An axially resilient press-in contact pin includes a metal body and an electrically conductive, elastic element. The metal body includes a pin-shaped section and a press-in spring. The press-in spring is on a first end of the pin-shaped section. The elastic element surrounds at least portions of the pin-shaped section and extends beyond a second end (i.e., free end region) of the pin-shaped section.

A connector includes two insulators which hold contacts connected to lead wires and are arranged on two surfaces of a ceramic element, a spring component which includes two cantilever-shaped spring pieces and has a flexed portion at a middle portion of each spring piece, and a cylindrical sleeve. The two spring pieces are located over two outer surfaces of the two insulators, and are elastically deformed toward the two insulators by the sleeve hanging over the two spring pieces. The two insulators pushed by the flexed portions of the two elastically deformed spring pieces hold the ceramic element from two sides to push the contacts against the terminal electrodes.

An opening/closing mechanism of a cover member that can easily push down the cover member by the lever member even if the force from the base member side to the cover member is increased, improving the operability of the lever member. A solution is that the lever member 17 is rotatably supported to the base member 23 by the first shaft 31, the link plate 29 is mounted to the lever member 17 by the second shaft 32, the cover member 15 is mounted to the link plate 29 by the third shaft 33, and the link plate 29 is rotated around the axis of the first shaft 31 in the direction in which the lever member 17 closes, so that the link plate 29 moves through the second shaft 32, and the link plate 29 moves, so that the cover member 15 is depressed through the third shaft 33.

An opening/closing mechanism of a cover member that can easily push down the cover member by the lever member even if the force from the base member side to the cover member is increased, improving the operability of the lever member. A solution is that the lever member 17 is rotatably supported to the base member 23 by the first shaft 31, the link plate 29 is mounted to the lever member 17 by the second shaft 32, the cover member 15 is mounted to the link plate 29 by the third shaft 33, and the link plate 29 is rotated around the axis of the first shaft 31 in the direction in which the lever member 17 closes, so that the link plate 29 moves through the second shaft 32, and the link plate 29 moves, so that the cover member 15 is depressed through the third shaft 33.

A connector includes two insulators which hold contacts connected to lead wires and are arranged on two surfaces of a base end portion of a ceramic element, two spring components which have flat plate portions located on respective outer surfaces of the two insulators and spring portions supported by the flat plate portions, and a cylindrical sleeve. Each spring portion has an inclined surface which inclines in a movement direction in which the sleeve moves toward the spring components. Each spring portion is elastically deformed by the sleeve hanging over the spring portion. The two insulators hold the base end portion from two sides by being pushed by the flat plate portions in directions in which the two insulators are brought closer to each other. The contacts are pushed against the terminal electrodes.

A connector includes two insulators which hold contacts connected to lead wires and are arranged on two surfaces of a base end portion of a ceramic element, two spring components which have flat plate portions located on respective outer surfaces of the two insulators and spring portions supported by the flat plate portions, and a cylindrical sleeve. Each spring portion has an inclined surface which inclines in a movement direction in which the sleeve moves toward the spring components. Each spring portion is elastically deformed by the sleeve hanging over the spring portion. The two insulators hold the base end portion from two sides by being pushed by the flat plate portions in directions in which the two insulators are brought closer to each other. The contacts are pushed against the terminal electrodes.

Connector receptacles that can provide audible feedback to inform a user that a card has been properly inserted, and can include structures to protect contacts in a connector receptacle from damage due to an improper card insertion. An example can provide a connector receptacle having a click module to provide audible feedback indicating that a card has been fully inserted. Another example can provide a connector receptacle having movable contacts that can remain out of an insertion path until the card is at least partially inserted.

Provided is a connector that can hold a substrate firmly even in high-temperature and high-humidity environments. The connector (1) has: a connector housing (10) having a substrate accommodation space (S1); a terminal fitting (11) attached to the connector housing (10) so as to face the substrate accommodation space (S1); and a retainer (13) that holds a flexible substrate (30) positioned in the substrate accommodation space (S1) by pinching the flexible substrate (30) against the terminal fitting (11). The retainer (13) changes between a pressing state in which the flexible substrate (30) is pressed toward the terminal fitting (11), and a non-pressing state in which the pressing on the flexible substrate (30) is released. The retainer (13) is made of metal.

An electrical connector includes electrical contacts that are configured to be mounted to an electrical cable, and mating ends that are configured to be surface mounted to a contact pad of an underlying substrate, such that the mating ends flex and apply a pressure against the contact pad.

An electrical connector includes electrical contacts that are configured to be mounted to an electrical cable, and mating ends that are configured to be surface mounted to a contact pad of an underlying substrate, such that the mating ends flex and apply a pressure against the contact pad.