF THE INVENTION
An object of an exemplary embodiment of the present invention is directed to providing a device, which, while providing a simplified operation, will enable one to obtain more information with respect to wheel or axle geometry. There is no need for adjustment of the image pick-up device.
In this regard, an exemplary embodiment of the present invention is directed to providing that the marking device continues to include an automobile body feature and a reference feature arrangement, including at least three reference features, the position of the reference features in the inspection room being known in the evaluation device, that the marking device is detected while the motor vehicle is driven past, the spatial coordinates of the at least one wheel feature being detected to determine one wheel plane from at least three different rotational positions of the wheel, and the spatial coordinates of at least one automobile body feature being detected simultaneously to define the vehicle's motion coordinates, and at least the wheel or axle geometry being able to be determined by the evaluation device from the position of the wheel plane relative to the vehicle's plane of motion.
From the vehicle's motion coordinates, a steering motion during the measurement can also be detected. One can then distinguish whether a correction can be made, for example given a comparably large steering radius during the evaluation, or whether such a correction cannot be made given unsteady steering motions, so that a repeat measurement is then called for.
Using the at least one wheel feature, the at least one automobile body feature, and the reference feature configuration, the image pick-up devices' positioning can be precisely determined with the aid of the evaluation device, and the wheel plane can be calculated relative to the vehicle's motion coordinates, making it possible to define the wheel and axle geometries. In this context, the wheel or axle geometry is determined under real driving conditions, and not from a standing position. This enables one to fundamentally avoid strain in the wheel suspensions, as well as influences resulting from bearing clearance.
For the most part, there is no need to precisely level the measuring station, since a deviation from the horizontal no longer enters into the calculation directly as a measuring error. The extent to which the measuring station is made even or level can be minimized to that which is required by the vehicle. An extremely fast measurement can be taken, with little preparatory outlay for the vehicle. The need is eliminated for adjusting a measuring device at the wheel, as may be required by other systems and/or methods, and operation of the device is relatively simple.
It is believed that the measured value acquisition itself takes place in fractions of a second, with a higher level of accuracy and, at the same time, a larger measuring range than that of other arrangements, being given for all measured quantities. This specification of the geometrical data is not limited to angular units. The data and can also be provided as absolute units of length. Using the same device and the same method, the geometric wheel and axle data of commercial vehicles can be determined at another measuring location, which is set up for the dimensions of commercial vehicles. For this, no other testing technology is needed.
Using the device, one can arithmetically determine the driving axis and, in addition, the following geometrical wheel and axle data: individual track for each wheel, total track for each wheel pair, camber for each wheel, front/back wheel offset, right/left lateral offset, track width difference, and track width, as well as axle offset.
Using the additional automobile body features at defined points in the wheel segment region, one can additionally determine the deflection or load condition of each wheel and/or the inclination of the automobile body in the longitudinal and transverse directions. This makes it possible to quickly ascertain deviations from a predefined uniformity of the load condition and, if necessary, to correct it through appropriate loading/unloading, or to allow for it in vehicle-specific correction calculations.
A relatively simple design, including reference features that are able to be reliably detected, is achieved in that the reference feature configuration has a mount support unit, whose arrangement can be freely designed in the inspection room, and on which the reference features are provided in the form of reference structures or specially applied reference features. This enhances the reliability of the measuring results.
If the reference features are not only arranged in an even, planar configuration, but also spatially offset from one another with respect to the image pick-up device, then the evaluation is simplified, as compared to an even configuration of the reference features, while ensuring substantial reliability of the measuring results.
To reliably detect the marking features, a further benefit may be derived from measures which provide for the reference features and/or the wheel features and/or the automobile body features to be designed as retro-reflecting marks, and the image pick-up device as a camera.
A cost-effective design for the device is achieved by providing only one measuring unit with at least two image pick-up devices, and by initially determining the geometrical wheel and axle data for the one vehicle side as the vehicle drives past, and then for the other vehicle side, as the vehicle drives past again from the other side.
Compared to a one-sided arrangement of a measuring unit, one expands upon the measuring possibilities in that, using only one measuring unit from only one position, one simultaneously detects at least three reference features for each vehicle side, the wheel features of the wheels of at least one vehicle axle, and at least one automobile body feature while the vehicle drives past; and one at least sequentially or simultaneously detects the wheel features of the wheels of all vehicle axles, and the assigned automobile body feature(s); or in that, to determine the wheel and axle geometry on both sides of the vehicle, when the vehicle drives past one time, a measuring unit having at least two image pick-up devices is provided on both sides of the measuring location. Besides the track for each wheel, the total track, and the camber for each wheel, such a design of the device enables the evaluation device to also determine the wheel offset, the lateral offset, the track width displacement, and the axle offset.
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