Patents Assigned to Esab, AB
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Patent number: 11033978Abstract: A method for determining a value of arc voltage in a welding system, the welding system including a switch mode power supply and a controller that controls operation of the switch mode power supply, the method including, during an active power delivery stage of the switch mode power supply sensing a first internal voltage (V20) within the switch mode power supply prior to an internal inductor and a first output voltage (V21) of the switch mode power supply; during a freewheeling stage of the switch mode power supply sensing a second internal voltage (VF) within the switch mode power supply prior to the internal inductor and a second output voltage (V22) of the switch mode power supply; and determining the value of arc voltage based on the first internal voltage, the first output voltage, the second internal voltage, and the second output voltage.Type: GrantFiled: February 28, 2018Date of Patent: June 15, 2021Assignee: ESAB ABInventor: Andrzej Mnich
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Patent number: 10994362Abstract: An arc electric welding head comprising a first contact device housing a first duct for feeding a first electrode and providing electrical contact between a first power source and said first electrode, a second contact device housing a second duct for feeding a second electrode and providing electrical contact between a second power source and said second electrode, said first and second contact devices being electrically insulated from each other, said first and second ducts being parallel.Type: GrantFiled: December 23, 2011Date of Patent: May 4, 2021Assignee: ESAB ABInventor: Hannes Raudsepp
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Patent number: 10944328Abstract: An apparatus to provide welding power. The apparatus may include a direct current-alternate current (DC-AC) power converter to output a primary current and a transformer stage. The transformer stage may include at least one power transformer to receive the primary current from the (DC-AC) power converter on a primary side of the transformer stage and to output a first voltage through a first rectifier and a first set of secondary windings disposed on a secondary side of the transformer stage. The transformer stage may further include an auxiliary set of secondary windings disposed on the secondary side to output a second voltage. The apparatus may also include a pair of active unidirectional switches disposed on the secondary side to receive the second voltage from the auxiliary set of secondary windings.Type: GrantFiled: May 29, 2018Date of Patent: March 9, 2021Assignee: ESAB ABInventor: Andrzej Mnich
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Patent number: 10933485Abstract: A method of operating a welding power supply during a welding process in which an electric arc between a consumable electrode and a work piece is generated while feeding the consumable electrode and moving the arc in relation to the work piece along a welding track, wherein a transition between a DC power output of the welding power supply and an AC power output of the welding power supply, or vice versa, is made without interruption of the welding process.Type: GrantFiled: November 29, 2018Date of Patent: March 2, 2021Assignee: ESAB ABInventor: Per Aberg
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Patent number: 10913127Abstract: A method comprising an arc ignition phase (IP), an arc-stabilizing phase (AP) and a stable arc phase (SP). The arc stabilizing phase comprises an initial sub-phase (IS) comprising the step of feeding at least one hot wire (4, 12) at constant feed speed and a main sub-phase (MS) comprising the steps of feeding said hot wire at constant feed speed and feeding at least one cold wire (22) at constant feed speed. The stable arc phase comprises the steps of continuously adjusting the feed speed of the hot wire and continuously adjusting the feed speed of the cold wire. The invention also relates to a welding apparatus (1) for carrying out the method. The welding apparatus comprises a hot wire feeding means (150), a contact means (2), a cold wire feeding means (35) and a control unit (31).Type: GrantFiled: November 2, 2012Date of Patent: February 9, 2021Assignee: ESAB ABInventors: Hannes Raudsepp, Martin Andersson, Tomas Johansson, Rikard Ljungkvist
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Patent number: 10910953Abstract: An apparatus to provide welding power. The apparatus may include a direct current-alternate current (DC-AC) power converter to output a primary current and a transformer stage. The transformer stage may include at least one power transformer to receive the primary current from the (DC-AC) power converter on a primary side of the transformer stage and to output a first voltage through a first rectifier and a first set of secondary windings disposed on a secondary side of the transformer stage. The transformer stage may further include an auxiliary set of secondary windings disposed on the secondary side to output a second voltage. The apparatus may also include a pair of active unidirectional switches disposed on the secondary side to receive the second voltage from the auxiliary set of secondary windings.Type: GrantFiled: May 29, 2018Date of Patent: February 2, 2021Assignee: ESAB ABInventor: Andrzej Mnich
