A grounding clamp includes a safety lock-out which locks the operation of the clamp in the absence of a cooperating hot-stick. The lock-out employs a clutch which prevents the translation of the clamping members relative to one another until the clutch is disengaged. The cooperating hot-stick is required for the disengagement of the clutch.

A clamp comprises first and second jaws with an elongate threaded member allowing threaded movement of one jaw along the member by rotation of the elongate member while allowing movement of the other jaw without regard to the threads. Clamp teeth, which may have a surface profile designed to conform to the clamped article, may be provided

An apparatus for restricting a contact head of a catenary grounding device unintentionally falling from a catenary in use that is connectable to the contact head. The apparatus forming part of a contact head of a catenary grounding device for restricting the contact head unintentionally falling from a catenary in use.

An apparatus and method for enabling removable coupling of conducting lines in a powerline assembly is disclosed. In one embodiment, a dead-end shoe apparatus is disclosed that comprises a capping mechanism, coupling mechanism, and connection clamp, the connection clamp facilitating the removable coupling of conducting lines of variable diameters to the apparatus. In another embodiment, a method of selectively transmitting electricity in a powerline assembly is disclosed, wherein conducting lines are removably coupled to dead-end shoe apparatuses to facilitate the transmission.

There is disclosed a coupling device for operations on live elements to attain equipotential conditions. The device comprises two conductive jaws connected to a preferably nonconductive handle. The jaws are adapted to be switched between a closed configuration, in which they are in mutual contact and surround an area adapted to receive a live element, and an open configuration in which the contact portions of the two jaws are spaced apart from each other. The two jaws have respective entry tapering portions adjacent to the contact portions and mutually converging to cause the contact portions to move apart from each other when the live element is pressed against the entry tapering portions, thereby causing the jaws to switch from the closed configuration to the open configuration against the action of an elastic member. The two jaws have respective exit tapering portions adjacent to the contact portions and mutually converging to cause the contact portions to move apart from each other when the live element is pressed against the exit tapering portions, thereby causing the jaws to switch from the closed configuration to the open configuration against the action of an elastic member.

There is disclosed a coupling device for operations on live elements to attain equipotential conditions. The device comprises two conductive jaws connected to a preferably nonconductive handle. The jaws are adapted to be switched between a closed configuration, in which they are in mutual contact and surround an area adapted to receive a live element, and an open configuration in which the contact portions of the two jaws are spaced apart from each other. The two jaws have respective entry tapering portions adjacent to the contact portions and mutually converging to cause the contact portions to move apart from each other when the live element is pressed against the entry tapering portions, thereby causing the jaws to switch from the closed configuration to the open configuration against the action of an elastic member. The two jaws have respective exit tapering portions adjacent to the contact portions and mutually converging to cause the contact portions to move apart from each other when the live element is pressed against the exit tapering portions, thereby causing the jaws to switch from the closed configuration to the open configuration against the action of an elastic member.

A termination arrangement for securing an overhead electrical cable to a dead-end structure such as a dead-end tower. The termination arrangement includes a compression sheath structure that is configured to be disposed over the individual composite rods of the strength member. The compression sheath structure mitigates damage to the strength member that may occur when an outer metallic sleeve is compressed around the conductive strands and the conductive strands are compressed against the strength member. The arrangement is particularly useful for securing overhead electrical cables having a composite strength member to a dead-end structure.

A grounding clamp (10, 210) is provided for use with an overhead electrical conductor (12) and is operated by a user via a shotgun stick or other elongate stick or pole. The grounding damp (10) includes a pair of damp jaws (16, 18; 216,218) that, in one embodiment (10), are biased towards a closed position by at least one spring (20,22) and that are driven between open and closed positions via a cam mechanism (24) in response to the user applying a torque force to the clamp (10) with the shotgun stick or other elongate stick or pole. In another embodiment, a ground clamp (210) includes a tightening mechanism (220) configured to tighten a pair of jaws (216,218), and a ratchet mechanism (222) configured to allow the tightening mechanism (220) to be translated relative to the jaw (216) to any of a plurality of predetermined, linearly spaced, fixed positions to adjust the spacing between the jaws (216,218).

A grounding clamp (10, 210) is provided for use with an overhead electrical conductor (12) and is operated by a user via a shotgun stick or other elongate stick or pole. The grounding damp (10) includes a pair of damp jaws (16, 18; 216,218) that, in one embodiment (10), are biased towards a closed position by at least one spring (20,22) and that are driven between open and closed positions via a cam mechanism (24) in response to the user applying a torque force to the clamp (10) with the shotgun stick or other elongate stick or pole. In another embodiment, a ground clamp (210) includes a tightening mechanism (220) configured to tighten a pair of jaws (216,218), and a ratchet mechanism (222) configured to allow the tightening mechanism (220) to be translated relative to the jaw (216) to any of a plurality of predetermined, linearly spaced, fixed positions to adjust the spacing between the jaws (216,218).

A grounding clamp includes a safety lock-out which locks the operation of the clamp in the absence of a cooperating hot-stick. The lock-out employs a clutch which prevents the translation of the clamping members relative to one another until the clutch is disengaged. The cooperating hot-stick is required for the disengagement of the clutch.