Electrochemical machining tool assembly
Abstract
In an electrochemical machining tool assembly having at least one electrode arranged across a gap from a workpiece, the electrode being energized by application of a potential difference ΔV between the electrode and the workpiece, a method of monitoring machining includes exciting at least one ultrasonic sensor to direct an ultrasonic wave toward a surface of the electrode and receiving a reflected ultrasonic wave from the surface of the electrode using the ultrasonic sensor. The reflected ultrasonic wave includes a number of reflected waves from the surface of the electrode and from a surface of the workpiece. The method further includes delaying the excitation of the ultrasonic sensor a dwell time T d after a reduction of the potential difference ΔV across the electrode and the workpiece occurs.
Claims
exact text as granted — not AI-modified1 - 21 . (canceled)
22 . An electrochemical machining tool assembly comprising:
at least one electrode adapted to machine a workpiece across a gap upon application of a potential difference ΔV across said electrode and the workpiece; means for flowing an electrolyte through the gap and for flushing the electrolyte from the gap; means for feeding said at least one electrode toward the workpiece; at least one ultrasonic sensor adapted to direct an ultrasonic wave toward a surface of said electrode and to receive a reflected ultrasonic wave from the surface of said electrode, the reflected ultrasonic wave comprising a plurality of reflected waves from the surface of said electrode and from a surface of the workpiece; and a delay generator adapted to delay the excitation of said ultrasonic sensor a dwell time T d after a reduction of the potential difference ΔV across said electrode and the workpiece occurs.
23 . The electrochemical machining tool assembly of claim 22 , further comprising:
a power supply adapted to energize said at least one electrode for machining by applying the potential difference ΔV across said at least one electrode and the workpiece; and at least one pulser-receiver connected to a respective one of said at least one ultrasonic sensors, each of said at least one pulser-receivers being adapted to excite the respective ultrasonic sensor and to receive the respective reflected ultrasonic wave, each of said at least one pulser-receivers being further adapted to be triggered by said delay generator to excite the respective ultrasonic sensor after the dwell time T d after a reduction of the potential difference ΔV across said electrode and the workpiece occurs.
24 . The electrochemical machining tool assembly of claim 23 , wherein said delay generator is adapted to monitor the output from said power supply.
25 . The electrochemical machining tool assembly of claim 23 , wherein said power supply is adapted to supply a plurality of pulses to generate the potential difference ΔV between said at least one electrode and the workpiece during a plurality of pulse-on periods, and wherein said delay generator is adapted to delay the excitation of said at least one ultrasonic sensor the dwell time T d after a transition from the pulse-on state to a pulse-off state.
26 . The electrochemical machining tool assembly of claim 23 , wherein said power supply is a DC power supply adapted to apply the potential difference ΔV across said at least one electrode and the workpiece, said electrochemical machining tool assembly further comprising a controller adapted to repeatedly reduce the potential difference ΔV applied across said at least one electrode and the workpiece to generate a series of measurement periods Δt M ,
wherein said delay generator is adapted to delay the excitation of said ultrasonic sensor the dwell time T d after a start of one of the measurement periods Δt M .
27 . The electrochemical machining tool assembly of claim 23 , wherein the dwell time T d is in a range of about seven milliseconds (7 ms) to about 15 milliseconds (15 ms).
28 . The electrochemical machining tool assembly of claim 23 , wherein said delay generator is adapted to adjust the dwell time T d .
29 . The electrochemical machining tool assembly of claim 23 , further comprising a controller, said controller being adapted to generate a plurality of monitoring data by analyzing the reflected ultrasonic wave to determine at least one of (a) a size of the gap between said electrode and the workpiece and (b) a thickness of the workpiece.
30 . The electrochemical machining tool assembly of claim 29 , wherein said controller is further adapted to control at least one of (a) said means for feeding said at least one electrode toward the workpiece and (b) said power supply, in response to the monitoring data.
31 . The electrochemical machining tool assembly of claim 23 , wherein each of said at least one ultrasonic sensors comprises an ultrasonic transducer.Cited by (0)
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