A welding device for gas shielded arc welding includes: a portable welding robot mounted with a welding torch including a nozzle that guides jetting of shielding gas and a contact tip that performs energization on a consumable electrode; a feeding device that supplies the consumable electrode to the welding torch; a welding power source that supplies electric power to the consumable electrode via the contact tip; a gas supply source that supplies the shielding gas to be jetted from a nozzle end; and a control device that controls the portable welding robot. When the welding torch is seen from a side of jetting of the shielding gas, the contact tip is placed in an inside of an opening of the nozzle, the nozzle and the contact tip have a relatively movable structure, and an inner diameter of the nozzle end is within a range of 10-20 mm.

A welding apparatus can comprise an electrode holder configured to removably receive a consumable electrode and an actuator configured to move the electrode holder. The apparatus can comprise a base and an arm having first and second ends, where the first end is coupled to the arm such that the arm extends in a first direction that is angularly disposed relative to the base. The base can be configured to be placed relative to a workpiece such that the second end of the arm is disposed further from the workpiece than is the first end and the electrode, when received by the electrode holder, extends from the electrode holder toward the workpiece. A controller can be configured to adjust a rate at which the actuator moves the electrode holder relative to the arm, optionally based at least in part on an arc voltage measured across the electrode and the workpiece.

A welding device for gas shielded arc welding includes: a portable welding robot mounted with a welding torch including a nozzle that guides jetting of shielding gas and a contact tip that performs energization on a consumable electrode; a feeding device that supplies the consumable electrode to the welding torch; a welding power source that supplies electric power to the consumable electrode via the contact tip; a gas supply source that supplies the shielding gas to be jetted from a nozzle end; and a control device that controls the portable welding robot. When the welding torch is seen from a side of jetting of the shielding gas, the contact tip is placed in an inside of an opening of the nozzle, the nozzle and the contact tip have a relatively movable structure, and an inner diameter of the nozzle end is within a range of 10-20 mm.

Pliers for cleaning a welding gun nozzle include a right and left handle. The right handle is configured to operate a top left gripping end and a bottom right nozzle cleaner. The left handle is configured to operate a top right gripping end and a bottom left nozzle cleaner. The right handle are hingedly fixed together about a connection point. When the left handle and the right handle are closed, the top left gripping end and the top right gripping end are configured to squeeze together and the bottom right nozzle cleaner and the bottom left nozzle cleaner are configured to spread apart. And, when the left handle and the right handle are opened, the top left gripping end and the top right gripping end are configured to spread apart and the bottom right nozzle cleaner and the bottom left nozzle cleaner are configured to come together.

The present invention provides a welding rod holder for easy weaving motion, comprising: a main body part including a case, and a driving handle driving a driving part while being installed in the case; the driving part installed in the main body part, including a driving motor, a small bevel gear rotating while being connected to a driving shaft of the driving motor, and a large bevel gear rotating at a reduced speed while being connected to the small bevel gear in a perpendicular direction; a weaving part formed to be connected to the driving part including a weaving frame where an installation space is formed inside, a slider fixated by being connected to one plane of the weaving frame, a protrusion and a groove formed in turn on both sides and an upper protruding bar and a lower protruding bar separated from each other formed to protrude in the installation space and moved up and down by adhering to a rotating sphere, and the rotating sphere eccentrically connected to a close point close to a center of the large bevel gear through an axis rotating in a state of adhering to the upper and lower protruding bar; and an operation part including a center rod installed in the case in a forward and backward direction and connected to a cable and installed with a welding rod, a pair of circular plates formed on the center rod located in the case while being separated from each other, and a saw-toothed wheel formed on each circular plate making the center rod rotate from side to side by being geared with the slider.

A method and apparatus for providing welding type power includes a phase shifted double forward converter having a first and second converter and a controller. The controller includes a pwm module that sets the pwm timing signals. The pwm module includes a phase shift module that has a leading edge adjusted output and a trailing edge adjusted output responsive to the output load. The phase shift module also includes a duty cycle offset module and/or a Dmax module that is responsive to the output load current. The pwm module includes a disabling module responsive to at least one of the output current and output voltage that disables one of the first and second converters.

Aspects of a welding-type cable and torch are provided. The welding-type cable includes a power conductor to conduct welding-type power and a weld torch interface on a distal end of the welding-type cable to attach a weld torch to the power conductor. The welding-type torch includes a power connector to transfer welding-type power between the welding-type torch and a power conductor of a welding-type cable that is detachably coupled to the power connector. An electrode to perform a welding-type operation using the welding-type power is also provided.

A power supply for use in a welding or cutting system includes a housing configured to hold circuitry of the power supply. The housing includes clips at one or more corners of the housing. The clips are configured to receive and hold a cable when the cable is wrapped around the housing. The cable is coupled to and extending from the power supply.

Some examples of the present disclosure relate to tracking attachments that allow trackable markers to be easily attached to stick electrodes and/or stick electrode holders, thereby removing the need for costly customized/modified stick electrode holders and/or stick electrodes. In some examples, each tracking attachment includes one or more trackable markers that can be detected and/or tracked by a monitoring system. In some examples, the trackable marker(s) of the tracking attachment facilitate tracking and/or monitoring of welding technique by aiding in the tracking/monitoring of the position(s) and/or orientation(s) of the stick electrode and/or stick electrode holder during welding-type operations.