An electrical connector includes: an insulative base; a center contact secured to the insulative base and extending upward out of the insulative base; and an outer shell secured to the insulative base and extending upward out of the insulative base beyond the center contact, the outer shell having a lower cylindrical part and an upper guiding part, wherein the center contact and the outer shell are insert-molded with the insulative base, the guiding part of the outer shell has an upper free end located inwardly of an interior wall of the lower cylindrical part in a top view, and the insulative base has a through hole encompassing the upper free end of the guiding part in a top view.

An electrical connector includes: an insulative base; a center contact secured to the insulative base and extending upward out of the insulative base; and an outer shell secured to the insulative base and extending upward out of the insulative base beyond the center contact, the outer shell having a lower cylindrical part and an upper guiding part, wherein the center contact and the outer shell are insert-molded with the insulative base, the guiding part of the outer shell has an upper free end located inwardly of an interior wall of the lower cylindrical part in a top view, and the insulative base has a through hole encompassing the upper free end of the guiding part in a top view.

A method for coupling a coaxial cable to a coaxial cable connector assembly includes inserting a coaxial cable into a cable channel of a rear body of a coaxial cable connector assembly, where the coaxial cable connector assembly includes an adhesive reservoir positioned at least partially within the cable channel of the rear body, the adhesive reservoir comprising an adhesive and an adhesive reservoir seal material that at least partially encapsulates the adhesive, inserting at least a portion of the coaxial cable into the adhesive reservoir, and exposing the adhesive to electromagnetic energy thereby curing the adhesive, by at least one of directing electromagnetic energy from an energy source on the adhesive, and removing an outer jacket from an outer wall of the rear body.

A method for coupling a coaxial cable to a coaxial cable connector assembly includes inserting a coaxial cable into a cable channel of a rear body of a coaxial cable connector assembly, where the coaxial cable connector assembly includes an adhesive reservoir positioned at least partially within the cable channel of the rear body, the adhesive reservoir comprising an adhesive and an adhesive reservoir seal material that at least partially encapsulates the adhesive, inserting at least a portion of the coaxial cable into the adhesive reservoir, and exposing the adhesive to electromagnetic energy thereby curing the adhesive, by at least one of directing electromagnetic energy from an energy source on the adhesive, and removing an outer jacket from an outer wall of the rear body.

An electrical connector includes a male connector and a female connector. The male connector has a housing, a first tubular conductor, a second tubular conductor, and an inner conductor. The first tubular conductor is carried by the housing and has an exposed first cylindrical contact surface. The second tubular conductor has an exposed second cylindrical contact surface of a smaller diameter than the first cylindrical contact surface. The inner conductor has an exposed contact surface that has a smaller diameter than the second cylindrical contact surface. The female connector has a non-conductive female connector housing and three electrical contacts carried by the female connector housing. Each of the three electrical contacts electrically connect, with the male connector engaged with the female connector, to a respective one of the contact surfaces of the male connector.

A connector includes: a cylindrical terminal to be electrically connected with a cylindrical counterpart terminal; an internal terminal located in the cylindrical terminal; and a housing holding the cylindrical terminal. The cylindrical terminal has a contact portion configured by bending a plate-shaped conductor into a cylindrical shape to contact one edge portion of the conductor with the other edge portion of the conductor. The one edge portion has a recessed shape at its circumferential end portion by reducing its thickness outwardly in a radial direction of the cylindrical terminal to configure one reduced thickness portion. The other edge portion has a recessed shape at its circumferential end portion by reducing its thickness inwardly in the radial direction to configure the other reduced thickness portion. The contact portion is configured by overlapping the one reduced thickness portion and the other reduced thickness portion.

A connector includes: a cylindrical terminal to be electrically connected with a cylindrical counterpart terminal; an internal terminal located in the cylindrical terminal; and a housing holding the cylindrical terminal. The cylindrical terminal has a contact portion configured by bending a plate-shaped conductor into a cylindrical shape to contact one edge portion of the conductor with the other edge portion of the conductor. The one edge portion has a recessed shape at its circumferential end portion by reducing its thickness outwardly in a radial direction of the cylindrical terminal to configure one reduced thickness portion. The other edge portion has a recessed shape at its circumferential end portion by reducing its thickness inwardly in the radial direction to configure the other reduced thickness portion. The contact portion is configured by overlapping the one reduced thickness portion and the other reduced thickness portion.

An electrical connector configured to be mated with a mating connector along a mating direction includes a plurality of contact elements each having a contact surface at least partially inclined with respect to the mating direction. The contact elements are spaced apart from each other along a circumferential direction with respect to the mating direction.

A plug-in device for an arrangement for goods display, having a socket mounted on a supporting structure, and a plug-in part having a plug-in portion plugged into a receptacle of the socket. An electrification arrangement, in the connected state of the plug-in device electrically supplies electricity via the plug-in device, with an electrical connection being established via the socket and the plug-in part in that an electrically conducting contact is established by galvanic contacting between a first contact point and a second contact point. The first contact point is formed on the socket and the second contact point is formed on the plug-in portion such that, in the connected state, the first contact point in and the second contact point are electrically contacted with one another.

A plug-in device for an arrangement for goods display, having a socket mounted on a supporting structure, and a plug-in part having a plug-in portion plugged into a receptacle of the socket. An electrification arrangement, in the connected state of the plug-in device electrically supplies electricity via the plug-in device, with an electrical connection being established via the socket and the plug-in part in that an electrically conducting contact is established by galvanic contacting between a first contact point and a second contact point. The first contact point is formed on the socket and the second contact point is formed on the plug-in portion such that, in the connected state, the first contact point in and the second contact point are electrically contacted with one another.