A wire protection member includes: a flexible cylindrical wire protection tube, in which a plurality of large diameter portions and a plurality of small diameter portions are arranged alternately such that concave outer circumferential grooves are formed between adjacent ones of the large diameter portions across the corresponding small diameter portion; and a connection member in which a connection portion and a locking tool are formed integrally. The connection portion connects a plurality of annular portions formed in a plurality of the outer circumferential grooves respectively by molding. The locking tool is allowed to be locked to a mounting hole of a vehicle body panel.

Implementations include a compartmentalized plug-in load center having connector receptacles for load circuit wiring connection to the load center and a plug-in back plate to connect the plug-in load center to a vertical power busway within a utility wall panel of a building, and a method for installing the load center in a building with a vertical power busway.

An electrical raceway assembly including a substrate engaging member having an upper region, an intermediate region, a lower region, an inner surface and an outer surface; a signage engaging member having an upper region, an intermediate region, a lower region, an inner surface and an outer surface; wherein the upper region of the substrate engaging member and the upper region of the signage engaging member are releasably secured to each other; and wherein the lower region of the substrate engaging member includes a segment that regulates positioning of the lower region of the signage engaging member.

A track section for a track system is provided that includes an enclosed channel and first and second lateral members. The enclosed channel is defined by a base wall, a cover wall, and first and second lateral side walls, and has an interior cavity. The first and second lateral side walls are disposed on opposite sides of the enclosed channel. The base wall and the cover wall are spaced apart from one another and extend between the first and second lateral side walls. The first lateral member extends outward from the first lateral side wall and the second lateral member extends outward from the second lateral side wall. Each has a ramp flange channel. The track section is a unitary structure with the first and second lateral members being integral with the enclosed channel and has a length between first and second lengthwise ends.

A conduit supporting device used to support a conduit at one or more than one location on said device, and where the device can support and receive one or more than one conduit. The device may placed, set on or affixed to a surface such as a roof, floor, pipe rack, production area, on the ground and other conventional locations where a need exists for conduit support.

Modular wire management systems may include connectors configured for mounting on a base and for connecting to extension members, thereby connecting extension members to one another, to form a framework for managing and routing wires at one or more heights above the base. The systems may further include securing members configured to secure wires to the framework. Modularity may be provided in that every extension member may be connectable to every connector, and every connector may be connectable to every extension member. Connections may be achieved by secure but detachable friction fit, providing both stability and easy reconfigurability. Flexibility of configurability may be provided by a wide range of different kinds of connectors. Connectors may be provided with non-electrically conductive mounting portions for connecting to the base. Apparatuses and methods are also provided.

System for distributing cabling. In an embodiment, a unit comprises two levels. Each level comprises openings, on two opposing surfaces, arranged in a row parallel to a first axis, with each opening opposite to one opening on the opposing surface. Each level comprises parallel main conduits between the surfaces. Each main conduit is angled relative to a second axis, intersecting the surfaces and orthogonal to the first axis, such that each main conduit connects an opening on one surface to an opening on the other surface that is offset by one opening from its opposing opening on the other surface. A divergent conduit connects openings on one of the two surfaces to an opening on a third surface, and an articulated conduit, angled relative to a third axis that is orthogonal to the first and second axes, connects an opening on one level to an opening on the other level.

System for distributing cabling. In an embodiment, a unit comprises two levels. Each level comprises openings, on two opposing surfaces, arranged in a row parallel to a first axis, with each opening opposite to one opening on the opposing surface. Each level comprises parallel main conduits between the surfaces. Each main conduit is angled relative to a second axis, intersecting the surfaces and orthogonal to the first axis, such that each main conduit connects an opening on one surface to an opening on the other surface that is offset by one opening from its opposing opening on the other surface. A divergent conduit connects openings on one of the two surfaces to an opening on a third surface, and an articulated conduit, angled relative to a third axis that is orthogonal to the first and second axes, connects an opening on one level to an opening on the other level.

The present disclosure is directed to a cable securement assembly for protecting cables and/or cable bundles within a wind turbine. The cable securement assembly includes a cable spacer having an inner surface and an outer surface separated by a thickness and one or more fastening components. The inner surface defines an open center configured to receive the plurality of cables therein. The inner surface defines a plurality of cable locations defined by one or more through holes configured through the thickness. The one or more fastening components are configured to secure one or more of the plurality of cables at each cable location via the through holes.

The present disclosure is directed to a cable securement assembly for protecting cables and/or cable bundles within a wind turbine. The cable securement assembly includes a cable spacer having an inner surface and an outer surface separated by a thickness and one or more fastening components. The inner surface defines an open center configured to receive the plurality of cables therein. The inner surface defines a plurality of cable locations defined by one or more through holes configured through the thickness. The one or more fastening components are configured to secure one or more of the plurality of cables at each cable location via the through holes.