Cutting tool wear monitor
First Claim
1. A method of detecting tool wear failure for a metal removal operation comprising the steps of monitoring the direct current generated by a cutting tool acting on a metal workpiece during the cutting operation and determining a sharp change in the slope of the current generated plotted against the number of articles cut in comparison with earlier changes in slope thereof as an indication of tool failure.
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Accused Products
Abstract
A method and apparatus by which the degree of wear and useful life limitations of a drill, end mill or other types of metal removal tools can be detected. The method is based on the short circuit current, open circuit voltage and/or power that is generated during metal removal by the utilization of an insulated rotary tool bit to which electrical contact is made by a non-rotating conductor and an insulated or non-insulated workpiece, with an external circuit connecting the tool and workpiece through a measuring device. The generated current, voltage or power shows a sharp increase or change in slope upon considerable tool wear and/or at the point of failure.
70 Citations
12 Claims
- 1. A method of detecting tool wear failure for a metal removal operation comprising the steps of monitoring the direct current generated by a cutting tool acting on a metal workpiece during the cutting operation and determining a sharp change in the slope of the current generated plotted against the number of articles cut in comparison with earlier changes in slope thereof as an indication of tool failure.
- 7. A method of detecting tool wear failure for a metal removal operation comprising the steps of monitoring the direct current generated by a cutting tool acting on a metal workpiece during the cutting operation and determining a sharp change in the slope of the current generated plotted against the number of articles cut in comparison with earlier changes in slope thereof as an indication of tool failure, said current measurement being performed at a low impedence to reduce error, wherein a current balancing circuit receives the tool-workpiece generated current and provides a voltage indicative of the generated current.
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10. A method of detecting tool wear failure for a metal removal operation comprising the steps of monitoring the direct current generated by a cutting tool acting on a metal workpiece during the cutting operation and the total elapsed time of cutting by the tool and predicting failure of the tool from the following equation:
- ##EQU4## wherein t failure is the elapsed time for tool failure in seconds,
t is the elapsed cutting time for the tool in seconds, I is the observed current in microamperes, and a and b are constants depending on the machining operation.
- ##EQU4## wherein t failure is the elapsed time for tool failure in seconds,
- 11. A method of detecting tool wear failure for a metal removal operation comprising the steps of monitoring the direct current generated by a cutting tool acting on a metal workpiece during the cutting operation and detecting failure on the basis of the derivative of the observed current with respect to time, wherein a low impedence circuit includes a first operational amplifier receiving the current input from the tool and providing current output, a current booster from the current output, a feedback loop for the amplified current to the current input lead, a second operational amplifier receiving a voltage output through a variable capacitor and providing a voltage output proportional to the derivative of the current input with respect to time.
Specification