A welding torch system includes a nozzle, a contact tip retainer assembly, and a diffuser assembly. The diffuser assembly couples to the neck of a welding torch. Additionally, the welding torch system includes a contact tip axially secured between the contact tip retainer assembly and the diffuser assembly. Further, the nozzle axially secures the contact tip retainer assembly and the contact tip to the diffuser assembly.

Shielding gas mechanisms for arc-welding systems are shown and described. The shielding gas mechanisms each include a gas sensor configured to read and provide a measurement of the shielding gas and a shut-off mechanism configured to stop power to a welding gun when the measurement of the shielding gas falls below a minimum effective level. In some examples, the gas sensor is coupled to the gas line proximal to an inlet of a wire feed unit. In some other examples, the gas sensor is coupled to the gas line proximal to an outlet of the wire feed unit. In even other examples, the gas sensor is coupled to the welding gun.

A fume extraction system is designed for metal working and other applications. The fume extraction system includes one or more motors and/or adjustment devices to control fume suction airflow. One or more sensors may monitor a condition of the welding torch to determine a level of porosity of a weld. Control circuitry is operable to receive signals from the one or more sensors and/or power supply in order to determine the level of porosity. The control circuitry can compare information in the signals to a list of values associated with weld porosity to determine whether the level of porosity is within a desired range. In some examples, the control circuitry can control the fume extraction system to adjust suction airflow based on the determined level of porosity.

Apparatus and method for purging atmospheric air from a chamber with a gas including means for generating a substantially non-turbulent, laminar flow front of the gas into the chamber with minimal turbulence to displace the atmospheric air in the chamber, the chamber having exhaust means associated therewith to permit the displaced atmospheric air to exit the chamber. The chamber is preferably a welding chamber and the gas is preferably argon.

Shielding gas mechanisms for arc welding systems are shown and described. The shielding gas mechanisms each include a gas sensor configured to read and provide a measurement of the shielding gas and a shut-off mechanism configured to stop power to a welding gun when the measurement of the shielding gas falls below a minimum effective level. In some examples, the gas sensor is coupled to the gas line proximal to an inlet of a wire feed unit. In some other examples, the gas sensor is coupled to the gas line proximal to an outlet of the wire feed unit. In even other examples, the gas sensor is coupled to the welding gun.

An air filter system for use in industrial applications, particularly, in welding operations. The system has a fan for drawing air into a housing and an air outlet for exhausting air from the housing. At least one filter is mounted within the housing between the air inlet and the air outlet. Air is passed through the filter as it is drawn into the inlet and exhausted from the outlet to retain particulates entrained in the air. At least one air injector is mounted adjacent the filter to clean the filter by forcing air into the filter to remove the retained particulate from the filter. An onboard compressed air generator is mounted within the housing to supply compressed air to the air injector for injection into the filter.

A welding torch assembly device comprising a revolution power connector (RPC) directly connectable to a power cable and electrically connectable to a neck of a welding torch, and a torch connector assembly for accommodating the RPC is provided. The welding torch assembly device may include an infinite rotation module with a shock sensor for allowing infinite rotation connection with a cable. The welding torch neck may be connected to the torch connector via a handnut.

A welding torch system includes a receiving assembly to receive a contact tip and a welding nozzle. The welding torch system also includes a locking element that retains the contact tip in a partially secure position. Further, the welding torch system includes the welding nozzle configured to couple to the receiving assembly to retain the contact tip in a fully secure position.

A weld protecting device by gas diffusion including several elements mounted one after the other and hinged to each other, and including a front element, intermediate elements mounted one after the other and behind the front element. A back element is mounted behind the last intermediate element, each element including a housing open downwards and towards each other adjacent element, forming a gas diffusion chamber, wherein two adjacent elements are hinged to each other and they are free to pivot relative to each other, regardless of the operating conditions of the protecting device. A facility for welding two opposite edges of two pieces, a weld protecting device, and a system for guiding the protecting device are disclosed.

An extractor system includes a negative pressure gas stream source, a negative pressure conduit, a housing, a positive pressure gas stream source, a positive pressure gas stream manifold, and an operator interface. The negative pressure conduit conveys the negative pressure gas stream from a work area. A first end of the negative pressure conduit is coupled to the negative pressure gas stream source, such that the negative pressure gas stream flows from the work area through a second end of the negative pressure conduit and toward the first end of the negative pressure conduit. The housing is disposed about the negative pressure conduit, near the second end of the negative pressure conduit comprising. The positive pressure gas stream source is coupled to the housing. The positive pressure gas stream manifold is located downstream of the positive pressure gas stream source. The positive pressure gas stream is directed through the positive pressure gas stream manifold. The operator interface allows a user to control the positive pressure gas stream through the positive pressure gas stream manifold.