A contact is provided with an engaging portion for engaging with a housing. The housing is provided with an insertion end portion for insertion of the contact, a connection end portion for connection to a partner connection target, a contact insertion hole, and an engagement arm extending in a cantilevered manner from the connection end portion toward the insertion end portion. The engagement arm includes an engaged portion for engaging with the engaging portion, and an extension arm portion extending from the engaged portion toward the insertion end portion. The extension arm portion faces an inner wall defining the contact insertion hole with a space therebetween, and restricts the flexing amount of the engagement arm by the tip side of the extension arm portion abutting against the inner wall when the engagement arm flexes.

A plug connector for mating with a receptacle connector which is provided with a groove at an upper surface thereof includes: an insulating body; and a locking elastic piece on the insulating body, wherein the insulating body includes a main body and a mating portion extending forward from the main body, a bottom of the mating portion protrudes downward to form a sinking portion, and the sinking portion is located entirely above the groove.

A drive (e.g., hard drive) carrier can have a frame with a door that can open to permit installation of the drive and can snap shut to secure the drive within the drive carrier. The drive carrier can include a connector lock, which can take the form of a pair of pins extending from the frame and capable of engaging corresponding retention holes of a connector of a cable. The connector lock can help align the cable's connector with the drive's connector, as well as releasably lock the cable's connector in place when operatively connected to the drive. Damping couplings can couple the carrier frame to a computer chassis. The damping couplings and the flexibility of the cable vibrationally isolate the drive from the chassis, while the connector lock ensures the cable's connector does not unintentionally disconnect from the drive.

A contact carrier receives and fixes at least one crimp contact. The contact carrier includes an insulating body and a holding plate that can be mounted on the insulating body on a connection side. The insulating body has a detent element which, in the non-mounted state, can assume both a position in which the crimp contact is latched and a position in which the crimp contact is unlatched. The holding plate has a locking element which, in the mounted state, fixes the at least one detent element in its position in which the crimp contact is latched. It thereby prevents the crimp contact from moving from the latching position to the unlatching position. The detent element is designed as a detent arm which points towards the connection side and has a detent molding for latching in a latching groove of the crimp contact.

A connector housing for an electrical connector includes a receiving portion arranged inside a cavity of the connector housing. The receiving portion is adapted to receive an electrical contact terminal. The receiving portion further comprises at least one latching nose adapted to block a release movement of the electrical contact terminal upon insertion of the electrical contact terminal into the connector housing. The connector housing comprises a reinforcement element made of a material different than the material of the connector housing. Said reinforcement element is arranged on a surface of the connector housing and adapted to reinforce at least a part of the connector housing in a region around the at least one latching nose. The present disclosure further relates to a connector assembly for an electrical connector.

A connector assembly according to the present invention includes a receptacle connector; and a plug connector to be slidably inserted into the receptacle connector, wherein the plug connector includes a signal pin having one side in electrical contact with a signal line of a cable, a shield can formed to enclose the signal pin so that a lower surface of the other side of the signal pin is exposed and to be electrically spaced apart from the signal pin, a first insulating member coupled to the signal pin to insulate between the signal pin and the shield can, and a plug shell enclosing the shield can so as to expose the lower surface of the other side of the signal pin.

Fixed conductive plates are buried in a case. In its internal space, a first contact surface, which is part of each fixed conductive plate, and a second contact surface, which is an inner surface of the case, are opposite to each other, and an elastic conductive plate is interposed in this opposing portion. The elastic conductive plate is structured so that, in a restricting portion, a support piece portion is fitted to the thin plate portion of the fixed conductive plate and that an elastic arm portion extends from the support piece portion.

A contact carrier retains a crimp contact inserted therein at a central collar of the crimp contact in a particularly stable manner and at the same time absorb the highest possible plugging forces. The contact carrier has an insulating body and a retaining plate, which can be mounted thereon on the connection side. Furthermore, the contact carrier has at least one detent element, which, in the unassembled state, can assumed both a position locking the plug contact and a position releasing the plug contact. The detent element is part of the insulating body. The retaining plate also has at least one blocking element, which, in the assembled state, fixes the detent element in the position thereof locking the plug contact and thus prevents the transition of the detent element from the locking position into the releasing position.

An electrical connector includes an electrical connector housing having a body with a receiving portion, a movable pin, a part of the movable pin is movably disposed in the receiving portion, a first elastic piece disposed in the receiving portion, and a second elastic piece located between a side wall of the receiving portion and the movable pin and elastically abutted against an outer circumferential surface of the movable pin. A first end of the movable pin movably protrudes out of the receiving portion against an elasticity of the first elastic piece. The movable pin is electrically connected to the electrical connector housing by the first elastic piece and the second elastic piece.

A plug connector assembly comprises a plug connector having an elastic locking structure for locking to a socket connector. The elastic locking structure is movable between a locking position engaged with the socket connector, and an unlocking position separated from the socket connector. An adapter of the assembly includes a pressing structure and a pull stop structure. The plug connector is received within the adapter for mating with the socket connector slidably inserted into the adapter. When the plug connector is received within the adapter, the pressing structure presses and holds the elastic locking structure in the unlocking position, and the pull stop structure abuts the elastic locking structure for preventing the plug connector from being pulled out of the adapter.