Provided is a wiring member that can be held in a bent state more reliably even if a reaction force is large. A wiring member includes a cable including a bent portion that is routed along a bent path, and a bracket including a holding portion for holding the cable and a vehicle fixing portion that protrudes outward of the holding portion, and the holding portion includes a bend holding portion for holding the bent portion of the cable, and the bend holding portion includes an inner wall portion located on an inner circumferential side of the cable, and an outer wall portion located on an outer circumferential side of the cable.

A cable tray including a pair of generally parallel spaced-apart side rails, each side rail defining a plurality of openings. Rungs extend between the rails at intervals spaced along the rails. Each rung includes at least two side walls. Each rung has opposite open ends generally aligned with respective openings in the side rails. End portions of each rung define a transverse opening. A plurality of snap plug fasteners fastens the rungs to the side rails. Each snap plug fastener includes a main body abutting an outboard surface of one of the side rails. A projection extends through one of the openings in the side rail and into one of the open ends of one of the rungs. The projection includes a barb received in one of the transverse openings in the rung.

Disclosed is a ratcheting retainer for securing one or more objects, such as wire bundles, to a component. The ratcheting retainer includes a ratchet strap assembly, a fastener, and retainer clip. The ratchet strap assembly, which can adjust in diameter, circumscribes and secures a first object. The fastener is coupled to the ratchet strap assembly and secures the ratcheting retainer to the component. The retainer clip is coupled to the ratchet strap assembly and secures a second object to the ratchet strap assembly

A cable support system includes a plurality of V-bracket assemblies spaced-apart from one another and aligned to form first and second sides defining an angle therebetween. A first cable support apparatus is disposed on the first side and secured to the plurality of V-bracket assemblies and a second cable support apparatus is disposed on the second side and secured to the plurality of V-bracket assembles such that the first and second cable support apparatuses defined the angle therebetween. Each of the first and second cable support apparatuses includes a plurality of horizontal supports of wire stock and a plurality of first vertical supports of wire stock. Each first vertical support includes a vertical segment joined to the horizontal supports at intersections therebetween and an upper cable-receiving element extending outwardly from the corresponding vertical segment. The upper cable-receiving elements of the first vertical supports cooperating to define a first upper cable-receiving channel extending therealong.

Systems are provided for a cable hangers. A system for cable hangers can include a cable hanger having a support member including a proximal end and a distal end. A plurality of saddles are attached to and extend from the support member, with each saddle of the plurality of saddles being configured to support at least one cable on a cable supporting surface. A hanging mechanism is arranged at the proximal end of the support member, where the hanging mechanism is offset on the support member.

A cable management device comprises first and second arms and a base together defining an enclosure for one or more cables. The device includes an attachment and spacer device and a stabilizing clip to releasably attach the device to a support element and to space the enclosures of adjacent devices from one another.

An aircraft duct assembly comprising at least two ducts extending along a general direction of rectilinear extent, each duct being an electrical, hydraulic or aeraulic duct connected to a duct support. The duct support comprises a first slideway element configured to cooperate with a second slideway element to form a slideway in the general direction of extent of the ducts. The duct assembly can thus be inserted, after mounting, by translation along the direction of the slideway into an aircraft fuselage portion. The mounting of the duct assembly and installation thereof in a fuselage are simplified, and the duct assembly is more reliable.

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.

Present disclosure provide an apparatus for holding cables of a robot and a robot. The apparatus comprises a body extending along an axis and comprising a circumferential wall to space the cables arranged in the body from a first part of the robot; and a slit formed on the circumferential wall across an entire length of the circumferential wall along the axis, the slit adapted for the cable to pass through radially to allow the cables to be arranged in the body. With the slit formed across the entire length of the circumferential wall along the axis, the cables can be easily arranged in the body radially through the slit. In this way, the cables can be arranged in the apparatus without having to remove the large connector, thereby improving assembly efficiency. In addition, since the connector does not need to be removed, the connection performance is also improved.