A shotgun stick for use with grounding devices is provided. An example shotgun stick includes a housing and a drive shaft supported within the housing. The shotgun stick further includes a clamp stick head attached to the housing at a first end and operably connected to a first end of the drive shaft such that rotation of the drive shaft actuates the clamp stick head. The shotgun stick also includes a ratchet locking module that selectively limits rotation of the drive shaft via engagement between a side pin and a ratchet gear of the ratchet locking module. The clamp stick head includes an exterior housing, a head sleeve that defines an opening configured to receive a tool attachment secured thereto, and a slotted inner sleeve positioned between the exterior housing and the head sleeve that prevents rotation of a tool attachment received by the head sleeve.

A shotgun stick for use with grounding devices is provided. An example shotgun stick includes a housing and a drive shaft supported within the housing. The shotgun stick further includes a clamp stick head attached to the housing at a first end and operably connected to a first end of the drive shaft such that rotation of the drive shaft actuates the clamp stick head. The shotgun stick also includes a ratchet locking module that selectively limits rotation of the drive shaft via engagement between a side pin and a ratchet gear of the ratchet locking module. The clamp stick head includes an exterior housing, a head sleeve that defines an opening configured to receive a tool attachment secured thereto, and a slotted inner sleeve positioned between the exterior housing and the head sleeve that prevents rotation of a tool attachment received by the head sleeve.

A shotgun stick for use with grounding devices is provided. An example shotgun stick includes a housing and a drive shaft supported within the housing. The shotgun stick further includes a clamp stick head attached to the housing at a first end and operably connected to a first end of the drive shaft such that rotation of the drive shaft actuates the clamp stick head. The shotgun stick also includes a ratchet locking module that selectively limits rotation of the drive shaft via engagement between a side pin and a ratchet gear of the ratchet locking module. The clamp stick head includes an exterior housing, a head sleeve that defines an opening configured to receive a tool attachment secured thereto, and a slotted inner sleeve positioned between the exterior housing and the head sleeve that prevents rotation of a tool attachment received by the head sleeve.

A clamping spring of a conductor connection terminal for connecting an electrical conductor by means of spring-loaded clamping, wherein the clamping spring has a support leg to fix the clamping spring in the conductor connection terminal, a spring bend adjoining the support leg, and a clamping leg adjoining the spring bend, wherein the clamping leg is arranged to clamp the electrical conductor by means of its free end, wherein the clamping leg has at least one corrugation stamped into the material of the clamping leg. A conductor connection terminal with such a clamping spring is also provided.

A clamping spring of a conductor connection terminal for connecting an electrical conductor by means of spring-loaded clamping, wherein the clamping spring has a support leg to fix the clamping spring in the conductor connection terminal, a spring bend adjoining the support leg, and a clamping leg adjoining the spring bend, wherein the clamping leg is arranged to clamp the electrical conductor by means of its free end, wherein the clamping leg has at least one corrugation stamped into the material of the clamping leg. A conductor connection terminal with such a clamping spring is also provided.

A splice assembly for engaging a conductor includes a brush configured to engage the conductor. The brush includes a housing having a first portion and a second portion. The housing defines a housing axis extending between the first portion and the second portion. The first portion defines a cavity having an open end. The second portion defines a bore. A diameter of the cavity is larger than a diameter of the bore. The cavity and the bore are configured to receive the conductor therethrough. The brush further includes a brush member secured within the cavity and positioned proximate the open end.

A splice assembly for engaging a conductor includes a brush configured to engage the conductor. The brush includes a housing having a first portion and a second portion. The housing defines a housing axis extending between the first portion and the second portion. The first portion defines a cavity having an open end. The second portion defines a bore. A diameter of the cavity is larger than a diameter of the bore. The cavity and the bore are configured to receive the conductor therethrough. The brush further includes a brush member secured within the cavity and positioned proximate the open end.

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 cable splice includes a casing having a central portion and a first end including a first aperture. The casing defines an interior cavity. A guide assembly extends through the first opening into the interior cavity. A first clamp member is positioned in the interior cavity and moveable between a loading position and a terminated position. A first biasing member biases the first clamp member toward the terminated position. A carrier is positioned in the interior cavity between the first biasing member and the central region. A second clamp member is positioned in the carrier and moveable with respect to the carrier.