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Patent number: 10875117Abstract: Various embodiments may be generally directed to a welding system that can adjust parameters of a welding process that is restarted after an interruption. The adjusted parameters can account for the temperature of an electrode, parent material, and/or weld pool which may change during the interruption. The adjusted parameters can be optimized based on these temperatures to enhance the quality and reliability of the weld as it restarts.Type: GrantFiled: August 22, 2017Date of Patent: December 29, 2020Assignee: ESAB ABInventors: Per Aberg, Johan Toftling, Mikael Pettersson, Jakob Lennartsson
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Patent number: 10870177Abstract: The present disclosure relates to a system of modular functional blocks that may be used to facilitate easy assembly of a welding head assembly in any one of a wide variety of configurations to allow for distribution of welding wire, gas, cooling fluid and other media throughout an interconnected assembly of the modular functional blocks. As such, the modular functional blocks can be mixed and matched into any desired configuration as needed depending on the welding process being undertaken. The modular functional blocks may be in the form of one or more different welding wire delivery blocks, gas delivery blocks, cooling water delivery blocks, shim plates, end plates, shield cup, cover plates, insulating plates, etc.Type: GrantFiled: June 22, 2017Date of Patent: December 22, 2020Assignee: ESAB ABInventor: Edward E. Hansen
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Patent number: 10857617Abstract: A contact device for feeding current to one or more welding wires in a welding apparatus includes a split tip nozzle having first and second diametrically opposed slots formed therein and a biasing means for supplying an adjustable biasing force to first and second split tips to bias the first and second split tips together to ensure that a desired contact between the split tip nozzle and the one or more welding wires is maintained throughout the lifecycle of the nozzle. The biasing force may be applied by any means including, for example, a compression ring, interaction of tapered surfaces between the tube and the split tip nozzle, a compression or cylinder spring pre-mounted on the first and second split tips, a tensioning screw, etc.Type: GrantFiled: June 22, 2017Date of Patent: December 8, 2020Assignee: ESAB ABInventors: Hannes Hugo Raudsepp, Pierre Magnus Robert Svedlund
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Patent number: 10857615Abstract: A contact device for a welding apparatus is disclosed. The contact device for feeding current to at least a first welding wire and a second welding wire. The contact device including first and second contact jaws. The first and second contact jaws including a slot formed therein to provide the first and second contact jaws with improved flexibility to individually and independently flex about the first and second welding wires to ensure proper contact is maintained between the contact jaws and the welding wire.Type: GrantFiled: June 22, 2017Date of Patent: December 8, 2020Assignee: ESAB ABInventor: Hannes Hugo Raudsepp
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Patent number: 10730131Abstract: Various embodiments may be generally directed to a welding system that monitors an output of the welding system to determine if an output arc should be extinguished or maintained. The welding system can compare an arc voltage output to a voltage threshold and a temporal threshold. When the arc voltage output exceeds the voltage threshold in an uninterrupted manner for the duration of the temporal threshold, an output weld current can be stopped. In turn, the output arc can be broken or extinguished. After a predetermined amount of time, the power source can be re-engaged to prepare for re-ignition of another arc. By tracking the amount of time the arc voltage output exceeds the predetermined threshold, a probability of unwanted arc outs can be reduced or minimized while still providing quick and reliable arc breaking when desired.Type: GrantFiled: August 23, 2017Date of Patent: August 4, 2020Assignee: ESAB ABInventors: Per Aberg, Johan Toftling, Mikael Pettersson, Jakob Lennartsson
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Patent number: 10688589Abstract: A system for monitoring a welding device including a wire feed device and a processor communicatively coupled to a non-transitory computer-readable medium. The wire feed device may include a motor to rotate a roller to advance a filler wire from a bobbin towards a torch. The processor may execute instructions stored on the non-transitory computer-readable medium to determine an applied feed force parameter and a threshold feed force parameter and compare the applied feed force parameter to the threshold feed force parameter to update an error state indicator, such as a user interface, for example.Type: GrantFiled: June 20, 2017Date of Patent: June 23, 2020Assignee: ESAB ABInventors: Benny Svendsen, Oscar Eriksson
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Patent number: 10661379Abstract: The flash removal unit presented herein is suitable for a friction stir welding (FSW) head and includes a blade and an annular body. The blade removes flash created by a FSW tool during FSW operations. The an annular body defines a flash capture area around the blade and is configured to at least temporarily retain the flash removed by the blade within the flash capture area. The flash removal unit may also define a flow path along which the flash can be suctioned away from the flash removal unit.Type: GrantFiled: December 21, 2018Date of Patent: May 26, 2020Assignee: ESAB ABInventors: Håkan Larsson, Jörgen Säll
