Adaptive schedule selective weld control

US 4,456,810 A
Filed: 03/29/1982
Issued: 06/26/1984
Est. Priority Date: 03/29/1982
Status: Expired due to Fees

First Claim

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1. A method for welding a workpiece located between electrodes comprising:

supplying alternating welding current to the electrodes;

determining the time rate of rise of resistance across the electrodes during the first several cycles of welding current in which the resistance increases steadily that are supplied immediately following the first few cycles of welding current during which the resistance changes unstably and without a steady trend; and

increasing the magnitude of the welding current if the time rate of resistance rise is less than a preselected rate or reducing the magnitude of the welding current if the time rate of resistance rise is greater than a preselected rate.

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Abstract

A spot weld control senses differences in welding current required to produce an optimum weld by determining the time rate of change of resistance during the increasing resistance portion of the weld cycle. The weld control can reduce the welding current if the time rate of resistance change exceeds a maximum value and increase the current if the resistance change is less than a minimum value. The weld current may be terminated when a decrease in resistance from the peak resistance value has reached a predetermined percentage of the peak resistance value or terminated after a predetermined number of current cycles.

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12 Claims

1. A method for welding a workpiece located between electrodes comprising:
- supplying alternating welding current to the electrodes;
  
  determining the time rate of rise of resistance across the electrodes during the first several cycles of welding current in which the resistance increases steadily that are supplied immediately following the first few cycles of welding current during which the resistance changes unstably and without a steady trend; and
  
  increasing the magnitude of the welding current if the time rate of resistance rise is less than a preselected rate or reducing the magnitude of the welding current if the time rate of resistance rise is greater than a preselected rate.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method of claim 1 further comprising:
    - continuously determining the time rate of resistance change occurring between successive welding current cycles; and
      
      increasing the magnitude of the welding current if the most recently determined time rate of resistance rise is less than a preselected minimum rate or decreasing the magnitude of the welding current if the most recently determined time of resistance rise is greater than a preselected maximum rate.
  - 3. The method of claim 2 further comprising discontinuing the supply of electric current to the electrodes if the resistance has decreased by a predetermined magnitude from the maximum resistance attained after the weld has begun to form.
  - 4. The method of claim 1 further comprising discontinuing the supply of electric current to the electrodes if the resistance has decreased by a predetermined magnitude from the maximum resistance attained after the weld has begun to form.
  - 5. The method of claim 1 wherein the time rate of resistance change is determined from the resistance across the electrodes when the time rate of weld current change is substantially zero.

6. A method for making electrical resistance welds using a spot welder having electrodes and a controllable electrical welding current supplied to the electrodes comprising:
- inserting the workpiece between the electrodes;
  
  supplying alternating welding current to the electrodes;
  
  determining the time rate of increase of resistance across the electrodes during each of the first several cycles of welding current in which the resistance increases steadily that are supplied immediately following the first few cycles of welding current supplied to the electrodes in which the resistance changes unstably and without a steady trend; and
  
  increasing the magnitude of welding current by an amount that varies with the difference between the determined time rate of resistance increase and a preselected rate if the determined time rate of resistance rise is less than the preselected rate, or reducing the magnitude of welding current by an amount that varies with the difference between the determined time rate of resistance increase and the preselected rate if the determined time rate of resistance increase is greater than the preselected rate.
- View Dependent Claims (7, 8)
- - 7. The method of claim 6 further comprising discontinuing the supply of electric current to the electrodes if the resistance has decreased by a predetermined magnitude from the maximum resistance attained after the weld has begun to form.
  - 8. The method of claim 6 wherein the magnitude of the welding current is continuously increased or decreased after each cycle of weld current during which the time rate of increase of resistance across the electrodes is determined.

9. A method for welding a workpiece located between electrodes comprising:
- supplying alternating welding current to the electrodes;
  
  determining the time rate of rise of resistance across the electrodes after the resistance has stabilized;
  
  increasing the magnitude of the welding current if the time rate of resistance rise is less than a preselected rate or reducing the magnitude of the welding current if the time rate of resistance rise is greater than a preselected rate;
  
  supplying a few cycles of low magnitude current to the electrodes before current at welding magnitude is supplied; and
  
  discontinuing the supply of current to the electrodes for a period of several power cycles while maintaining the workpiece in location between the electrodes and before current at welding magnitude is supplied.

10. A method for welding a workpiece located between electrodes comprising:
- supplying alternating welding current to the electrodes;
  
  continuously determining the time rate of resistance change across the electrodes occurring between successive welding current cycles;
  
  increasing the magnitude of the welding current if the time rate of resistance rise is less than a preselected minimum rate or decreasing the magnitude of the welding current if the most recently determined time of resistance rise is greater than a preselected maximum rate;
  
  supplying a few cycles of low magnitude current to the electrodes before current at welding magnitude is supplied; and
  
  discontinuing the supply of current to the electrodes for a period of several power cycles while maintaining the workpiece in location between the electrodes and before current at welding magnitude is supplied.

11. A method for welding a workpiece located between electrodes comprising:
- supplying alternating welding current to the electrodes;
  
  determining the time rate of rise of resistance across the electrodes after the resistance has stabilized;
  
  increasing the magnitude of the welding current if the time rate of resistance rise is less than a preselected rate or reducing the magnitude of the welding current if the time rate of resistance rise is greater than a preselected rate; and
  
  discontinuing the supply of electric current to the electrodes if the rate of change of the time rate of resistance rise twice becomes substantially zero after the resistance has stabilized, provided said rate of change becomes substantially other than zero during a period occurring between the periods when said rate of change is substantially zero.

12. A method for welding a workpiece located between electrodes comprising:
- supplying alternating welding current to the electrodes;
  
  determining the time rate of rise of resistance across the electrodes after the resistance has stabilized and while the time rate of weld current change is substantially zero;
  
  increasing the magnitude of the welding current if the time rate of resistance rise is less than a preselected rate or reducing the magnitude of the welding current if the time rate of resistance rise is greater than a preselected rate; and
  
  discontinuing the supply of electric current to the electrodes if the rate of change of the time rate of resistance rise twice becomes substantially zero after the resistance has stabilized, provided said rate of change becomes substantially other than zero during a period occurring between the periods when said rate of change is substantially zero.

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Current Assignee
Ford Motor Company
Original Assignee
Ford Motor Company
Inventors
Schumacher, Berthold W., Dilay, Walter
Primary Examiner(s)
Shaw, C. C.

Application Number

US06/362,802
Time in Patent Office

820 Days
Field of Search

219/110, 219/111, 219/109, 219/108, 219/117.1
US Class Current

219/110
CPC Class Codes

B23K 11/166 of galvanized or tinned mat...

B23K 11/256 the measured parameter bein...

Adaptive schedule selective weld control

First Claim

1 Assignment

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Abstract

40 Citations

12 Claims

Specification

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Adaptive schedule selective weld control

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

40 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links