A horizontal cable manager that includes a body with a back and a plurality of fingers extending from the back of the body. The distal end of at least one finger includes a hinge pin holder. The horizontal cable manager also includes a door hingedly attached to the fingers extending from the body. The door has a front, a back, a top edge, a bottom edge, and at least one hinge pin receptacle positioned along the top edge or the bottom edge of the door. The hinge pin receptacle houses a magnet to enable the door to attach to the hinge pin holder of the at least one finger to hold the door in a closed position.

A cable manager connected to a network rack that routes cables in and around the network rack. The cable manager includes a body with plurality of fingers extending from the body. The distal end of at least one finger includes a hinge pin holder. The cable manager also includes a door hingedly attached to the fingers extending from the body. The door has a front, a back, edges, and at least one hinge pin receptacle positioned along the edges of the door. The hinge pin receptacle houses a magnet to enable the door to attach to the hinge pin holder of the at least one finger to hold the door in a closed position.

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.

A cable manager includes a trough, defining a footprint, and a door. At least one side of the trough is formed from a plurality of finger-like projections extending forwardly from a support member. At least two of the projections include a hinge boss disposed at an outer end thereof and extending inwardly. At least one edge of the door has a hinge structure disposed therealong that includes an outer arm and an inner arm defining a hinge channel therebetween. The hinge bosses are disposed within the hinge channel such that the door is rotatably attached along at least one of its longitudinal edges to the trough. The door is rotatable to an open state without extending beyond the footprint of the trough.

A cable pillar is provided for use in a switch system. The cable pillar includes a cavity that enables a plurality of cables to pass from a first side to a second side of the cable pillar. For example, the cables may be routed from sets of access paths located in rails mounted on the sides of the cable pillar to enlarged access paths located near the top or bottom of the cable pillar. The enlarged access paths may be sized to receive every cable that passes through a set of access paths located on an opposing side of the cable pillar from a corresponding enlarged access path. Additionally, the cable pillar may be configured to releasably attach to a chassis of the switch system. In some examples, the plurality of cables accommodated by the cable pillar may serve as a cable backplane of the switch system.

A system includes a tray, where the tray includes a rail and a bracket that secures the rail to a networking device such that the rail is distanced from a surface of the networking device. A support post is removably coupled to the rail. The support post includes a first support member and a second support member vertically displaced from the first support member, where each of the first and second support members includes a support structure that supports a cable connected with a port at the surface of the networking device and routes the cable away from the networking device to another location distanced from the networking device. The cable supported by the first support member is separated and segregated from the cable supported by the second support member. With minimal touch, a support post can be moved from one location to another along the rail.

The present application discloses a cable arranging mechanism, a connecting plate for distribution and a distribution frame. The cable arranging mechanism provided by the present application includes a first plate body and a second plate body which are capable of being clamped with each other. The first plate body is provided with an opening for a connector of a cable to pass through. When the second plate body and the first plate body are separated from each other, the cable and the connector thereof are capable of passing through the opening. When the second plate body and the first plate body are clamped with each other, at least one through hole for the cable to pass through is formed. The overall space occupied by the cable arranging mechanism provided by the present application is very small.

High density optical fiber distribution sub-rack comprising: a chassis for housing a plurality of shelves, the chassis comprising at least two shelf storage areas placed side by side with each other, at least one shelf housed in one of the at least two storage areas of the chassis, the at least one shelf having an internal hollow seat for connection modules, the at least one shelf comprising one or more connection modules having a plurality of adapters for interconnection optical fibers, the connection modules being arranged in the internal hollow seat of the at least one shelf at the frontal face of the at least one shelf, wherein the at least one shelf is guided so as to be movable towards the external of the chassis by the succession of a translation movement and a rotation movement of the at least one shelf.

A cable manager connected to a network rack that routes cables in and around the network rack. The cable manager includes a body with plurality of fingers extending from the body. The distal end of at least one finger includes a hinge pin holder. The cable manager also includes a door hingedly attached to the fingers extending from the body. The door has a front, a back, edges, and at least one hinge pin receptacle positioned along the edges of the door. The hinge pin receptacle houses a magnet to enable the door to attach to the hinge pin holder of the at least one finger to hold the door in a closed position.

A system includes a tray, where the tray includes a rail and a bracket that secures the rail to a networking device such that the rail is distanced from a surface of the networking device. A support post is removably coupled to the rail. The support post includes a first support member and a second support member vertically displaced from the first support member, where each of the first and second support members includes a support structure that supports a cable connected with a port at the surface of the networking device and routes the cable away from the networking device to another location distanced from the networking device. The cable supported by the first support member is separated and segregated from the cable supported by the second support member. With minimal touch, a support post can be moved from one location to another along the rail.