Patents by Inventor Steven R. Peters

Steven R. Peters has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 11027362
    Abstract: A system and method to correct for height error during a robotic additive manufacturing process. One or both of an output current, output voltage, output power, output circuit impedance and a wire feed speed are sampled during an additive manufacturing process when creating a current layer. A plurality of instantaneous contact tip-to-work distances (CTWD's) are determined based on at least one or both of the output current, output voltage, output power, output circuit impedance and the wire feed speed. An average CTWD is determined based on the plurality of instantaneous CTWD's. A correction factor is generated, based on at least the average CTWD, which is used to compensate for any error in height of the current layer.
    Type: Grant
    Filed: November 26, 2018
    Date of Patent: June 8, 2021
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Jason Kenneth Flamm, Steven R. Peters, William Thomas Matthews, Paul Edward Denney, Jonathan Paul, Levi Mitchell
  • Patent number: 11007595
    Abstract: An electric arc welder and a method for performing a pulse welding process producing reduced spatter. The welder produces a current between an advancing electrode and a workpiece. The welder includes a short-detecting capability for detecting a short condition upon occurrence of a short circuit between the advancing electrode and the workpiece. The welder may also include a switching module in the welding circuit path of the welder having an electrical switch and a resistive path. Times of occurrence of short intervals can be tracked and a blanking signal can be generated based on the tracked short intervals to anticipate a next short interval in a next pulse period of the pulsed welding process. The blanking signal can be used to reduce a welding current in the welding circuit path by introducing additional resistance into the welding circuit path via the switching module, for example.
    Type: Grant
    Filed: August 15, 2016
    Date of Patent: May 18, 2021
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Joseph A. Daniel, Stephen Cole, Steven R. Peters
  • Patent number: 11007594
    Abstract: A system and method to correct for deposition errors during a robotic welding additive manufacturing process. The system includes a welding power source to sample instantaneous parameter pairs of welding output current and wire feed speed in real time during a robotic welding additive manufacturing process while creating a current weld layer of a 3D workpiece part. An instantaneous ratio of welding output current and wire feed speed are determined for each instantaneous parameter pair. A short term running average ratio is determined based on the instantaneous ratios. A relative correction factor is generated based on at least the short term running average ratio and is used in real time while creating the current weld layer to compensate for deviations in a deposit level from a desired deposit level for the current weld layer.
    Type: Grant
    Filed: October 10, 2019
    Date of Patent: May 18, 2021
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Joseph A. Daniel, Steven R. Peters
  • Publication number: 20210101222
    Abstract: The present disclosure describes devices and methods directed at an improved system capable of achieving ultra-high deposition rates. In particular, devices and methods are described for implementing a welding system that includes a GMAW welding system and a hot wire welding system in order to achieve ultra-high deposition rates. In general, the welding system includes a consumable cored welding wire that serves as an electrode. The consumable cored welding wire that includes one or more alkaline earth metal elements at a concentration between 0.005% and 10% on the bases of total weight of the consumable cored welding wire. The hot wire welding system includes a consumable hot wire configured to be positioned into a molten weld pool created by the melted consumable cored welding wire.
    Type: Application
    Filed: October 4, 2019
    Publication date: April 8, 2021
    Inventors: John B. Schaeffer, Yen-Chih Liao, Kent R. Johns, Steven R. Peters
  • Publication number: 20210094112
    Abstract: A welding or additive manufacturing system includes a contact tip assembly having first and second exit orifices. A wire feeder is configured to deliver a first and second wire electrodes through the exit orifices. An arc generation power supply is configured to output a current waveform to the wire electrodes simultaneously, through the contact tip assembly. The current waveform includes a bridging current portion, and a background current portion having a lower current level than the bridging current portion. The bridging current portion has a current level sufficient to form a bridge droplet between the wire electrodes before the bridge droplet is transferred to a molten puddle during a deposition operation. Solid portions of the wire electrodes do not contact each other during the deposition operation. The bridge droplet is transferred to the molten puddle during a short circuit event between the molten puddle and the wire electrodes.
    Type: Application
    Filed: September 27, 2019
    Publication date: April 1, 2021
    Inventors: Judah B. Henry, Daniel P. Fleming, Steven R. Peters
  • Publication number: 20210078109
    Abstract: A welding wire drive roll has an outer circumferential surface having a circumferential groove projecting radially inward from the outer circumferential surface. The circumferential groove is formed by a first sidewall having a first sidewall surface, a second sidewall having a second sidewall surface, and a groove base extending between the first sidewall and the second sidewall. The first sidewall surface includes a first surface finishing comprising a first ring of laser-formed craters along the first sidewall surface. The second sidewall surface includes a second surface finishing comprising a second ring of laser-formed craters along the second sidewall surface.
