Vehicle friction material condition measurement system
First Claim
1. In a frictional power transfer device including a friction lining mounted to a support member having a wearing surface engageable with a power transfer surface, the combination comprising an electrically resistive sensor embedded within said friction lining extending from said support member to said wearing surface having a value of resistance dependent on both a temperature and a length of said sensor and oriented such that wear of the friction lining results in wear of said sensor and a reduction in the length of said sensor thereby changing said value of resistance of said sensor, an insulated connector in electrical connection with said sensor and with an electronic control unit for monitoring and interpreting said value of resistance and then calculating the wear and temperature of said friction lining.
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Accused Products
Abstract
A sensor which responds to both changes in working length and temperature is embedded in a friction lining to provide a signal indicative of both wear and temperature to an electronic control unit which interprets long term averaged change in the sensor resistance measured when the vehicle is stationary as lining wear and short term changes in sensor resistance as representative of lining temperature.
90 Citations
12 Claims
- 1. In a frictional power transfer device including a friction lining mounted to a support member having a wearing surface engageable with a power transfer surface, the combination comprising an electrically resistive sensor embedded within said friction lining extending from said support member to said wearing surface having a value of resistance dependent on both a temperature and a length of said sensor and oriented such that wear of the friction lining results in wear of said sensor and a reduction in the length of said sensor thereby changing said value of resistance of said sensor, an insulated connector in electrical connection with said sensor and with an electronic control unit for monitoring and interpreting said value of resistance and then calculating the wear and temperature of said friction lining.
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8. A method of continuously sensing the wear and temperature of a friction lining in a vehicle comprising:
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providing a thermistor embedded in said friction lining oriented such that wear of the friction lining continuously changes a resistance value of said thermistor; providing an electronic control unit electrically connected to said thermistor; monitoring said resistance value of said thermistor; monitoring an operational status of the vehicle; calculating a wear state of said friction lining based on said resistance value of said thermistor and said operational status; calculating a temperature of said friction lining based on said resistance value of said thermistor and said operational status.
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9. A vehicle brake comprising:
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a brake drum for frictional braking of a vehicle; a brake shoe having a friction lining for frictional engagement with said brake drum and a brake table for supporting said friction lining; a sensor having a sensing element, said sensing element generating a continuous electrical signal in response to changes in a temperature and a length of said sensing element, said sensing element being embedded in said friction lining and oriented such that wear of said friction lining wears said sensing element thereby reducing the length of said sensing element resulting in a change in said electrical signal generated by said sensing element; an electrical control unit for processing said electrical signal generated by said sensing element. - View Dependent Claims (10, 11, 12)
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Specification