The present invention is a wire management device and system comprising a locking head and an elongated strap extending downwardly from a bottom of the locking head and configured to feed through a locking mechanism in the locking head to form a first fixed loop. The elongated strap comprises a length of material, a plurality of stops spaced evenly along the length of material and configured to prevent the elongated strap from moving through the through hole, and a plurality of ridges spaced evenly between the plurality of stops. The locking mechanism is configured to engage the plurality of ridges to allow the elongated strap to move in one direction through the locking mechanism and prevent the elongated strap from moving in an opposite direction. The plurality of stops are configured to prevent the elongated strap from moving further through the locking head.

The present disclosure is directed to multi-functional isolation pads that can be used in combination with both clamp-on cable trays and guide-on cable trays without any user manipulation (e.g., folding) of the isolation pad.

A pipe hanging system for aligned installation of a pipe from a support system without the use of external measuring devices incudes a hanger assembly having one or more hanger members each having a cradle dimensioned to receive at least a portion of the pipe in a supported relation therein. The hanger members include a plurality of alignment marks disposed on and visible along at least a portion of the hanger member to facilitate positioning the hanger member relative to the support members without the use of external measuring devices. A mounting assembly to mount each hanger member to one of the plurality of support members in an aligned orientation, wherein an aligned orientation is at least partially defined by a portion of the cradle disposed a predetermined distance from a preselected portion of the support member onto which the hanger member is mounted.

System and method for supporting an electrical, conductor-carrying set of end to end pipes or enclosures to form an Iso Phase bus for electrical power transmission. The multiple tubular components are axially aligned in the field by a system comprising a saddle support with support legs, brackets for the support legs wherein the brackets secure to the upper flange of an I-beam on a steel support held in the ground. The brackets are adjustably secured to the legs of the saddle support and to the flange of the I-beam. In addition, an over the top enclosure, thin metal strap is provided which is also secured to the bracket and to the flange of the I-beam. Adjustments of the orientation of one enclosure to the adjacent connecting enclosure is able to be done in three axis.

An earth wire holder for a cable tray having two spaced-apart side bars, wherein the earth wire holder is in the form of a spring clamp having a side bar receptacle enclosed by two mounting arms for connecting the spring clamp to the upper edge of a side bar and having an undercut earth wire receptacle enclosed by two holding arms, wherein, when the spring clamp is mounted on the upper edge of the side bar, the mounting arms bear against the side bar under prestress, and the spacing between the holding arms in the section thereof enclosing the earth wire receptacle is smaller than the diameter of the earth wire to be introduced therein.

An apparatus for securing a raceway assembly within an aircraft, which includes a clip assembly associated with the raceway assembly, which secures the raceway assembly to a seat rail. The apparatus further includes a floor panel positioned in overlying relationship to the raceway assembly and the clip assembly.

Methods and devices for reducing stress and for increasing the load-bearing capacity of cable racks supporting electrical power and communication conduits and cables having increased versatility for conduit and cable sizes and quantities. Underground devices including rack arms for these applications are desirably made from plastic or composite materials. Rack arms desirably include openings for tying down the conduits and cables atop the arms. While non-metallic materials are designed to withstand environmental stresses, they typically have strength and rigidity properties less than the metallic structures previously used in such applications. Non-metallic rack arms with such openings may be reinforced locally with a stress attenuator or with ribs to increase their load-bearing and buckling capacity and to reduce their stress, strain and deflection under load. A stress attenuator may be made by increasing the in-molded thickness of the web in areas adjacent to or surrounding the tie-down openings.

Modular conduit alignment and resultant conduit systems are disclosed herein. An example system includes a plurality of modular sections, one of which connects to an terminal enclosure, each of the plurality of conduit assemblies having at least one coupler assembly having a first plurality of conduit interfaces extending from a first side of the at least one coupler assembly and a second plurality of conduit interfaces a second side of the at least one coupler assembly. The first plurality of conduit interfaces and the second plurality of conduit interfaces are aligned and form pathways that allow wiring to extend through the plurality of modular sections when the plurality of modular sections are arranged in series.

A wire harness support member supports a wire harness including a plurality of electrical wires on an attaching target member. The wire harness support member includes: a base attached to the attaching target member while surrounding at least a part of a periphery of the attaching target member; and at least one electrical wire holding member which can be position-adjustably fixed to the base around the attaching target member while holding at least some of the plurality of electrical wires.

Methods and devices for reducing stress and for increasing the load-bearing capacity of cable racks supporting electrical power and communication conduits and cables having increased versatility for conduit and cable sizes and quantities. Underground devices including rack arms for these applications are desirably made from plastic or composite materials. Rack arms desirably include openings for tying down the conduits and cables atop the arms. While non-metallic materials are designed to withstand environmental stresses, they typically have strength and rigidity properties less than the metallic structures previously used in such applications. Non-metallic rack arms with such openings may be reinforced locally with a stress attenuator or with ribs to increase their load-bearing and buckling capacity and to reduce their stress, strain and deflection under load. A stress attenuator may be made by increasing the in-molded thickness of the web in areas adjacent to or surrounding the tie-down openings.