A jacketed consumable cartridge is provided for a liquid cooled plasma arc torch. The jacketed consumable cartridge comprises an electrode, a swirl ring securely affixed to and disposed circumferentially about a distal end of the electrode, and a nozzle securely affixed to the swirl ring, the nozzle disposed circumferentially about the distal end of the electrode with a portion of the swirl ring located therebetween. The cartridge also comprises a cartridge jacket securely affixed to and disposed circumferentially about a distal end of the nozzle and a shield securely affixed to and disposed circumferentially about a distal end of the cartridge jacket. A proximal end of the cartridge jacket is adapted to extend (i) axially past a proximal end of the shield and (ii) radially beyond a radial extent of the shield.

Submerged arc welding torches and systems to resistively preheat electrode wire are disclosed. A disclosed example submerged arc welding torch includes: a first contact tip configured to transfer weld current and preheating current to the wire; a second contact tip configured to conduct the preheating current to the wire; an air-cooled first conductive body portion configured to receive the weld current and to conduct the weld current and the preheating current to the first contact tip; an air-cooled second conductive body portion configured to receive the preheating current and to conduct the preheating current to the second contact tip; and an insulator coupled between the first and second conductive body portions.

Submerged arc welding torches and systems to resistively preheat electrode wire are disclosed. A disclosed example submerged arc welding torch includes: a first contact tip configured to transfer weld current and preheating current to the wire; a second contact tip configured to conduct the preheating current to the wire; an air-cooled first conductive body portion configured to receive the weld current and to conduct the weld current and the preheating current to the first contact tip; an air-cooled second conductive body portion configured to receive the preheating current and to conduct the preheating current to the second contact tip; and an insulator coupled between the first and second conductive body portions.

Embodiments of a welding torch with an improved handle are provided. The welding torch may include an electrical conductor, an outer material layer disposed about the electrical conductor, and a sealed vacuum region disposed between the electrical conductor and the outer material layer.

Embodiments of a welding torch with an improved handle are provided. The welding torch may include an electrical conductor, an outer material layer disposed about the electrical conductor, and a sealed vacuum region disposed between the electrical conductor and the outer material layer.

An improved approach for welding a pipe, the pipe comprising first and second tubular sections welded to each other along a welding groove having an open-ended profile which is circumferentially extended around a pipe axis. The welding groove is formed between first and second axial edges and includes a root formed at a radially inner end of the welding groove and a portion of the welding groove radially outward relative to a root. The root axially spaces the first tubular section apart from the second tubular section substantially between 1 mm and 6 mm and the first and second axial edges are angled substantially between 6-20° (or 6-30°) away from each other radially outwardly to form the portion. The root can receive a first welding bead to fill the root and create a joint between the first and second tubular sections and additional welding beads may be utilized.

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.

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.

A method and apparatus for providing welding type power on one of at least two output terminals is disclosed. Input power is received and welding type power is derived and provided by a shared power circuit. The welding type power is provided across a shared terminal and only two process terminals in response to a desired process. The desired process can be set by user input, feedback, or sensing working connections. The process terminal is selected by selectively opening and closing at least two controllable switches.

A method and apparatus for providing welding type power on one of at least two output terminals is disclosed. Input power is received and welding type power is derived and provided by a shared power circuit. The welding type power is provided across a shared terminal and only two process terminals in response to a desired process. The desired process can be set by user input, feedback, or sensing working connections. The process terminal is selected by selectively opening and closing at least two controllable switches.