An ejecting mechanism provides an ejecting executing portion driven by an ejecting driving portion for pushing a secondary machine out of a primary machine and for separating a secondary connector and a primary connector connected to each other. It allows the secondary machine to be ejected out of the primary machine automatically and prevents damage of the secondary connector and the primary connector caused by applying an external pulling force on the secondary machine directly. Furthermore, when a first external force overcomes a resilient driving force to push the secondary machine into a slot, the ejecting executing portion contacting with the secondary machine swings toward a rear end of a connecting surface of the primary connector. Additionally, an ejecting locking portion moving with the swing of the ejecting executing portion can be locked by a locking executing portion, such that the automatic ejection of the secondary machine is restrained.

A plug connector part for electrical connection to a mating plug connector part is provided. The plug connector part includes a housing and a contact carrier that is movable in relation to the housing. The contact carrier includes at least one electrical contact for the mating plug connector part and a slider that is movable in relation to the housing and to the contact carrier. The plug connector part for includes an elastic element that is supported on the slider and on the contact carrier in such a way that the elastic element is tensioned by a displacement of the slider in relation to the contact carrier.

An unlocking bracket includes a fastener and an unlocking member. The fastener includes a fixing case and a support rod provided on the fixing case. The support rod is configured to bear on a connector. The fixing case is configured to sleeve on the connector. The unlocking member includes a cantilever and an unlocking block. The cantilever is configured to be rotationally mounted on the fixing case. The unlocking block is configured to abut a locking clip of the connector. The cantilever is configured to drive the unlocking block to rotate to push a locking clip of the connector.

A connector with a direct locking and a rotational pre-ejection function is provided. The connector includes an insulated body, a plurality of terminals, an inner shell, an outer shell, a fastener, an ejector, a first elastic element, and a second elastic element. A plurality of push blocks are disposed in the outer shell, the ejector has a plurality of slope surfaces, and the push blocks are in contact with the slope surfaces, respectively. When the connector and a mating connector are inserted into each other, snap bodies of the fastener and fastener bodies of the mating connector can be snapped into each other to be directly locked. When the connector and the mating connector are to be separated from each other, the outer shell can be rotated to cause the snap bodies to disengage and to cause the push blocks to rotate while in contact with the sloped surfaces to effect ejector rods to move forwardly to eject the mating connector.

A connector with a direct locking and a rotational pre-ejection function is provided. The connector includes an insulated body, a plurality of terminals, an inner shell, an outer shell, a fastener, an ejector, a first elastic element, and a second elastic element. A plurality of push blocks are disposed in the outer shell, the ejector has a plurality of slope surfaces, and the push blocks are in contact with the slope surfaces, respectively. When the connector and a mating connector are inserted into each other, snap bodies of the fastener and fastener bodies of the mating connector can be snapped into each other to be directly locked. When the connector and the mating connector are to be separated from each other, the outer shell can be rotated to cause the snap bodies to disengage and to cause the push blocks to rotate while in contact with the sloped surfaces to effect ejector rods to move forwardly to eject the mating connector.

An electrical connector includes a first plug-connection module and a second plug-connection module, and the first plug-connection module and the second plug-connection module fit with each other through a plug-connection in a first direction. The first plug-connection module includes a first housing component and a first wiring portion. The second plug-connection module includes a second housing component, a second wiring portion, and a sliding conductor. A locking mechanism and a trigger mechanism are disposed between the first plug-connection module and the second plug-connection module; and while the locking mechanism is in a locked state, the locking mechanism locks the sliding conductor and the first wiring portion, to keep the sliding conductor connected to the first wiring portion. An elastic reset member is disposed between the second housing component and the sliding conductor.

An electrical connector includes a first plug-connection module and a second plug-connection module, and the first plug-connection module and the second plug-connection module fit with each other through a plug-connection in a first direction. The first plug-connection module includes a first housing component and a first wiring portion. The second plug-connection module includes a second housing component, a second wiring portion, and a sliding conductor. A locking mechanism and a trigger mechanism are disposed between the first plug-connection module and the second plug-connection module; and while the locking mechanism is in a locked state, the locking mechanism locks the sliding conductor and the first wiring portion, to keep the sliding conductor connected to the first wiring portion. An elastic reset member is disposed between the second housing component and the sliding conductor.

A known quick connect electrical connector has plug which has a spindle through which a rod is passed. Metal balls are contained within the spindle and can be pushed radially outwardly by a widened portion of the rod to lock the spindle to a passage in a corresponding socket. To separate the plug and socket, the rod must be pushed to move the widened portion away from the balls. To accomplish this, a cam follower is attached to the rod. Slide supports are attached to the plug. A lever slides within the slide supports and has a cam surface which pushes the cam follower when the lever is slid within the slide supports. When the cam follower is pushed, it moves the rod to enable the metal balls to move radially inwards to release the plug from the socket.

A known quick connect electrical connector has plug which has a spindle through which a rod is passed. Metal balls are contained within the spindle and can be pushed radially outwardly by a widened portion of the rod to lock the spindle to a passage in a corresponding socket. To separate the plug and socket, the rod must be pushed to move the widened portion away from the balls. To accomplish this, a cam follower is attached to the rod. Slide supports are attached to the plug. A lever slides within the slide supports and has a cam surface which pushes the cam follower when the lever is slid within the slide supports. When the cam follower is pushed, it moves the rod to enable the metal balls to move radially inwards to release the plug from the socket.

A card edge connector includes: an elongated insulative housing comprising two longitudinal walls, a center slot defined between the longitudinal walls, and plural terminal receiving passageways arranged along the longitudinal walls; and plural terminals fixed in the terminal receiving passageways, wherein each of the longitudinal walls defines a first recessed portion extending along a longitudinal direction and plural second recessed portions extending upwardly from the first recessed portion at an outer surface thereof, the second recessed portions are arranged at intervals along the longitudinal direction, the first recessed portion goes through a bottom face of the longitudinal wall, and the second recessed portions does not go through a top of the longitudinal wall.