Distance and angle measurements in a wire guided vehicle
First Claim
1. A method for determining the distance of a guided vehicle from a wire carrying an alternating current signal, said method comprising the steps ofproviding the vehicle with a set of sensor coils for detecting the signal carried by the wire where the space between the sensor coils is divided into regions,normalizing the output from each coil,converting the normalized output from each coil into a distance value by reference to a look up table,determining which coil has the highest normalized output,determining which region the wire is in by determining which adjacent coil has a normalized output greater than a predetermined minimum value,combining the distance measurements from the selected coils defining the region to derive a sensor bar-to-wire distance measurement.
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Accused Products
Abstract
A wire guidance system for a materials handling vehicle, such as a turret stockpicker, detects an alternating signal carried by a buried wire. Two sets of four sensors each are carried at either end of the vehicle. These sensors define regions, and a procedure is provided to determine in which region the wire is located. The distance and angle of the vehicle is determined by reference to the distance measurements of each sensor set, as calculated by a microcomputer. A self testing circuit is provided to insure proper operation of the sensors and associated circuitry.
32 Citations
9 Claims
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1. A method for determining the distance of a guided vehicle from a wire carrying an alternating current signal, said method comprising the steps of
providing the vehicle with a set of sensor coils for detecting the signal carried by the wire where the space between the sensor coils is divided into regions, normalizing the output from each coil, converting the normalized output from each coil into a distance value by reference to a look up table, determining which coil has the highest normalized output, determining which region the wire is in by determining which adjacent coil has a normalized output greater than a predetermined minimum value, combining the distance measurements from the selected coils defining the region to derive a sensor bar-to-wire distance measurement.
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3. A method for determining the distance of a guided vehicle from a wire carrying an alternating current signal, said method comprising the steps of
providing the vehicle with two sets of sensor coils for detecting the signal carried by the wire, each sensor bar having four coils spaced apart in a straight line perpendicular to the longitudinal axis of the vehicle, with the space between the sensor coils in a sensor bar being divided into regions, normalizing the output from each coil by multiplying the output of each coil by a gain factor derived during a previously performed calibration procedure where each coil was passed directly over the wire to obtain the maximum value thereof and then dividing that value into a desired maximum value, converting the normalized output from each coil into a distance value by reference to a look up table which was obtained previously by recording the relationship between the normalized output of a coil relative to the actual distance of the coil from the wire, determining which coil in each sensor bar has the highest normalized output, determining which region the wire is in by determining which adjacent coil has a normalized output greater than a predetermined minimum value, combining the distance values from the selected coils defining the region to derive a sensor bar-to-wire distance measurement, and combining sensor bar distance measurements to derive a vehicle-to-wire distance measurement.
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5. A method for calibrating the output of wire sensor coils in a guided vehicle comprising the steps of
placing a vehicle containing sensor coils over a wire carrying a sinusoidal signal of a predetermined frequency and amplitude, moving the vehicle over wire in a path that will cause each coil to pass directly over the wire at least once, determining the maximum strength of the voltage induced into each coil as an indication that the coil has passed directly over the wire, dividing the maximum output voltage of each coil into a predetermined number to derive a gain factor for that coil, storing the gain factor for each coil, and thereafter using the coil output voltage multiplied by its gain factor to provide a normalized coil output voltage representing the distance of that coil from the wire.
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6. Apparatus for determining the distance of a sensor coil carried by a wire guided vehicle from a buried wire carrying an alternating current guidance signal comprising
at least one sensor coil mounted on a sensor bar means for recording a gain factor for each sensor coil, means for normalizing the output of each sensor coil including means for multiplying the gain factor by the coil output, look up table means for recording previously determined data correlating normalized voltage outputs of each sensor coil with the actual distance of the coil from the wire at a plurality of selected distances, and means for providing an output representing the distance of each coil from the wire including means for comparing the normalized output of each coil with the data recorded in said look up table means and interpolating between recorded data positions.
Specification