A mobile terminal stopper ejection system is described, and includes a bracket and a stopper body which may be placed in the bracket, wherein a limiting lug boss is arranged on an inner side of a sidewall of the bracket, the limiting lug boss is partially or totally a magnetic substance, the stopper body is provided with an accommodation space, a limiting groove corresponding to the limiting lug boss is formed in an outer wall of the stopper body, the stopper body is fixed in the bracket by clamping between the limiting lug boss and the limiting groove, an ejecting spring is arranged between the stopper body and the bracket, the ejecting spring is arranged to eject the stopper body, the system further includes a magnetic module, and the magnetic module is an electromagnetic module, and attracts the limiting lug boss to be separated from the limiting groove when being energized. The system for ejecting the stopper of the mobile terminal implements automatic ejecting of the stopper of the mobile terminal.

The invention relates to a connector (1) for data connections, in particular of the RJ type, with a latch element (6) for securing a connection to a counter-connector. In order to simplify a disconnection of the connector (1) and the counter-connector, even when the connection is secured by the latch connection, the invention provides that the connector (1) is provided with a gripping end (5, 5′) that is adapted to transfer the latch element (6) from its latch position (L) and to disconnect the connector (1) from the counter-connector by a single movement.

The invention relates to a connector (1) for data connections, in particular of the RJ type, with a latch element (6) for securing a connection to a counter-connector. In order to simplify a disconnection of the connector (1) and the counter-connector, even when the connection is secured by the latch connection, the invention provides that the connector (1) is provided with a gripping end (5, 5′) that is adapted to transfer the latch element (6) from its latch position (L) and to disconnect the connector (1) from the counter-connector by a single movement.

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.

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.

An information handling system includes a processor and receptacle module. The processor to receive a request to safely remove a hardware component coupled to the information handling system, to execute a safely remove process for the hardware component, and to send a latch release signal in response to the safely remove hardware process being completed. The receptacle module including a receptacle mounted on a receptacle circuit board, a latch, and a component. The latch is biased in a first position with a hook of the latch being located within in a notch of the receptacle. The latch is configured to rotate from the first position to a second position in response to a plug being inserted into the receptacle, and to snap back to the first position in response to the plug being fully inserted into the receptacle. The component is configured to receive the latch release signal from the processor, and to continually exert a first force on the latch to move the latch to the second position while the latch release signal is received.

An information handling system includes a processor and receptacle module. The processor to receive a request to safely remove a hardware component coupled to the information handling system, to execute a safely remove process for the hardware component, and to send a latch release signal in response to the safely remove hardware process being completed. The receptacle module including a receptacle mounted on a receptacle circuit board, a latch, and a component. The latch is biased in a first position with a hook of the latch being located within in a notch of the receptacle. The latch is configured to rotate from the first position to a second position in response to a plug being inserted into the receptacle, and to snap back to the first position in response to the plug being fully inserted into the receptacle. The component is configured to receive the latch release signal from the processor, and to continually exert a first force on the latch to move the latch to the second position while the latch release signal is received.

A lock structure of a connector includes a lock arm and a lock release arm which are provided in one connector housing of a pair of connector housings which are fitted into each other. The lock arm is engaged with a lock engagement part of the other connector housing to lock a fitting state between the connector housings when fitting between the connector housings is completed. The lock release arm is formed integrally with the lock arm and can deflect the lock arm in a lock release direction. The lock release arm is provided above the lock arm.

A lock structure of a connector includes a lock arm and a lock release arm which are provided in one connector housing of a pair of connector housings which are fitted into each other. The lock arm is engaged with a lock engagement part of the other connector housing to lock a fitting state between the connector housings when fitting between the connector housings is completed. The lock release arm is formed integrally with the lock arm and can deflect the lock arm in a lock release direction. The lock release arm is provided above the lock arm.

An assembly comprises a connector and a sleeve. The connector includes a resilient locking member movable between an outwardly disposed locked position and an inwardly disposed unlocked position. The resilient locking member includes a button portion and a locking projection. A sleeve includes an aperture capable of engaging with the button portion of the resilient locking member. The sleeve is capable of sliding along the body of the connector and pushing down the button portion to unlock the resilient locking member so as to disengage the connector from its receptacle. The assembly further comprises a pair of stoppers provided on the sleeve and a pair of grooves provided on the connector. The pair of stoppers is engagable with the corresponding pair of grooves so that the connector is pulled out from the receptacle when a user continues to pull the sleeve backward after unlocking the resilient locking member.