    Type: Application
    Filed: August 7, 2020
    Publication date: March 18, 2021
    Inventors: Bradford W. Petot, Matthew A. Albright, Steven R. Peters
  • Patent number: 10933492
    Abstract: Embodiments of systems and methods of additive manufacturing are disclosed. In one embodiment, a metal deposition device (MDD) is configured to deposit a metal material during an additive manufacturing process. A controller is operatively coupled to the MDD and is configured to command the MDD to deposit the metal material on a base to form a contour of a part. The controller is configured to command the MDD to deposit the metal material on the base to form an infill pattern within a region outlined by the contour. The infill pattern is a wave shape having a wavelength. The controller is configured to command the metal deposition device to fuse the infill pattern to the metal contour at crossover points, where the infill pattern meets the contour, by applying energy at the crossover points and reducing a deposition rate of the metal material at the crossover points to prevent distorting the contour.
    Type: Grant
    Filed: August 2, 2018
    Date of Patent: March 2, 2021
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Steven R. Peters, Andrew R. Peters, William T. Matthews
  • Publication number: 20200398364
    Abstract: A system and method of welding or additive manufacturing is provided where at least two welding electrodes are provided to and passed through a two separate orifices on a single contact tip and a welding waveform is provided to the electrodes through the contact tip to weld simultaneously with both electrodes, where a bridge droplet is formed between the electrodes and then transferred to the puddle.
    Type: Application
    Filed: September 3, 2020
    Publication date: December 24, 2020
    Inventors: Matthew A. Weeks, Steven R. Peters, Bruce J. Chantry
  • Patent number: 10821535
    Abstract: A welding system includes a feeder that advances a self-shielded flux-cored welding electrode toward a weld puddle. A power supply provides a welding output to the electrode to generate an arc, and a controller controls the welding output. The controller controls the power supply to provide a background welding output to the electrode before a shorting event between the electrode and a workpiece is detected. The controller monitors the welding output to detect both the shorting event and the clearance thereof. Upon detecting clearance of the short, the controller automatically switches the welding output to a minimum magnitude fixed current welding output. After the predetermined duration, the controller automatically switches the welding output from the minimum magnitude fixed current welding output back to the background welding output until another shorting event is detected.
    Type: Grant
    Filed: March 16, 2017
    Date of Patent: November 3, 2020
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Steven R. Peters, David Earle Mooney, Jr.
  • Patent number: 10792752
    Abstract: A system and method of welding or additive manufacturing is provided where at least two welding electrodes are provided to and passed through a two separate orifices on a single contact tip and a welding waveform is provided to the electrodes through the contact tip to weld simultaneously with both electrodes, where a bridge droplet is formed between the electrodes and then transferred to the puddle.
    Type: Grant
    Filed: August 8, 2017
    Date of Patent: October 6, 2020
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Matthew A. Weeks, Steven R. Peters, Bruce John Chantry
  • Patent number: 10773335
    Abstract: A system and method of welding or additive manufacturing is provided where at least two welding electrodes are provided to and passed through a two separate orifices on a single contact tip and a welding waveform is provided to the electrodes through the contact tip to weld simultaneously with both electrodes, where a bridge droplet is formed between the electrodes and then transferred to the puddle.
    Type: Grant
    Filed: August 8, 2017
    Date of Patent: September 15, 2020
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Matthew A. Weeks, Steven R. Peters, Bruce John Chantry
  • Patent number: 10744584
    Abstract: A welder power supply and welding method are provided which utilizes a short arc welding method in which the waveforms have a positive polarity portion and negative portion to optimize heat input and provide heat and current control.
    Type: Grant
    Filed: January 27, 2017
    Date of Patent: August 18, 2020
    Assignee: LINCOLN GLOBAL, INC.
    Inventor: Steven R Peters
  • Publication number: 20200246891
    Abstract: A welding or additive manufacturing wire drive system includes a first drive roll and a second drive roll. One or both of the drive rolls has a circumferential groove for simultaneously driving both of a first wire electrode and a second wire electrode located between the drive rolls in the circumferential groove. A sensor device generates a signal or data corresponding to a consumed or remaining amount of one or both of the wire electrodes. The first wire electrode contacts the second wire electrode within the circumferential groove. The first wire electrode further contacts a first sidewall portion of the circumferential groove. The second wire electrode further contacts a second sidewall portion of the circumferential groove. Both of the wire electrodes are offset from a base portion of the circumferential groove, said base portion extending between the first sidewall portion and the second sidewall portion of the circumferential groove.
    Type: Application
    Filed: February 5, 2019
    Publication date: August 6, 2020
    Inventors: Alexander C. Mehlman, Todd E. Kooken, Steven R. Peters, Matthew A. Weeks, Bruce J. Chantry, Bradford W. Petot
  • Patent number: 10722967
    Abstract: A welder power supply and welding method are provided which utilizes a short arc welding method in which the waveforms have a positive polarity portion and negative portion to optimize heat input and provide heat and current control.
