Slip sensing method and apparatus
First Claim
1. Slip sensing means for sensing slip between an object and object supporting means having at least one supporting surface, said slip sensing means comprisingthermal responsive means located at the supporting surface of the object supporting means and adapted for intimate engagement with the face of an object supported thereby,an electrical current source for electrically heating and thermal responsive means,means for controlling the electrical current to maintain the temperature of the thermal responsive means and the localized temperature of the object at the point on engagement therewith at a subtantially constant temperature above ambient temperature, the temperature at the surface of the object decreasing with distance from the heated thermal responsive means, the temperature of the thermal responsive means at least momentarily changing with initial engagement thereof with the object and with slip of the object along the object supporting means after said initial engagement, andmeans for detecting change in the electrical current in response to temperature change of the thermal responsive means due to slip of the object along the object supporting means for sensing said slip.
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Accused Products
Abstract
A slip sensor and method of sensing slip for object supporting structure such as a manipulator which includes a pair of relatively movable jaws having opposing jaw faces between which an object may be gripped are shown. At least one thermistor is located at the face of the object supporting structure, which thermistor is intimately engageable with the supported object. The thermistor is maintained at a substantially constant temperature, above ambient temperature, by the passage of current therethrough. The temperature of the gripped object adjacent the thermistor is raised to the above-ambient temperature by heat conduction thereto from the thermistor. With slippage of the gripped object between the jaws, the thermistor is exposed to another portion of the object which is at a different temperature than the temperature of the thermistor whereby the resistance of the thermistor changes. The thermistor is included in a temperature sensing and control unit which maintains the thermistor at a substantially constant temperature, and which has an output related to power supplied to the thermistor to maintain the set-point temperature. The output is digitized and supplied to a digital computer for determining whether or not slippage of the object between the jaws has occurred.
70 Citations
15 Claims
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1. Slip sensing means for sensing slip between an object and object supporting means having at least one supporting surface, said slip sensing means comprising
thermal responsive means located at the supporting surface of the object supporting means and adapted for intimate engagement with the face of an object supported thereby, an electrical current source for electrically heating and thermal responsive means, means for controlling the electrical current to maintain the temperature of the thermal responsive means and the localized temperature of the object at the point on engagement therewith at a subtantially constant temperature above ambient temperature, the temperature at the surface of the object decreasing with distance from the heated thermal responsive means, the temperature of the thermal responsive means at least momentarily changing with initial engagement thereof with the object and with slip of the object along the object supporting means after said initial engagement, and means for detecting change in the electrical current in response to temperature change of the thermal responsive means due to slip of the object along the object supporting means for sensing said slip.
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4. Slip sensing means for sensing slip between an object and object supporting means having at least one supporting surface, said slip sensing means comprising
thermal responsive means located at the supporting surface of the object supporting means and adapted for intimate engagement with the face of an object supported thereby, means for electrically heating said thermal responsive means to maintain the temperature thereof and the localized temperature of the object at the point of engagement therewith above ambient temperature, the temperature at the surface of the object decreasing with distance from the heated thermal responsive means, the temperature of the thermal responsive means at least momentarily changing with initial engagement thereof with the object and with slip of the object along the object supporting means after said initial engagement, and means for detecting change in the thermal responsive means in response to temperature change thereof due to slip of the object along the object supporting means for sensing said slip, said thermal responsive means comprising a thermistor, said means for electrically heating said thermistor comprising a resistor bridge, one arm of which bridge comprises said thermistor, a load resistor, a source of d.c. potential connected across one pair of opposed bridge junctions through said load resistor, operational amplifier means having a pair of input terminals connected across the other pair of opposed bridge junctions, and means for connecting the operational amplifier means output to the one bridge junction to which said thermistor and load resistor are connected, said thermistor providing a negative feedback path for said operational amplifier means.
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7. A method of sensing slip between an object and object supporting means comprising,
locating at least one thermal responsive element at the object supporting surface for intimate engagement with an object supported by the object supporting means, passing current through the thermal responsive element for heating the same to a temperature greater than ambient temperature and for localized heating of the object to substantially the temperature of the heated thermal responsive element, the temperature of the supported object decreasing toward ambient temperature with increased distance from the heated thermal responsive element, controlling current flow through the thermal responsive element to maintain the same at substantially constant temperature, and sensing changes in current flow through the thermal responsive element in response to change in temperature of the object at the heated thermal responsive element to provide an indication of relative slip between the object and the object supporting means.
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9. A method of sensing slip between an object and object supporting means comprising,
locating at least one thermal responsive element at the object supporting surface for intimate engagement with an object supported by the object supporting means, heating the thermal responsive element to a temperature greater than ambient temperature for localized heating of the object to substantially the temperature of the heated thermal responsive element, the temperature of the supported object decreasing toward ambient temperature with increased distance from the heated thermal responsive element, sensing temperature changes of the thermal responsive element to provide an indication of relative slip between the object and object supporting means, including said thermal responsive element in the negative feedback path of an operational amplifier and as one arm of a resistor bridge, input to the operational amplifier being obtained from one pair of opposed bridge terminals, and, supplying the other pair of opposed bridge junctions with a d.c. potential source through a load resistor, current flow through the load resistor being indicative of thermal responsive element temperature.
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10. A method of sensing slip between an object and object supporting means comprising,
locating at least one thermal responsive element at the object supporting surface for intimate engagement with an object supported by the object supporting means, heating the thermal responsive element to a temperature greater than ambient temperature for localized heating of the object to substantially the temperature of the heated thermal responsive element, the temperature of the supported object decreasing toward ambient temperature with increased distance from the heated thermal responsive element, and sensing temperature changes of the thermal responsive element to provide an indication of relative slip between the object and object supporting means, the step of heating the thermal responsive element includes controlling power to the thermal responsive element to maintain the same at a substantially constant temperature, and said step of sensing temperature changes of the thermal responsive element includes sensing changes in power supplied to the thermal responsive element to provide an indication of relative slip between the object and object supporting means.
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12. A circuit arrangement for maintaining a thermistor at a substantially constant temperature and for sensing changes in resistance thereof for use in a slip detector, comprising
a resistor bridge in which said thermistor comprises one arm of the bridge, a load resistor, a source of d.c. potential connected across one pair of opposed bridge junctions through said load resistor, an operational amplifier having a pair of input terminals connected across the other pair of opposed bridge junctions, and means for connecting the operational amplifier output to the one bridge junction to which said thermistor and load resistor are connected, the voltage across the load resistor being related to the temperature of the thermistor.
Specification