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Patent number: 10637362Abstract: A power supply may include a power block to receive an input power and generate an output power; and a control system coupled to the power block, wherein the power block and control system are arranged to provide unidirectional current flow and bipolar voltage during operation of the power supply.Type: GrantFiled: February 25, 2019Date of Patent: April 28, 2020Assignee: ESAB ABInventor: Andrzej Mnich
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Patent number: 10625362Abstract: A twin wire welding apparatus including a first contact tube for guiding a first consumable electrode toward a weld puddle and transferring welding current to the first consumable electrode, a second contact tube for guiding a second consumable electrode toward said weld puddle and transferring welding current to the second consumable electrode, and a single power source connected to said first and second contact tubes for providing the same potential to said two consumable electrodes, and a method for operating such an apparatus.Type: GrantFiled: October 15, 2015Date of Patent: April 21, 2020Assignee: ESAB ABInventor: Michael Berg
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Patent number: 10608554Abstract: A power supply, including a primary pre-converter, coupled to supplying mains, configured to receive an AC voltage at low frequency and output a high DC voltage, and further configured to receive the high DC voltage and to output the alternating current; a primary converter, disposed on a primary side of the power supply, coupled to the high DC voltage from the primary pre-converter; an isolating transformer to receive the high frequency AC voltage and output a high frequency secondary AC voltage, and to receive a high frequency secondary AC current and to output primary high frequency AC current; and an output converter, on a secondary side of the power supply, wherein the output converter is configured to receive high frequency AC voltage from the isolating transformer and to output a DC voltage of a first or second polarity to an output, and wherein the output converter is configured to receive DC current of a first or second direction from the output and to output a high frequency AC current to the isolatType: GrantFiled: March 4, 2019Date of Patent: March 31, 2020Assignee: ESAB ABInventor: Andrzej Mnich
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Patent number: 10520929Abstract: Various embodiments are generally directed to techniques for implementing universal commands in a welding or cutting system. Techniques described herein may include a method including receiving, by a processor of a welding system, a command over a communication interface of the welding system. The command may be parsed into a command identifier. The command may be registered with a control module. The registered command may be assigned a sequence number. The command may be executed by the processor based upon the assigned sequence number. The results of the execution of the command may be stored into an output buffer. The results of the command may be sent via the communication interface to a node of the welding system.Type: GrantFiled: August 24, 2017Date of Patent: December 31, 2019Assignee: ESAB ABInventors: Stefan Rickfjord, Jonatan Åkerlind
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Patent number: 10486256Abstract: The present application relates to an electric arc welding method to be used with an arc welding arrangement (1) comprising a first power source, a first electrode (2) connected to said first power source, and a second electrode (7), said first electrode (2) being adapted to generate a weld pool (28) via a first electric arc present within a first arc region (31) and said second electrode (7) being adapted to generate said weld pool via a second electric arc present within a second arc region. The first electrode (2) is operated at welding parameters adapted to maintain said first arc ignited. The second electrode (7) is operated at welding parameters adapted to ensure that excess energy from at least said first electrode (2) is required to maintain said second arc ignited. The method comprises the step of feeding said second electrode (7) so that it is allowed to consume excess energy from said first electrode (2) to maintain said second arc ignited.Type: GrantFiled: December 20, 2013Date of Patent: November 26, 2019Assignee: ESAB ABInventors: Hannes Raudsepp, Vesa Kiiskinen
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Patent number: 10456858Abstract: The friction stir welding head presented herein includes a head housing and an axle. The head housing extends from a top end to an open bottom end and defines a bore extending between the top end and the open bottom end. The axle that is coaxial with and rotatable within the bore. The axle is also laterally secured within the head housing and axially movable with respect to the head housing. Still further, the axle includes an engagement end that extends beyond the open bottom end of the head housing. The engagement end supports a friction stir welding tool that is configured to rotate with the axle to effectuate friction stir welding operations. The friction stir welding head may also include a load cell configured to generate load signals in response to axial movement of the axle.Type: GrantFiled: March 30, 2018Date of Patent: October 29, 2019Assignee: ESAB ABInventor: Åke Landmark
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Patent number: D914071Type: GrantFiled: November 2, 2018Date of Patent: March 23, 2021Assignee: ESAB ABInventors: Jeroen Dekker, Johan Johansson