    Type: Grant
    Filed: January 27, 2017
    Date of Patent: July 28, 2020
    Assignee: LINCOLN GLOBAL, INC.
    Inventor: Steven R Peters
  • Publication number: 20200215636
    Abstract: Methods and system of the present invention include hot-wire strip deposition system used in combination with a high heat source, where the system deposits a strip consumable into a molten puddle. During deposition the strip consumable is deposited at an angle relative to the workpiece surface and in some embodiments has a downforce applied to the consumable to maintain contact between the puddle and the consumable. The heating current for the consumable is turned off or greatly reduced when an arcing event is detected. In some embodiments the strip consumable can be curved to promote contact during the deposition process.
    Type: Application
    Filed: January 8, 2019
    Publication date: July 9, 2020
    Inventors: Kyle G. Smith, Steven R. Peters, Paul Edward Denney
  • Patent number: 10702942
    Abstract: An arc welder produces a weave pattern between workpieces. Each weld run comprises a center portion including a joining region between the workpieces and edge regions spaced apart from the joining region. The welder includes a power source that provides a welding waveform to a welding electrode to generate an arc to achieve a desired heat for welding, a welding torch, and an oscillator for oscillating the torch between the welding edge regions. A controller causes the power source to operate in a first mode utilizing a first waveform during welding within the joining region, and in a second mode using a second waveform, having a greater positive component than the first waveform, during welding within the edge regions. The controller determines a stickout value based on the first waveform but not the second waveform, and performs seam tracking based the second waveform but not the first waveform.
    Type: Grant
    Filed: March 30, 2017
    Date of Patent: July 7, 2020
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Steven R. Peters, John Benjamin Schaeffer, David A. Fink
  • Publication number: 20200189019
    Abstract: A welding or additive manufacturing wire drive system includes a welding wire spool and first and second drive rolls. One or both of the drive rolls has a circumferential groove. The system includes a first welding wire, drawn from the welding wire spool, and located between the drive rolls in the circumferential groove, and a second welding wire, drawn from the welding wire spool, and located between the drive rolls in the circumferential groove. The first welding wire contacts the second welding wire between the first drive roll and the second drive roll. The first welding wire further contacts a first sidewall portion of the circumferential groove, and the second welding wire further contacts a second sidewall portion of the circumferential groove. Both of the first welding wire and the second welding wire are radially offset from a central portion of the circumferential groove.
    Type: Application
    Filed: February 10, 2020
    Publication date: June 18, 2020
    Inventors: Jean-Luc Bombardier, Steven R. Peters, Alexander C. Mehlman, Matthew A. Weeks, Bradford W. Petot
  • Patent number: 10682717
    Abstract: A system and method to correct for height error during a robotic welding additive manufacturing process. One or both of a welding output current and a wire feed speed are sampled during a robotic welding additive manufacturing process when creating a current weld layer. A plurality of instantaneous contact tip-to-work distances (CTWD's) are determined based on at least one or both of the welding output current and the wire feed speed. An average CTWD is determined based on the plurality of instantaneous CTWD's. A correction factor is generated, based on at least the average CTWD, which is used to compensate for any error in height of the current weld layer.
    Type: Grant
    Filed: March 21, 2017
    Date of Patent: June 16, 2020
    Assignee: LINCOLN GLOBAL, INC.
    Inventors: Joseph A. Daniel, Steven R. Peters
  • Patent number: 10682719
    Abstract: A welder power supply and welding method are provided which utilizes a short arc welding method in which the waveforms have a positive polarity portion and negative portion to optimize heat input and provide heat and current control.
    Type: Grant
    Filed: January 27, 2017
    Date of Patent: June 16, 2020
    Assignee: LINCOLN GLOBAL, INC.
    Inventor: Steven R Peters
  • Publication number: 20200156171
    Abstract: A welding or additive manufacturing system includes a power supply having a controller which controls operation of the power supply. The power supply provides a current waveform to a contact tip assembly having a first bore terminating at a first exit orifice and a second bore terminating at a second exit orifice. The first exit orifice is configured to deliver a first wire electrode and said second exit orifice is configured to deliver a second wire electrode. The exit orifices are separated from each other by a distance configured to facilitate formation of a bridge droplet between the wire electrodes while preventing solid portions of the first wire electrode delivered through the first bore from contacting solid portions of the second wire electrode delivered through the second bore, during a deposition operation in which the current waveform is conducted to both of the wire electrodes simultaneously through the contact tip assembly.
    Type: Application
    Filed: January 27, 2020
    Publication date: May 21, 2020
    Inventors: Matthew A. Albright, Matthew A. Weeks, Steven R. Peters, Andrew R. Peters, Bruce J. Chantry