The present application discloses a tying-free network module and a cable gland. The tying-free network module disclosed by the present application includes a female seat and a fastener part connected with the female seat. The female seat and the fastener part form an accommodating cavity. The cable clip includes a sheet-shaped base part. An arc-shaped positioning edge is provided on one side, close to the cable, of the base part. At least two clamping grooves are provided in at least one side surface of the base part. When the cable is clamped by using the cable clip, the cable clip is provided in a direction perpendicular to the cable. The overall length of the tying-free network module disclosed by the present application is smaller, and the overall length of the tying-free network module is minimized.

The invention relates to a shielding metal plate (3) suitable for connecting at least one shielded conductor. The shielding metal plate (3), which can be held in a housing of a plug connector, protects the held conductor from external, interfering influences. The shielding metal plate (3) can be variably adapted to different conductor cross-sections such that both thin and thick conductors can be connected.

A wire holding structure (11) for wires (10) includes wires (10), a rubber plug (34) having wire through holes (35) having the wires (10) passed therethrough, a housing (22) externally fit to the rubber plug (34) and a wire cover (15) configured to cover the housing (22). The wire cover (15) includes an opening (24), and the housing (22) includes a lid (33) shaped to correspond to the opening (24) and configured to close the opening (24).

A connector assembly (10) is disclosed in which a connector part (12) and a cable manager part (20) are provided. The cable manager part (20) can be provided with a housing assembly (70, 170, 270, 370) that contains a pair of clamp members (74, 174, 274, 374) that function together to ensure a grounded connection between the connector assembly (10) and a conductive element (5) of a cable (4).

A connector includes a housing that has a plurality of terminal receiving chambers into which terminals are inserted and a rear holder that is mounted at the housing and supports a wire connected to the terminal received in each terminal receiving chamber. In the connector, the rear holder has a terminal holding part that holds each terminal at a predetermined position in an insertion direction of the rear holder into each terminal receiving chamber.

An electrical connector includes a main body, a first cover, and a second cover. The main body includes a first connection portion, a wire inlet portion, and an accommodating space between the first connection portion and the wire inlet portion. The first cover is pivotally connected to the first connection portion to be rotatable relative to the main body between a first position and a second position. When the first cover is at the first position, the accommodating space is opened for installation. When the first cover is at the second position, the first cover at least partially closes the accommodating space for protection. The second cover is connected to the first cover and separably encloses a wire inlet hole with the wire inlet portion. The second cover is movable relative to the wire inlet portion to adjust the size of the wire inlet hole.

A cable connector assembly for electrical and/or optical cables and for connection to a complementary connector assembly. A housing for receiving the contact elements can be connected to a clamping sleeve via a threaded connection. A partially radially compressible clamping member surrounds and grips the cable at the latest when the threaded connection of the clamping sleeve and the housing is tightened. A tightening sleeve, having a length less than the clamping sleeve, is pushed coaxially over at least a portion of the clamping sleeve. A unidirectional locking mechanism interposed between the clamping sleeve and the tightening sleeve prevents a relative rotation of the tightening sleeve and the clamping sleeve in the tightening direction of the threaded connection between the clamping sleeve and the housing beyond a certain extent. A user can assemble the cable connector assembly manually, but can no longer open it without a tool.

A clamping element (10), which can be radially compressed at least in part, and engages around and clamps a cable (K) of a cable connector unit once the threaded connection of clamping sleeve (3) and housing (1) is tightened. A cable connector unit using such a clamping element (10) is also provided.

A wall plate for covering an AC/DC wall outlet includes a generally rectangular or designer opening configured to receive the wall outlet. The wall plate includes a cable retention member and a pass-through section. The cable retention member and the pass-through section protrude from a front face of the wall plate. The retention member protrudes far enough to allow the wall plate to seat on the outlet while a cable connector is in a corresponding DC outlet of the wall outlet. The retention member includes a slot configured to allow the connector to pass-through the slot in a first orientation but not a second orientation 90 degrees off from the first orientation. When the connector is in the DC outlet, it is in the second orientation relative to the slot. The pass-through section defines an opening that allows the connector to be received in a second DC outlet corresponding to the pass-through section regardless of orientation of the connector relative to the opening and pass-through section. The cord retention member and pass-through section cooperate to form a bridge between sides of the wall plate over the AC outlet. In one embodiment, the pass-through section extends vertically further from the face of the plate than the cord retention member.

A docking connector having two pairs of opposing sides forming a frame and first means on a first pair of opposing sides for mounting a plurality of connector modules in a first direction in the frame and second means on a second pair of sides for mounting a plurality of modules of a second size in a second direction where the second direction is perpendicular to the first direction.