A cable hose suitable for welding or cutting systems includes one or more conductors and monolithic tubing that extends around and between the one or more conductors. The monolithic tubing defines one or more discrete passageways for the one or more conductors that provide a closed path from a first end of the cable hose to a second end of the cable hose for the one or more conductors. The monolithic tubing also defines an inner conduit configured to allow a gas to flow from the first end of the cable hose to the second end of the cable hose. The cable hose may be formed by arranging the one or more conductors in a specific configuration and overmolding an insulator onto the one or more conductors to secure the one or more conductors in a specific configuration.

Provided is a semi-conductive composition for a power cable, more particularly, a semi-conductive composition for a power cable having excellent mechanical properties and electrical properties, and more specifically, a semi-conductive composition for a power cable capable of having improved scorch stability, improved surface smoothness, improved space charge accumulation suppression characteristic to thereby be applicable to an ultra-high voltage direct current power cable.

Welding cable assemblies, welding torch assemblies, and robotic welding systems are disclosed. An example welding-type cable assembly includes: a cable configured to deliver welding-type current and an electrode wire to a welding-type torch, the cable configured to be coupled to the welding-type torch on a first end and coupled to at least one of a wire feeder or a welding-type power supply on a second end; and a spring mechanically coupled to the cable, the spring having a higher resistance to torque than the cable, and the spring configured to transfer a portion of twisting induced at a first end of the cable past a bend portion of the cable.

An electronic device, and a magnetic energy harvesting device and method of harvesting magnetic energy, for electric metallurgical furnaces and similar environments. The device comprises a conductor which is configured to become induced with electricity in response to a time-varying magnetic field. The field may be irregular, such as near a metallurgical furnace or a similar environment. The electronic device may be a transmitter in a metallurgical electric furnace. The transmitter may be connected to an environment sensor. The electronic device may be powered by the magnetic energy harvesting device. The magnetic energy harvesting device may a wire loop or a coil. The method comprises inductively harvesting energy from magnetic field fluctuations caused by a metallurgical furnace or a similar environment to wirelessly power the electronic device.

An arc welder cable includes a resiliently flexible hose, an intermediate sheath, a plurality of conductors, and an outer sheath. The hose defines an axial passageway configured to permit passage of a welding wire and a shielding gas therethrough. The intermediate sheath circumscribes the hose such that the hose is disposed radially within the intermediate sheath. The intermediate sheath is made from an electrically-insulative material and is in sealing contact with an outer surface of the hose. The conductors are disposed circumferentially about the intermediate sheath and disposed radially outward of the intermediate sheath. The conductors extend along the intermediate sheath in a helical manner. The conductors are made from an electrically-conductive material. The outer sheath is made from an electrically-insulative material and circumscribes the conductors such that the conductors, the intermediate sheath, and the hose are disposed radially within the outer sheath.

Suppression of the effects of electromagnetic waves on the signals which are transmitted by signal lines and manufacturing composite cables more compactly and with higher efficiency have been sought. For this, provision is made of a composite cable 30 comprised of a center member 32 for supplying the fluid or wire material used for the work of the industrial robot, first signal lines 34 which are arranged at the outer circumferential side of the center member 32, a tubular shield 36 which surrounds the first signal lines 34 and shields them from electromagnetic waves, power lines 40 which are arranged at the outer circumferential side of the shield 36, and a tubular sheath 42 which surrounds the power lines 40.

A strain relief mechanism that is used to prevent kinking or bending in an elongate member, such as a cable or a lead, that would otherwise damage or impair the cable or lead.

A strain relief mechanism that is used to prevent kinking or bending in an elongate member, such as a cable or a lead, that would otherwise damage or impair the cable or lead.