Method and apparatus for measuring the dynamic camber of vehicle tires
First Claim
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1. An apparatus for measuring the dynamic angle of camber of a tire of a moving vehicle, including:
- a) a bracket;
b) non-rotating hub means for mounting the bracket on a hub of a tire/wheel assembly of the vehicle, said bracket adapted to extend substantially perpendicularly outwardly from the tire/wheel assembly above a road surface;
c) stabilizing means operatively connected to the bracket for maintaining said bracket in a fixed position free of movement with respect to the tire/wheel assembly;
d) a pair of transducers mounted in a predetermined spaced relationship on the bracket above the road surface and outwardly of the hub means for transmitting beams of energy against the road surface;
e) detector means for detecting energy reflected off the road surface from the transmitted beams of energy, said detector means producing signals, the magnitudes of said signals representing the distances between the transducers and the road surface at a specific instance of time;
f) signal processing means coupled with the detector means for receiving the signals from the detector means and converting said signals into output data representing the angles of camber of the tire for specific instances of time; and
g) memory means for storing the output data.
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Accused Products
Abstract
An apparatus and method uses a pair of transducers, such as lasers, mounted on the tire/wheel assembly of a mowing vehicle for measuring the actual angles of camber experienced by the vehicle tire as the vehicle moves along an actual road surface. The pair of lasers are mounted in a predetermined horizontal spaced relationship on a bracket mounted on and extending perpendicularly outwardly from a non-rotating hub mounted on the tire/wheel assembly. The reflected laser beams from the pair of lasers are continually measured as the vehicle moves along the road surface. The reflected beams determine the change in spacings of the two lasers above the road surface from which can be calculated the angles of camber continuously imparted on the tire/wheel assembly. This data is collected and stored in a computer located in the vehicle and captures the tire'"'"'s operating camber angles with respect to an actual road surface when used on a particular vehicle. The stored data is later supplied to tire test equipment at a remote test facility to duplicate the actual road camber experienced on the test tire on other test tires at the test facility to simulate the real-world environment for a particular tire on a particular vehicle without repeating the more costly tests on the actual moving vehicle at a remote test track.
38 Citations
17 Claims
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1. An apparatus for measuring the dynamic angle of camber of a tire of a moving vehicle, including:
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a) a bracket; b) non-rotating hub means for mounting the bracket on a hub of a tire/wheel assembly of the vehicle, said bracket adapted to extend substantially perpendicularly outwardly from the tire/wheel assembly above a road surface; c) stabilizing means operatively connected to the bracket for maintaining said bracket in a fixed position free of movement with respect to the tire/wheel assembly; d) a pair of transducers mounted in a predetermined spaced relationship on the bracket above the road surface and outwardly of the hub means for transmitting beams of energy against the road surface; e) detector means for detecting energy reflected off the road surface from the transmitted beams of energy, said detector means producing signals, the magnitudes of said signals representing the distances between the transducers and the road surface at a specific instance of time; f) signal processing means coupled with the detector means for receiving the signals from the detector means and converting said signals into output data representing the angles of camber of the tire for specific instances of time; and g) memory means for storing the output data. - View Dependent Claims (2, 3, 4, 5)
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6. In combination, a tire/wheel assembly and an apparatus for continuously measuring the dynamic angles of camber of a tire of the tire/wheel assembly of a moving vehicle as it moves along a road surface, including:
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a) a bracket; b) means for mounting the bracket on the tire/wheel assembly of the vehicle extending substantially perpendicularly outwardly from the tire/wheel assembly above the road surface and free of movement with respect to the tire/wheel assembly; c) transducer means mounted on the bracket above the road surface for transmitting at least two beams of energy against the road surface; d) means for detecting the energy of the transmitted beams reflected off the road surface and producing signals, the magnitudes of said signals representing two distances between two known references on the bracket and the road surface at specific instances of time; and e) signal processing means coupled with the detecting means for converting said signals into output data representing the angles of camber of the tire for specific instances of time. - View Dependent Claims (7, 8, 9, 10, 11)
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12. A method of measuring a camber of a vehicle tire mounted on a wheel assembly of a particular vehicle as the vehicle moves along a road surface, including the steps of:
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a) providing at least a pair of energy sources for producing beams of energy; b) providing detector means for each of said energy sources; c) mounting said energy sources and detector means at a predetermined fixed position on a rigidly fixed non-rotatable bracket extending substantially perpendicularly outwardly from a vertical plane of the wheel assembly above the road surface, with said energy sources and detector means being at a predetermined spaced relationship with respect to each other on the bracket; d) transmitting at least two energy beams against the road surface; e) detecting and measuring the reflected energy of each transmitted energy beam from the road surface by each detector means as the vehicle moves along the road surface, and converting the reflected energy into signals which represent a distance to the road surface for each energy beam; f) calculating the angles of camber which the tire experiences for particular instances of time from the signals which represent the distance to the road surface for each energy beam; and g) storing the calculated angles of camber in a memory device. - View Dependent Claims (13, 14, 15, 16, 17)
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Specification
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Current AssigneeBridgestone Firestone North American Tire LLC (Bridgestone Corporation)
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Original AssigneeBridgestone Firestone North American Tire LLC (Bridgestone Corporation)
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InventorsWilson, Paul B., Olesky, Stanley J.
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Primary Examiner(s)Chilcot, Richard
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Assistant Examiner(s)AMROZOWICZ, PAUL DOUGLAS
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Application NumberUS08/402,247Time in Patent Office571 DaysField of Search73/146, 33/203, 33/203.12, 33/203.18, 33/227, 33/228, 33/288, 33/335, 33/336, 33/337, 356/139.09, 356/152, 356/155US Class Current73/146CPC Class CodesB60G 2200/46 camber angleB60G 2204/11 Mounting of sensors thereonB60G 2204/113 Tyre related sensorsB60G 2401/21 LaserB60G 2600/042 Monitoring meansG01B 11/275 for testing wheel alignmentG01B 2210/20 Vehicle in a state of trans...G01B 2210/26 Algorithms, instructions, d...G01B 2210/28 Beam projector and related ...
