A wire management clip includes a wire compartment, a first clip compartment and a second clip compartment arranged perpendicular to the first clip compartment. The wire management clip may also include a retaining member extending into the first clip compartment for contacting a surface of a structure. The wire management clip may also include a retaining member extending into the second clip compartment for contacting a surface of the structure.

A connection device for a shield conductor of an electrical line includes: a housing attachable to a potential collector, into which housing the electrical line with the shield conductor is insertable; a spring element which is arranged adjustably on the housing, which spring element has a clamping leg and is movable relative to the housing from an open position into a clamping position in order to, in the clamping position, act with the clamping leg on the shield conductor of the electrical line inserted in the housing; and a locking element which is adjustable, relative to the housing, between a locking position, in which the housing attached to the potential collector is locked with the potential collector, and an unlocking position for releasing the housing from the potential collector.

A coaxial cable connector and a grounding insert extending between an elongated hollow post and a nut interior and providing an electrically conductive path therebetween.

A ground connection structure includes: a shield projecting portion being a part of a shield layer of a shield wire projected outside of an exterior covering to be exposed; an annular member for grounding disposed in a position surrounding an outer circumference of the shield wire and including a housing chamber having an opening along an annular shape of the annular member for grounding and being configured to house the shield projecting portion and a ground wire inserted from the opening; and a push-in member inserted from the opening and housed in the housing chamber after insertion of the ground wire and the shield projecting portion to bring the shield projecting portion and the ground wire into close contact with each other. The annular member for grounding includes locking claws configured to project into the housing chamber and lock the push-in member inserted into the housing chamber.

A method electrically connects by crimping electrical conductors in a connector for equipotential connection of a planar and flexible layer formed by the conductors, to metal components. The method includes positioning the electrical conductors in individual longitudinal and parallel cells which are formed between two planar walls of the connector, crimping the conductors crimped in a crimping zone by simultaneous transverse punching of at least one wall of the connector, and forming by the transverse punching at least one corresponding transverse groove line on the at least one connector wall and, by load transfer, on each of the conductors to electrically connect the conductors.

According to various embodiments, an electronic device includes a first electronic component, a second electronic component electrically connected to the first electronic component, and a conductive electric connection device disposed to electrically connect the second component and the first electronic component to each other. The electric connection device may include a first member fixed to the first electronic component, a second member formed to extend upward from the first member, and a third member formed to extend from the second member to be substantially parallel to a direction of overlapping with the first member. The second electronic component may be interposed in a space between the first member and the second member to be electrically connected to at least two areas of the second electronic component. Various other embodiments may be made.

Connectors including apertures for grounding outer conductors of conduits and connectors including grounding grooves for grounding outer conductors of conduits are disclosed. In some embodiments, a connector includes a bore, a gripping portion axially surrounding the bore, a generally cylindrical aperture for receiving a grounding wire, and a securing port for securing the grounding wire in the aperture. An exterior gripping surface of the gripping portion is symmetric. The generally cylindrical aperture extends along an aperture centerline through at least a portion of the gripping portion. The securing port extends along a securing port centerline and intersects the generally cylindrical aperture. In other embodiments, a connector includes a grounding groove extending at least partially around an outer diameter of the connector that is adapted to receive the grounding wire, and a securing port longitudinally offset from the grounding groove and extending along a securing port centerline.

A ground clamp adapter for grounding electrical wire. The ground clamp adapter comprises a first section. The first section comprises a body having a platform extending laterally from the body. The platform having a lateral recess and a transverse recess orthogonally integrally formed in the platform. At least one bracket is adjustably coupled to the platform proximate one of the lateral recess and the transverse recess. The bracket and one of the lateral recess and the transverse recess are configured to clamp a grounding wire. A second section has a coupling portion configured to adjustably couple with the first section. The second section is configured to clamp onto a pipe shaped object to conduct electricity to ground.

A ground connection structure includes: a shield projecting portion being a part of a shield layer of a shield wire projected outside of an exterior covering to be exposed; an annular member for grounding disposed in a position surrounding an outer circumference of the shield wire and including a housing chamber having an opening along an annular shape of the annular member for grounding and being configured to house the shield projecting portion and a ground wire inserted from the opening; and a push-in member inserted from the opening and housed in the housing chamber after insertion of the ground wire and the shield projecting portion to bring the shield projecting portion and the ground wire into close contact with each other. The annular member for grounding includes locking claws configured to project into the housing chamber and lock the push-in member inserted into the housing chamber.

Disclosed is a fluid conduit (1) comprising a pipe (2) and a conduit connector (3) which is connected to the electrically conductive pipe (2). In order to be able to keep the risk associated with electricity being on the fluid line as low as possible with little effort, an electrical connecting element (9) which is electrically connected to the pipe (2) is provided in the region of the conduit connector (3).