Systems and methods for mounting electrical devices such that they appear “flush” with a finished wall. The systems include specialized back boxes, mud rings, faceplates, and other tools that are installed and used during the mounting process. The mounting process includes a specific series of steps that take place during construction and wall finishing, including that mud or other finishing material is used to both “hide” the mounting system and lock it into place The systems and methods allow for full usage of existing electrical devices such as electric outlets, light switches, and USB connectors, with an improved visual appearance over existing electrical plates that sit on top of the wall.

A cable hanger for mounting cables to a mounting structure includes: a base panel; a pair of arms attached to opposite ends of the base panel; and a pair of locking projections, each locking projection being attached adjacent a free end of a respective arm. Each arm is configured to define a respective internal cavity configured to grasp cable. The arms and the base panel combine to define an external cavity for grasping cable. The cable hanger can be deflected from a relaxed state to a deflected state by forcing the locking projections toward each other. In the deflected state the cable hanger may be mounted to a mounting structure, with the arms inserted through a hole in the mounting structure and exerting outward pressure on edges of the hole, and the locking projections maintaining the cable hanger in a mounted position on the mounting structure.

A cable hanger for mounting cables to a mounting structure includes: a base panel; a pair of arms attached to opposite ends of the base panel; and a pair of locking projections, each locking projection being attached adjacent a free end of a respective arm. Each arm is configured to define a respective internal cavity configured to grasp cable. The arms and the base panel combine to define an external cavity for grasping cable. The cable hanger can be deflected from a relaxed state to a deflected state by forcing the locking projections toward each other. In the deflected state the cable hanger may be mounted to a mounting structure, with the arms inserted through a hole in the mounting structure and exerting outward pressure on edges of the hole, and the locking projections maintaining the cable hanger in a mounted position on the mounting structure.

The invention relates to a method for wiring electrical components of an electrical switchgear arranged on a mounting plate, comprising: providing a design of a switchgear comprising at least location information and orientation information about a plurality of electrical components of the switchgear on a mounting plate and wiring information about a plurality of electrical wirings between every two of the electrical components; optically detecting an actual arrangement of the electrical components on the mounting plate and matching the location information and orientation information to the actual arrangement; and automatically wiring the electrical components in a wiring order and according to the wiring information and the matched location information and orientation information.

The subject matter described in this specification relates generally to a tool for installing a flexible metal conduit screw-in connector onto a flexible metal conduit and a method for installing the flexible metal conduit connector tool. The flexible metal conduit screw-in connector tool includes a handle, a centering rod, and two studs. The flexible metal conduit connector tool is to engage a flexible metal conduit screw-in connector.

Systems and methods for mounting electrical devices such that they appear “flush” with a finished wall. The systems include specialized back boxes, mud rings, faceplates, and other tools that are installed and used during the mounting process. The mounting process includes a specific series of steps that take place during construction and wall finishing, including that mud or other finishing material is used to both “hide” the mounting system and lock it into place The systems and methods allow for full usage of existing electrical devices such as electric outlets, light switches, and USB connectors, with an improved visual appearance over existing electrical plates that sit on top of the wall.

Systems and methods for mounting electrical devices such that they appear “flush” with a finished wall. The systems include specialized back boxes, mud rings, faceplates, and other tools that are installed and used during the mounting process. The mounting process includes a specific series of steps that take place during construction and wall finishing, including that mud or other finishing material is used to both “hide” the mounting system and lock it into place The systems and methods allow for full usage of existing electrical devices such as electric outlets, light switches, and USB connectors, with an improved visual appearance over existing electrical plates that sit on top of the wall.

A cable splice assembly includes a tubing encapsulated cable, an electric submersible downhole cable, where the tubing encapsulated cable and the electric submersible downhole cable are tape-spliced through a pair of respective contacts, and a thermoplastic insulator to seal the tubing encapsulated cable. A shell contains the tape-spliced tubing encapsulated cable and the electric submersible downhole cable and multiple layers of sealant tape are wrapped around at least the tubing encapsulated cable and the thermoplastic insulator inside the shell, where a number of layers of the sealant tape is selected to create a pressure blocking seal inside the shell.

A grommet includes a body portion defining a first aperture and a second aperture. A hollow channel extends between the first aperture and the second aperture. The channel is defined by an interior surface of the body portion. One or more engagement structures are defined by the interior surface of the grommet body portion, and are configured to engage one or more corresponding engagement structures provided about an exterior surface of a mounting structure engaged about and elongated member that is positioned within the hollow channel of the grommet.

A grommet includes a body portion defining a first aperture and a second aperture. A hollow channel extends between the first aperture and the second aperture. The channel is defined by an interior surface of the body portion. One or more engagement structures are defined by the interior surface of the grommet body portion, and are configured to engage one or more corresponding engagement structures provided about an exterior surface of a mounting structure engaged about and elongated member that is positioned within the hollow channel of the grommet.