A terminal to connect of a tape light with at least one electric element is disclosed. The terminal includes a body having a base, a first sidewall extending outwardly from the base and defining an opening to receive a portion of the tape light, a second sidewall extending outwardly from the base and arranged spaced apart from the first sidewall. The second sidewall defines at least one groove extending inside the body from the second sidewall for receiving the at least one electric element. Further, the terminal includes a roof arranged opposite to the base and defining a plurality of cut-outs extending from the roof to the opening and a plurality of holes extending from the roof to the at least one groove, and a plurality of rails extending from the first sidewall to the second sidewall intersecting the plurality of cut-outs and the plurality of holes.

A terminal to connect of a tape light with at least one electric element is disclosed. The terminal includes a body having a base, a first sidewall extending outwardly from the base and defining an opening to receive a portion of the tape light, a second sidewall extending outwardly from the base and arranged spaced apart from the first sidewall. The second sidewall defines at least one groove extending inside the body from the second sidewall for receiving the at least one electric element. Further, the terminal includes a roof arranged opposite to the base and defining a plurality of cut-outs extending from the roof to the opening and a plurality of holes extending from the roof to the at least one groove, and a plurality of rails extending from the first sidewall to the second sidewall intersecting the plurality of cut-outs and the plurality of holes.

A device connector (10) is to be mounted on a case (1) of a device and includes a housing (20) configured to fit into a mounting hole (2) in the case (1). A wire (40) is pulled out from the housing (20) in parallel to an outer surface (4) of the case (1). A shield (50) includes a wire-side mounting portion (53) that is configured to cover the wire (40), and a connecting member (60) configured to coaxially arrange and directly connect a case-side mounting portion (3) projecting in a direction intersecting a pull-out direction of the wire (40) from the outer surface (4) of the case (1) and the wire-side mounting portion (53).

A screw insertion hole 24 into which a cylindrical shaft portion 17 of a screw 16 is to be inserted is formed in a terminal accommodation portion 22. Also, a guide pin 25 made of metal is provided through insert molding so as to correspond with the screw insertion hole 24. The guide pin 25 is for matching a direction in which the screw 16 advances with a prescribed direction, that is, a vertical direction orthogonal to a fastening surface 23.

An optimally interconnected matrix of endpoints involves one or more conductive lanes of a substrate to be incorporated within a housing, with a plurality of conductive blocks positioned transverse to the conductive lanes. Any number of endpoints can be connected to any end of the conductive blocks. The endpoints can be interconnected by activating individual depressible terminals of the conductive lanes. Each depressible terminal is positioned above a conductive block, and activating a depressible terminals allows an electrical contact to be established between the corresponding conductive lane and the corresponding conductive block. The depressible terminals can be activated by extending a conductive or nonconductive pin through individual apertures of the housing which are positioned over the depressible terminals.

An optimally interconnected matrix of endpoints involves one or more conductive lanes of a substrate to be incorporated within a housing, with a plurality of conductive blocks positioned transverse to the conductive lanes. Any number of endpoints can be connected to any end of the conductive blocks. The endpoints can be interconnected by activating individual depressible terminals of the conductive lanes. Each depressible terminal is positioned above a conductive block, and activating a depressible terminals allows an electrical contact to be established between the corresponding conductive lane and the corresponding conductive block. The depressible terminals can be activated by extending a conductive or nonconductive pin through individual apertures of the housing which are positioned over the depressible terminals.

A conductive fastening mechanism including a nut connected to an energy load module and electrically connected to a power supply through a power switch S0; an anti-rotating seat located above the nut; a conducting element arranged in the anti-rotating seat and electrically connected to a load; a connecting piece penetrating the anti-rotating seat and the conducting element and selectively connected to the nut, used for on-off between the load and the power supply; a handle rotatably arranged on the connecting piece, where the handle is configured to be selectively clamped in the anti-rotating seat to limit the connecting piece. The handle is rotatably arranged on the connecting piece and can be selectively clamped on the anti-rotating seat, such that the handle plays a role in preventing the connecting piece from rotating, so as to achieve the purpose of anti-vibration and anti-loosening, prevent damage and other safety accidents, and improve safety.

A bonding kit for use with a water-holding structure, the kit having a bonding conductor with a body portion configured to reside within a component attached to the water-holding structure. The bonding conductor includes an extension portion configured to extend outwardly from the component. The bonding kit includes a conductor fitting configured to attach to the extension portion of the bonding conductor and to attach to a conductive system of the water-holding structure, providing an electrical connection between the bonding conductor, or water therein, and the conductive system, the bonding conductor providing equipotential bonding for water contained in the water-holding structure.

To provide a fastener improving assembling efficiency and a wiring assembly including the fastener, a fastener includes a head including a first inner peripheral surface and a groove and a shank. The first inner peripheral surface defines a first through hole. The groove is in communication with the first through hole and extends in a direction intersecting with a direction in which the first through hole extends. The shank includes a second inner peripheral surface defining a second through hole that is in communication with the first through hole. The shank is connected to the head.

To provide a fastener improving assembling efficiency and a wiring assembly including the fastener, a fastener includes a head including a first inner peripheral surface and a groove and a shank. The first inner peripheral surface defines a first through hole. The groove is in communication with the first through hole and extends in a direction intersecting with a direction in which the first through hole extends. The shank includes a second inner peripheral surface defining a second through hole that is in communication with the first through hole. The shank is connected to the head.