In a card connector, a main body has a plugging space formed therein and used to locate terminals of a terminal set, two sliding members of a sliding mechanism are movably disposed on two sides of the terminal set in the plugging space, respectively, and each sliding member has a supporting part protruded on a side thereof and extended into the plugging space, and elastic members are abutted between sides of the two sliding members and two opposite sidewalls of the plugging space, respectively; a terminal of a guiding rod is slid along a guiding groove, and other terminal of the guiding rod is inserted through the main body; a push plate of a shielding housing is abutted with the guiding rod, so that a preset electronic card can be stably inserted into or ejected out of the plugging space through the two sliding member.

In a card connector, a main body has a plugging space formed therein and used to locate terminals of a terminal set, two sliding members of a sliding mechanism are movably disposed on two sides of the terminal set in the plugging space, respectively, and each sliding member has a supporting part protruded on a side thereof and extended into the plugging space, and elastic members are abutted between sides of the two sliding members and two opposite sidewalls of the plugging space, respectively; a terminal of a guiding rod is slid along a guiding groove, and an other terminal of the guiding rod is inserted through the main body; a push plate of a shielding housing is abutted with the guiding rod, so that a preset electronic card can be stably inserted into or ejected out of the plugging space through the two sliding members.

A card connector assembly includes: an electrical connector including an insulative housing, a plurality of terminals secured to the insulative housing, a shell covering the insulative housing to form a receiving cavity, and an ejector having a pivot; and a card tray removably received in the receiving cavity, the card tray having a front surface, wherein the card tray has a protrusion at the front surface, and the pivot has an engaging portion for ejecting the card tray, the engaging portion having a recess for receiving the protrusion and an ejecting end for riding onto the protrusion.

A card connector assembly includes: an electrical connector including an insulative housing, a plurality of terminals secured to the insulative housing, a shell covering the insulative housing to form a receiving cavity, and an ejector having a pivot; and a card tray removably received in the receiving cavity, the card tray having a front surface, wherein the card tray has a protrusion at the front surface, and the pivot has an engaging portion for ejecting the card tray, the engaging portion having a recess for receiving the protrusion and an ejecting end for riding onto the protrusion.

A SIM card connector has an integrated SIM card tray ejection mechanism. The ejection mechanism is contained within the connector and includes a pushrod that is disposed in a slot adjacent a SIM card tray cavity. The pushrod is configured to apply a force against an ejector arm when the ejection mechanism is activated. In response, the ejector arm rotates about a pivot and applies an ejection force to the SIM card tray causing the tray to eject from the cavity.

An electronic device port ejection structure includes a first mounting member, a moving assembly, and a first resilient member. The first mounting member is connected to the electronic device, and the first mounting member is provided with a holding groove, a first damping portion is provided on an inner wall of the holding groove. Along a first direction, the moving assembly is slidably coupled to the first mounting member, and the moving assembly is configured to be at least partially slidable relative to the first mounting member to enter the holding groove. A second damping portion is provided on the moving assembly and during sliding of the moving assembly relative to the first mounting member, the second damping portion contacts the first damping portion and creates damping. The first resilient member is configured to provide a first resilient force on the moving assembly.