A strain release connector for an overhead electrical wire includes a first connector part securable to the overhead electrical wire with a fixed clamping force, and a second connector part cooperable with the first connector part and securable to a service cable with an adjustable clamping force, less than the fixed clamping force. The second connector part has at least one strain adjustment screw for modifying the adjustable clamping force. The adjustable clamping force is set by the at least one strain adjustment screw such that the second connector part is configured to release the service cable upon an application of a predetermined tension force.

A strain release connector for an overhead electrical wire includes a first connector part securable to the overhead electrical wire with a fixed clamping force, and a second connector part cooperable with the first connector part and securable to a service cable with an adjustable clamping force, less than the fixed clamping force. The second connector part has at least one strain adjustment screw for modifying the adjustable clamping force. The adjustable clamping force is set by the at least one strain adjustment screw such that the second connector part is configured to release the service cable upon an application of a predetermined tension force.

A strain release connector for an overhead electrical wire includes a first connector part securable to the overhead electrical wire with a fixed clamping force, and a second connector part cooperable with the first connector part and securable to a service cable with an adjustable clamping force, less than the fixed clamping force. The second connector part has at least one strain adjustment screw for modifying the adjustable clamping force. The adjustable clamping force is set by the at least one strain adjustment screw such that the second connector part is configured to release the service cable upon an application of a predetermined tension force.

System and method for determining real-time sag and shape information of an electrical power line based on strain distribution along a length of an optical fiber associated with the power line. An embedded fiber coupled to an overhead transmission line measures strain using the backscatter of an optical signal, the optical signal is then interrogated using an interferometer.

A complete set of tension backup device for carbon fiber wire, consisting of a backup tension device, a performed armor rod, a parallel hanging plate, an adapter base, a wire drawing device, a support damper clamp, a U-shaped pulling ring, a triangular hanging plate, and a tensioning device. The backup tension device is a backup strain clamp in a wedge-shaped structure. The support damper clamps are provided on carbon fiber split wires between an original strain clamp and the backup tension device, and arranged at intervals of 3-4 meters.

A complete set of tension backup device for carbon fiber wire, consisting of a backup tension device, a performed armor rod, a parallel hanging plate, an adapter base, a wire drawing device, a support damper clamp, a U-shaped pulling ring, a triangular hanging plate, and a tensioning device. The backup tension device is a backup strain clamp in a wedge-shaped structure. The support damper clamps are provided on carbon fiber split wires between an original strain clamp and the backup tension device, and arranged at intervals of 3-4 meters.

A laser processing apparatus 1 includes a laser head 31, a flexible cable 6 connecting a laser oscillator and the laser head 31 to each other, a conveyance apparatus 2 that conveys a workpiece W, a head drive mechanism 5 that moves the laser head 31 to a processing position, and a cable support mechanism 7 that moves the cable 6 in association with movement of the laser head 31. The cable support mechanism 7 includes a first holder 61 holding the cable 6, a first spring balancer 711 connected to the first holder 61 through a first wire 712, and a second spring balancer 721 connected to the first holder 61 through a second wire 722. The spring balancers 711, 721 are fixed to a support frame 8, and as viewed in plane, are arranged in a line along a width direction X perpendicular to a conveyance direction Y.

A terminal structure of an armored cable includes an end of an armored cable, a terminal metal fitting, and a support. The end includes a core, and an armoring including armor wires made of copper or copper alloy disposed on an outer circumference of the core. The terminal metal fitting is attached to an end of each armor wire. The support is disposed on a tip side of the core and supports a plurality of the terminal metal fittings. The support includes a base plate and a fixing member. The base plate is provided with a first through hole into which the core is inserted, and second through holes which are provided on an outer circumference of the first through hole and into each of which a corresponding one of the terminal metal fittings is inserted. The fixing member fixes each terminal metal fitting to the base plate.

An intelligent electrical conductor installation system includes a puller sub-system, a tensioner sub-system, and a running GC board. The pull sub-system is configured to provide a pulling force to a pull rope connected on one end to the running board. The tensioner sub-system is configured to provide tension to the one or more conductors connected to the running board during installation of the conductors. The running board is connected to the pull rope on a first end, and configured to be connected to one or more conductors on a second end, wherein the running board includes one or more sensors configured to sense attributes of the conductor pull operation.

An intelligent electrical conductor installation system includes a puller sub-system, a tensioner sub-system, and a running GC board. The pull sub-system is configured to provide a pulling force to a pull rope connected on one end to the running board. The tensioner sub-system is configured to provide tension to the one or more conductors connected to the running board during installation of the conductors. The running board is connected to the pull rope on a first end, and configured to be connected to one or more conductors on a second end, wherein the running board includes one or more sensors configured to sense attributes of the conductor pull operation.