An additive-coated sheave assembly having a wheel with a groove in an outer circumferential surface of the wheel. The additive-coated sheave assembly can have an axle configured to support the wheel and a frame configured to receive and support the axle. A coating can be affixed to the groove by an additive manufacturing process. A method of manufacturing a sheave by coating the groove with a coating by an additive manufacturing process is also disclosed.

An additive-coated sheave assembly having a wheel with a groove in an outer circumferential surface of the wheel. The additive-coated sheave assembly can have an axle configured to support the wheel and a frame configured to receive and support the axle. A coating can be affixed to the groove by an additive manufacturing process. A method of manufacturing a sheave by coating the groove with a coating by an additive manufacturing process is also disclosed.

A tool includes a grasping mechanism, an extendable pole operably connected to the grasping mechanism at a free end thereof, and a handle mechanism for manipulating the grasping mechanism. The handle mechanism is operably connected to the extendable pole.

A tool includes a grasping mechanism, an extendable pole operably connected to the grasping mechanism at a free end thereof, and a handle mechanism for manipulating the grasping mechanism. The handle mechanism is operably connected to the extendable pole.

Systems and methods for tensioning an electrical cable adapted to be manipulated by one or more remotely operated robotic appendages. Tensioners mounted to a rigid object configured to adjust the tension of a connecting line attached to an electrical cable such that the tension of the connecting line is applied to a length of the electrical cable such that another portion of the electrical cable becomes slack, thereby allowing one or more robotic appendages to remove, replace, repair, or conduct any alteration or modification to said electrical cable or to a rigid object that supports the electrical cable.

Systems and methods for tensioning an electrical cable adapted to be manipulated by one or more remotely operated robotic appendages. Tensioners mounted to a rigid object configured to adjust the tension of a connecting line attached to an electrical cable such that the tension of the connecting line is applied to a length of the electrical cable such that another portion of the electrical cable becomes slack, thereby allowing one or more robotic appendages to remove, replace, repair, or conduct any alteration or modification to said electrical cable or to a rigid object that supports the electrical cable.

An installation fixture for installing a device on a power line is disclosed. The fixture includes a lower cradle that may receive one part of the device, an upper cradle that may receive another part of the device, and a base. The installation fixture may be installed on a worker carrier for a boom truck or the like. The orientation of the lower cradle may be adjusted relative to the base to facilitate the installation on the power line. The upper cradle may be moved between an open position (where the parts may be loaded into the fixture) and a closed position (where the power line is captured between the two parts of the device) and at which time that parts can be secured together.

An installation fixture for installing a device on a power line is disclosed. The fixture includes a lower cradle that may receive one part of the device, an upper cradle that may receive another part of the device, and a base. The installation fixture may be installed on a worker carrier for a boom truck or the like. The orientation of the lower cradle may be adjusted relative to the base to facilitate the installation on the power line. The upper cradle may be moved between an open position (where the parts may be loaded into the fixture) and a closed position (where the power line is captured between the two parts of the device) and at which time that parts can be secured together.

A system for temporarily mounting overhead equipment on a utility pole without damaging the pole and at least one assembly for use therein are provided. Each assembly includes an enclosure having a first and second opposed multilayered parts. Each of the parts has a rigid substrate layer underlying a compressible, gripping layer. The substrate layers are hingedly secured to one another by a hinge area which allows the parts to temporarily and repeatedly open and close in a closed configuration. The gripping layers of the parts are configured to apply a clamping force at opposite circumferential surfaces of the pole in the closed configuration. The assembly also includes a support member fixedly secured to one of the substrate layers and configured to support the overhead equipment. The clamping force is sufficient to maintain the assembly and the supported overhead equipment at a desired overhead location on the pole.

A system for temporarily mounting overhead equipment on a utility pole without damaging the pole and at least one assembly for use therein are provided. Each assembly includes an enclosure having a first and second opposed multilayered parts. Each of the parts has a rigid substrate layer underlying a compressible, gripping layer. The substrate layers are hingedly secured to one another by a hinge area which allows the parts to temporarily and repeatedly open and close in a closed configuration. The gripping layers of the parts are configured to apply a clamping force at opposite circumferential surfaces of the pole in the closed configuration. The assembly also includes a support member fixedly secured to one of the substrate layers and configured to support the overhead equipment. The clamping force is sufficient to maintain the assembly and the supported overhead equipment at a desired overhead location on the pole.