A self-piercing connector comprising, a first body, a second body, the first body comprising a first cutting member for piercing a fluid conduit insulating layer to engage a fluid conduit first conductor, the second body comprising a second cutting member for piercing the fluid conduit insulating layer to engage a fluid conduit second conductor, the first cutting member having a semi-circular form and comprising portions that extend tangentially from each end of the first cutting member, the second cutting member having a semi-circular form and comprising portions that extend tangentially from each end of the second cutting member, the first cutting member and the second cutting member electrically isolated from each other, the first body comprising a first connection member for engaging a cooperating second connection member on the second body, a first body receiver for receiving an electrical conductor connectable to the first cutting member, and a second body receiver for receiving an electrical conductor connectable to the second cutting member.

Embodiments are directed to board (e.g. PCB) mountable connectors for small gauge ribbon cables having a plurality of 28-40 AWG wires wherein the connectors are fabricated from a plurality of adhered layers comprising at least on metal.

Embodiments are directed to board (e.g. PCB) mountable connectors for small gauge ribbon cables having a plurality of 28-40 AWG wires wherein the connectors are fabricated from a plurality of adhered layers comprising at least on metal.

A lighting device includes an elongated profiled body with a web wall having first and second opposing faces, and two side walls to the side of the web wall, the latter having longitudinal slots extending therealong. In the profiled body, there may be provided an elongated light radiation source module including a support board with electrically conductive formations facing said longitudinal slots and at least one electrically-powered light radiation source which is in electrical contact with said electrically conductive formations. The light radiation source module is locatable in elongated profiled body extending between both side walls, with support board facing towards the first face of web wall. An electrical contact slider member slidable along the second face of web wall is provided with electrical contact pins adapted to extend into said longitudinal slots. Slider member is displaceable towards support board with pins contacting said electrically conductive formations of support board.

A cable gland having a first cable gland portion and a second cable gland portion in engagement with each other is disclosed. The cable gland comprises earthing members (60) in electrical engagement with the first and second gland portions, each earthing member including a spike (68) for penetrating through a sheath layer of an electrical cable, following radially inward movement of the spike, thereby forming an electrical earth connection with a conducting portion of a cable. The first gland portion comprises a first cam surface and the second gland portion comprises a second cam surface, wherein the first and second cam surfaces are adapted to engage respective earthing member cam surfaces (72, 74) of the earthing member, the first and second cam surfaces thereby causing the earthing member and the corresponding spike to move radially inwards as the first and second gland portions are brought into threaded engagement with each other.

The present invention provides a piercing-through structure for a connector, comprising a hollow-core body, a lead, and a receptacle. Wherein a front connection portion is disposed at a front end of the hollow-core body; a plurality of wires extending forward is disposed at a front end of the lead disposed at a rear segment in the hollow-core body; and a plurality of metallic spikes is disposed at a front end of the connector of the receptacle and a connection sleeve movably fits around a front end of the body. So that connecting the hollow-core body and the receptacle together enables the connection sleeve of the receptacle to fit around the front connection portion of the hollow-core body, allowing the metallic spikes to pierce across surfaces of the wires such that, after piercing insulating sheaths of the wires, the metallic spikes come into contact with metallic cores of the wires, so as to achieve electrical connection of the connector of the receptacle and the wires of the hollow-core body.

An electrical connector includes a clamp body having a substantially C-shaped configuration defining an interior cavity. A wedge is configured to be inserted into the clamp body. The wedge has a wedge body defining a conductor channel and a plurality of fins extending from the wedge body into the conductor channel. The plurality of fins is oriented to pierce an insulation layer of a conductor when the wedge is inserted into a clamp body.

An electrical connector includes a clamp body having a substantially C-shaped configuration defining an interior cavity. A wedge is configured to be inserted into the clamp body. The wedge has a wedge body defining a conductor channel and a plurality of fins extending from the wedge body into the conductor channel. The plurality of fins is oriented to pierce an insulation layer of a conductor when the wedge is inserted into a clamp body.

A lighting device includes an elongated profiled body with a web wall having first and second opposing faces, and two side walls to the side of the web wall, the latter having longitudinal slots extending therealong. In the profiled body, there may be provided an elongated light radiation source module including a support board with electrically conductive formations facing said longitudinal slots and at least one electrically-powered light radiation source which is in electrical contact with said electrically conductive formations. The light radiation source module is locatable in elongated profiled body extending between both side walls, with support board facing towards the first face of web wall. An electrical contact slider member slidable along the second face of web wall is provided with electrical contact pins adapted to extend into said longitudinal slots. Slider member is displaceable towards support board with pins contacting said electrically conductive formations of support board.

A wire connector configured to connect at least two wires includes a first portion and a second portion rotatably connected to the first portion. The first portion includes a plurality of spaced apart through bores in the first main body and opposing first stops extending from the exterior surface. The second portion includes a combination insulation piercing and wire connecting member having a plurality of apertures with arcuate slots extending from each of the plurality of apertures and opposing second gripping tabs, wherein opposing second gripping tabs are located about 180 from each other. When the opposing second gripping tabs abut each of the opposing first stops, the member is in a first position where wires can be positioned into the second portion through the member.