Methods and apparatus to provide a consistent electrode state for welding, an example welding-type system includes: a first wire drive to feed an electrode wire through a welding torch; a bidirectional assisting wire drive to advance the electrode wire from a wire supply to the first wire drive; a tension-compression detector to detect a first tension-compression state of the electrode wire; and one or more motor controllers to control the first wire drive and the assisting wire drive to put the electrode wire in a predetermined position relative to the welding torch by: controlling the first wire drive to hold the electrode wire; and controlling the assisting wire drive to advance or retract the electrode wire based on the first tension-compression state to put the electrode wire in a second tension-compression state.

An example fume extractor for a robotic welding torch includes: a neck clamp configured to attach to a neck of a robotic welding torch; an intermediate mount rigidly attached to the neck clamp; a fume duct coupled to the intermediate mount and extending over the neck of the robotic welding torch toward a nozzle of the robotic welding torch; and a fume manifold rotationally coupled to the intermediate mount and coupled to a fume hose, wherein the fume manifold, the intermediate mount, and the fume duct are configured to communicate a negative pressure from the fume hose to an end of the fume duct closest to the nozzle of the robotic welding torch.

The present application discloses an electric welder, and relates to a field of an electric welding equipment. The electric welder includes a shell, a welding barrel, a controller and a welding wire feeder; the shell includes a handheld part, and the welding barrel, the controller and the welding wire feeder are installed in the shell; the welding wire feeder is configured for conveying the welding wire into the welding barrel; the controller is configured for controlling a start and a stop of the welding wire feeder and an arcing of the welding wire. The welding barrel, the controller and the welding wire feeder are installed in the shell to form an integral structure, which makes the welder more convenient to carry. In addition, by providing the welding wire feeder, a frequent replacement of the welding rod during a welding process is reduced, and the overall operation is more convenient.

A welding torch using a shielding gas includes a diffuser and an external nozzle integrated or fastened to an insulator and a welding tip fastened to the diffuser. The welding torch includes: the amplification nozzle installed as an inner nozzle part and an outer nozzle part on the upper and lower parts of gas outlets of the diffuser. The inner nozzle part is installed to be inclined on the welding tip, and the external nozzle is partially or entirely opened.

Apparatuses, systems, and/or methods for welding systems that provide independent control of a contact tip of a welding torch are disclosed. The welding system can include, for example, a welding torch that includes, for example, a contact tip and a pivot in which the contact tip is coupled to the pivot and is configured to provide wire that is fed through the welding torch during a welding operation. The contact tip and the pivot are configured to independently move the contact tip of the welding torch around the pivot during the welding operation.

A welding torch includes: a cylindrical tip body extending in an axis line direction; an orifice member arranged on a radially outer side of the tip body, between which and the tip body a first ring-like space is formed; a cylindrical nozzle arranged on a radially outer side of the orifice member with an interposition of a second ring-like space and having an edge on one side in the axis line direction. The tip body has a first emission hole via which an inner space of the tip body communicates with the first ring-like space, and the orifice member has a second emission hole via which the first ring-like space communicates with the second ring-like space. The second ring-like space is substantially closed by a sealing part on another side in the axis line direction, and an outlet opening of the second emission hole is arranged close the sealing part.

An example welding torch neck adapter includes: an electrically conductive body configured to detachably attach to a handle assembly of a consumable electrode-fed welding torch on a first portion of the conductive body and configured to detachably attach to a neck of the welding torch on a second portion of the conductive body to secure the neck to the handle assembly; and a guide tube positioned within the conductive body and configured to support a first consumable wire liner in alignment with a liner lock of a second consumable wire liner.

Welding torch system for use in welding or cutting operations during which fume is created. The welding torch system has a welding torch comprising a contact tip holder and a coaxial nozzle comprising an inner shield gas conduit having a shield gas outlet for supplying a shield gas. The inner shield gas conduit surrounds the contact tip holder. An outer shell at least partly surrounds said inner shield gas conduit. The welding torch system further comprises a shield gas generator and supply unit for supplying shield gas through the shield gas outlet and a fume extracting assembly for extracting fume and ambient air. The welding torch system is arranged for—during operation—supplying shield gas through the shield gas outlet at a velocity between about 1.5 m/s and 10 m/s. By operating the fume extracting assembly to generate a flow of between 10 and 100 m.sup.3/h, preferably a flow of about 55 m.sup.3/h a reduction in the area of 90%-95% of hazardous fumes can then be realized. A welding torch for use in such a system has an inner shield gas conduit having an end portion with an inner surface of which the diameter decreases towards the shield gas outlet. In a method for welding the shield gas is supplied through the shield gas outlet at a velocity between about 1.5 m/s and 10 m/s.

A method providing a manual welding apparatus configured to supply a welding wire to a welding gun. The welding gun has a trigger and an opening where the welding wire extends when the trigger is activated. The method also has a computer with a user interface that includes an automatic wire retract program. The program monitors the welding gun and determines when the trigger is disabled. The program indicates when a first condition is satisfied and retracts the welding wire so the welding wire does not extend from the opening of the welding gun.

In certain embodiments, a welding contact tip includes a first axial end portion having a welding wire outlet of an internal bore of the welding contact tip. The welding contact tip also includes a threaded middle portion adjacent the first axial end portion. The threaded middle portion includes external threads configured to mate with internal threads of a gas diffuser of a welding torch. The first axial end portion includes a tapered outer surface adjacent the threaded middle portion. In other embodiments, a welding torch assembly includes a gas diffuser having an outer circumferential groove having an outer surface with first and second walls that extend radially outward from first and second opposite axial sides of the outer surface, a nozzle having an inner circumferential rib with a tapered inner surface, and a compressible member disposed within the outer circumferential groove of the gas diffuser and the inner circumferential rib of the nozzle.