Method and apparatus for controlling inverter resistance welding
First Claim
1. A method for controlling an inverter resistance welding machine having an inverter, said method comprising:
- computing an initial pulse width based on a ratio of a selected current value to a maximum allowable current value of the welding machine;
controlling the inverter with a control signal having a predetermined high-frequency;
supplying the inverter of the welding machine with a first control pulse within said control signal during a first cycle of a welding operation, said first control pulse having a width equal to said initial pulse width;
measuring an actual current value of the welding machine and computing a deviation between said actual current value and said selected current value during cycles of the welding operation; and
supplying the inverter of the welding machine with a subsequent control pulse within said control signal during cycles subsequent to the first cycle of the welding operation, said subsequent control pulse having a width computed based on said deviation such that said actual current value of the welding machine is maintained at a value near said selected current value.
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Abstract
Inverter-resistance welding control, for any resistance welding machine and for any welding operation, which guarantees a welding current having a quick rise time and which is free from overshoot. In particular, when a maximum allowable current value of the resistance welding machine involved has been entered and a selected current value of a particular welding operation has been entered, a CPU computes an initial pulse width of a control pulse from the maximum allowable current value and the selected current value. In a first cycle of the welding operation, the CPU supplies a first control pulse having the initial pulse width to the inverter circuit to thereby start the welding operation. The initial control pulse width is determined as a function of a machine current capacity and the desired current level of a welding operation, and may be made in proportion to a relative magnitude (ratio) of the desired current to the machine current capacity. In the subsequent cycles of the welding operation, the CPU reads the measured current value of each cycle and compares it with a selected current value to compute the deviation of the measured current value. Based on the deviation, the CPU determines a next pulse width in order that the deviation will be cancelled.
12 Citations
9 Claims
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1. A method for controlling an inverter resistance welding machine having an inverter, said method comprising:
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computing an initial pulse width based on a ratio of a selected current value to a maximum allowable current value of the welding machine; controlling the inverter with a control signal having a predetermined high-frequency; supplying the inverter of the welding machine with a first control pulse within said control signal during a first cycle of a welding operation, said first control pulse having a width equal to said initial pulse width; measuring an actual current value of the welding machine and computing a deviation between said actual current value and said selected current value during cycles of the welding operation; and supplying the inverter of the welding machine with a subsequent control pulse within said control signal during cycles subsequent to the first cycle of the welding operation, said subsequent control pulse having a width computed based on said deviation such that said actual current value of the welding machine is maintained at a value near said selected current value. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An apparatus for controlling an inverter resistance welding machine having an inverter, said apparatus comprising:
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input means for entering a maximum allowable current value of the welding machine and a selected current value; storage means for storing the selected current value and the maximum allowable current value inputted through said input means; control means for controlling the inverter with a control signal having a predetermined high-frequency; initial pulse width computing means for computing an initial pulse width based on a ratio of said selected current value to said maximum allowable current value; current measuring means for measuring an actual current value of the welding machine during a welding operation; subsequent pulse width computing means for computing a deviation between said actual current value and said selected current value and for computing a subsequent pulse width based on said deviation; and control pulse generating means for supplying, during a first cycle of the welding operation, a first control pulse within said control signal, to the inverter of the welding machine, said first control pulse having a width equal to said initial pulse width computed by said initial pulse width computing means, and for supplying, during cycles subsequent to the first cycle of the welding operation, a subsequent control pulse, within said control signal, to the inverter of the welding machine, said subsequent control pulse having a width equal to said subsequent pulse width computed by said subsequent pulse width computing means such that said actual current value of the welding machine is maintained at a value near said selected current value. - View Dependent Claims (8, 9)
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Specification
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- Resources
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Current AssigneeMiyachi Corporation (Amada Company Limited)
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Original AssigneeMiyachi Corporation (Amada Company Limited)
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InventorsShimada, Hiroshi
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Primary Examiner(s)Simmons, David A.
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Assistant Examiner(s)Rivard, Paul M.
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Application NumberUS08/688,291Time in Patent Office729 DaysField of Search219/108, 219/109, 219/110, 219/116, 219/117.1, 219/118US Class Current219/110CPC Class CodesB23K 11/257 the measured parameter bein...
