A hydraulic fracturing system for fracturing a subterranean formation includes a support structure that includes an electric powered pump, arranged in a first area, the electric powered pump powered by at least one electric motor, also arranged in the first area. The system further includes a variable frequency drive (VFD), arranged in a second area proximate the first area, connected to the at least one electric motor to control the speed of the at least one electric motor. The system includes a transformer, arranged in a third area proximate the second area. The system also includes a cooling system, arranged in a fourth area proximate the third area, the cooling system providing a cooling fluid to the VFD via one or more headers.

The present disclosure relates generally to a cable management system including a trough member, at least one intermediary divider, and at least one connecting mechanism. The trough member includes a base having a plurality of holes extending through a top surface and a bottom surface, and a first sidewall and a second sidewall extending from the base. The intermediary divider includes a divider base and a divider wall extending from the base. The connecting mechanism is configured to connect the divider base of the at least one intermediary divider to the holes of the trough member.

A cable management assembly is disclosed that can be completely factory assembled and shipped to a site for later mounting directly to a telecommunications rack or cabinet. The cable management assembly includes a plurality of cables secured within a carrier assembly. In one aspect, the cables have different or customized individual lengths. The carrier assembly can include a bracket portion and a plurality of cable management members extending from the bracket portion. The plurality of cable management members can define a plurality of cable routing apertures through which at least some of the plurality of cables extend. The bracket portion is mountable to a telecommunications rack with the plurality of cables mounted within the carrier assembly.

A wire harness routing apparatus includes a case and a wire harness accommodated in the case. An axial portion is provided inside the case, and the wire harness is wound around the axial portion, and the wire harness includes at least one wire and a protective member that protects the wire. The protective member includes an insertion path through which the wire is inserted, and the insertion path is formed between a sheet-shaped base sheet and a sheet-shaped cover sheet that overlaps the base sheet, and the protective member includes joining portions where the base sheet and the cover sheet are joined together at both lateral edges of the insertion path.

A cable channel for receiving at least one cable includes a first cable housing and a second cable housing. The first cable housing includes a first connector and the second cable housing includes a first mating connector releasably connected to the first connector arranging the first and second cable housings together.

A light emitting apparatus includes a light source, a unitary formed heat sink with a plurality of heat dissipating fins, a lensed enclosure that retains a light source and at least one power consuming device other than the light source. The lensed enclosure includes a recessed opening having at least a first wall that terminates at a substantially perpendicular second wall. The plurality of heat dissipating fins are disposed on at least one adjacent exterior side of the walled enclosure, the fins extending outwardly. At least one fin coupled to the heat sink extends beyond the light source, and the heat generated by the light source travels by conduction laterally through the heat sink to the at least one coupled fin.

The wire harness protector includes: electrical wiring insertion parts in which electrical wirings constituting a wire harness are divided and housed, wherein electrical wiring insertion parts are arranged in parallel, at least one side of an arrangement direction of electrical wiring insertion parts is a branch direction of the electrical wirings, at least one branch electrical wiring window is provided in each of the electrical wiring insertion parts except for one of the electrical wiring insertion parts located farthest from the branch direction to extending in a longitudinal direction and be opened in both side surfaces, into which branch electrical wirings made up of a part of the electrical wirings can be inserted, and the branch electrical wiring insertion window is provided in at least a side surface on a side of the branch direction of one of the electrical wiring insertion parts located farthest from the branch direction.

A wire management system including a cord cover. The cord cover includes a front wall coupled or integral with two side walls. A flexible entry tab is formed at an end of one of the side walls. An end of the other of the side walls is coupled or integral to a rear wall extending laterally from the side wall. The width of the rear wall can be less than the width of the front wall to form an opening between the rear wall and the opposed side wall. A cavity is formed between the front wall, side walls and rear wall. An adhesive material or adhesive strip is attached to an outer surface of the rear wall for attachment of the cord cover to a surface. The flexible tab can be flexed for inserting a cord or wire and automatically returns to the same plane as the side wall for providing a streamlined appearance of the cord cover.

A wiring trough, comprising a trough body, and a trough cover arranged on the trough body, wherein the two ends of the trough body are respectively provided with a first clamping portion, and the two ends of the trough cover are respectively provided with a second clamping portion, wherein the trough body and the trough cover are connected in a mutual clamping manner through the first clamping portion and the second clamping portion, wherein a channel for receiving a wire is formed by the trough body and the trough cover, wherein a first decoration lug is arranged on each of the first clamping portion, and a second decoration lug is arranged on each of the second clamping portion.

A cable tray system has two or more cable tray segments, the cable tray segments each having a cable tray underside and two cable tray side cheeks which laterally delimit the cable tray underside and form a substantially U-shaped cross section. A connecting section is provided at one end of one cable tray segment and one end of another cable tray segment can be connected in or on this connecting section with complementary mechanical connecting elements by means of a clamping or latching connection. When two corresponding ends of the cable tray segments are plugged together in the longitudinal direction of the cable tray segments and also in the vertical direction of the cable tray segments, the ends are resiliently bent towards each other until a desired connection position is reached and form a snap-in connection that locks in the longitudinal and vertical directions.