Adaptable rotating arc welding method and system

US 9,511,442 B2
Filed: 02/14/2013
Issued: 12/06/2016
Est. Priority Date: 07/27/2012
Status: Active Grant

First Claim

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1. A welding method comprising:

establishing an arc between a welding electrode and a workpiece;

feeding the welding electrode from a welding torch while cyclically moving the welding electrode in a desired pattern by a motion control assembly within the welding torch, wherein the motion control assembly cyclically moves the welding electrode at a rate of at least 50 hertz, and the desired pattern comprises a non-circular pattern with respect to a central position of the welding electrode of the welding torch;

advancing the welding torch or the workpiece to establish a weld bead; and

altering a geometry of the desired pattern while maintaining the arc and weld bead.

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Abstract

A welding operation is performed utilizing a rotating arc resulting from movement of a welding electrode in a welding torch. Workpiece fit-up is determined as the weld progresses, such as via a camera and image analysis. In the event that fit-up changes, such as by the development of gaps between the workpieces, one or more parameters of the system may be altered, such as the geometry of the electrode movement, the travel speed, the wire feed speed, the weld power applied to the electrode, and so forth. The technique may be automated, such as for accommodating welding via welding robots.

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20 Claims

1. A welding method comprising:
- establishing an arc between a welding electrode and a workpiece;
  
  feeding the welding electrode from a welding torch while cyclically moving the welding electrode in a desired pattern by a motion control assembly within the welding torch, wherein the motion control assembly cyclically moves the welding electrode at a rate of at least 50 hertz, and the desired pattern comprises a non-circular pattern with respect to a central position of the welding electrode of the welding torch;
  
  advancing the welding torch or the workpiece to establish a weld bead; and
  
  altering a geometry of the desired pattern while maintaining the arc and weld bead.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The welding method of claim 1, wherein altering the geometry of the desired pattern comprises altering a major axis of a generally elliptical pattern.
  - 3. The welding method of claim 1, comprising also altering a wire feed speed of the welding electrode.
  - 4. The welding method of claim 1, comprising also altering a travel speed of the welding torch.
  - 5. The welding method of claim 1, comprising also altering a parameter of weld power applied to the welding electrode.
  - 6. The welding method of claim 1, comprising detecting a fit-up parameter of the workpiece, and wherein the geometry of the desired pattern is altered based upon the detected fit-up parameter.
  - 7. The welding method of claim 6, wherein the fit-up parameter is detected by a detector mounted to the welding torch.
  - 8. The welding method of claim 1, wherein the welding torch is mounted to a welding robot.

9. A welding method comprising:
- establishing an arc between a welding electrode and a workpiece;
  
  feeding the welding electrode from a welding torch while cyclically moving the welding electrode in a desired pattern by a motion control assembly within the welding torch, wherein the motion control assembly cyclically moves the welding electrode at a rate of at least 50 hertz, and the desired pattern comprises a non-circular pattern with respect to a central position of the welding electrode of the welding torch;
  
  advancing the welding torch or the workpiece to establish a weld bead;
  
  detecting a fit-up parameter of the workpiece; and
  
  altering a geometry of the desired pattern based upon the detected fit-up parameter while maintaining the arc and weld bead.
- View Dependent Claims (10, 11, 12, 13)
- - 10. The welding method of claim 9, wherein altering the geometry of the desired pattern comprises altering a major axis of a generally elliptical pattern.
  - 11. The welding method of claim 9, comprising also altering a wire feed speed of the welding electrode based upon the detected fit-up parameter.
  - 12. The welding method of claim 9, comprising also altering a travel speed of the welding torch based upon the detected fit-up parameter.
  - 13. The welding method of claim 9, comprising also altering a parameter of weld power applied to the welding electrode based upon the detected fit-up parameter.

14. A welding method comprising:
- establishing an arc between a welding electrode and a workpiece;
  
  feeding the electrode from a welding torch while cyclically moving the welding electrode in a noncircular desired pattern by a motion control assembly within the welding torch, wherein the motion control assembly cyclically moves the welding electrode at a rate of at least 50 hertz;
  
  advancing the welding torch or the workpiece to establish a weld bead; and
  
  altering at least one of a geometry of the noncircular desired pattern, a welding torch travel speed, an electrode wire feed speed, a parameter of welding power applied to the welding electrode, and a rate of cyclic movement of the welding electrode while maintaining the arc and weld bead.
- View Dependent Claims (15, 16)
- - 15. The welding method of claim 14, comprising detecting a fit-up parameter of the workpiece, and wherein the alteration is based upon the detected fit-up parameter.
  - 16. The welding method of claim 15, wherein the fit-up parameter is detected by a detector mounted to the welding torch.

17. A welding system comprising:
- a power supply configured to generate welding power;
  
  a welding torch configured to receive the welding power;
  
  a wire feeder configured to feed welding wire to the welding torch;
  
  a welding wire rotation assembly associated with the welding torch and configured to move the welding wire in a non-circular pattern with respect to a central position of the welding wire of the welding torch as the welding wire is advanced towards a work piece and as an arc is maintained by the welding power, wherein the welding wire rotation assembly cyclically moves the welding wire at a rate of at least 50 hertz;
  
  a fit-up parameter detection component configured to detect a fit-up parameter of a workpiece; and
  
  control circuitry configured to alter movement of the welding wire based upon the fit-up parameter.
- View Dependent Claims (18, 19, 20)
- - 18. The welding system of claim 17, wherein movement of the welding torch is controlled by a welding robot on which the welding torch is mounted.
  - 19. The welding system of claim 17, wherein the fit-up parameter detection component is mounted to the welding torch.
  - 20. The welding system of claim 17, wherein the control circuitry comprises circuitry of at least one of the power supply and the wire feeder.

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Current Assignee
Illinois Tool Works Inc.
Original Assignee
Illinois Tool Works Inc.
Inventors
Panelli, Edward J.
Primary Examiner(s)
Evans, Geoffrey S

Application Number

US13/767,392
Publication Number

US 20140027422A1
Time in Patent Office

1,391 Days
Field of Search
US Class Current

1/1
CPC Class Codes

B23K 31/003   relating to controlling of ...

B23K 9/0216   Seam profiling, e.g. weavin...

B23K 9/095   Monitoring or automatic con...

B23K 9/0956   using sensing means, e.g. o...

B23K 9/173   and of a consumable electrode

Adaptable rotating arc welding method and system

First Claim

1 Assignment

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Abstract

Citations

20 Claims

Specification

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Adaptable rotating arc welding method and system

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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