The disclosed technology relates to a mobile terminal adapted to receive a memory card comprising a processing unit, an input interface and a card locking actuator configured to lock the memory card into the mobile terminal. The card locking actuator is controlled by the processing unit. In one aspect, the card locking actuator is configured to be locked when the mobile terminal is switched on. In another aspect, the processing unit is configured to lock the screen until a screen unlocking authentication procedure is performed by a user at the input interface and is configured to command unlocking of the card locking actuator after detecting that a predetermined authentication procedure is performed by a user at the input interface.

An electronic card receiving device, including a housing, a card stand, a rotating shaft, and a contact element, is provided. The housing includes a front plate having an opening. The card stand is disposed in an inner space of the housing and includes a plate section, a connecting section, and a hook section. The connecting section is connected between the plate section and the hook section. A terminal of the hook section protrudes toward the opening. The rotating shaft is attached to the plate section and is lower than the opening. An axis of the rotating shaft is substantially parallel to the front plate. The rotating shaft rotates to drive the card stand to oscillate between an initial configuration and a card-reading configuration. The contact element is disposed on the plate section of the card stand. A method of using an electronic card receiving device is also provided.

A card reader includes a card lock mechanism for preventing pulling-out of a card from an insertion port when the card is jammed in a conveyance passage. The card lock mechanism includes a motor, a lock member driven by the motor to be moved between a contact position and a retreated position, a knob mechanically connected with the motor, and a detection mechanism for detecting the lock member located at the retreated position. The card reader includes a control part which is configured so that, after the motor is driven to move the lock member to the contact position, when the detection mechanism detects that the lock member has moved to the retreated position, the control part executes a tactile stimulation sequence in which the motor is driven to apply movement to the knob so that attention of an operator operating the knob is called in a tactile manner.

A card reader includes a card lock mechanism preventing pulling-out of a card jammed in a card conveyance passage, and an operation part for manually releasing lock of the card caused by the card lock mechanism. The card lock mechanism includes a motor, and a lock member which is provided with a blocking pawl for preventing pulling-out of the card and is moved between a contact position where the blocking pawl contacts the card and a retreated position where the blocking pawl is retreated from the card conveyance passage. The operation part includes a rotation member in a tube shape having an inner circumference wall surrounding an output shaft of the motor, and an engaging member provided on the inner circumference wall and extended along a circumferential direction of the output shaft and engageable with an outer peripheral face of the output shaft. The engaging member is elastically deformable.

A protective cover includes a peripheral wall part and a bottom part to define a receiving space to receive a protrusion part of a storage medium protruding from an external surface of a case having an insertion hole in which the storage medium is put. The peripheral wall part has an opening at an end opposite from the bottom part. The peripheral wall part has an attachment part that is put in the insertion hole. The attachment part is a portion of the peripheral wall part, and has a predetermined length from the opening toward the bottom part. An outer surface of the attachment part is in contact with an inner surface of the insertion hole such that the peripheral wall part is attached to the case. The peripheral wall part has a cutout extending from the opening toward the bottom part.

A card reader may include a main body frame having a card passage, and a bezel which having a card insertion port and attached to a front end side portion of the main body frame. In a case that a width direction of the card is referred to as a first direction and a portion of the main body frame which is covered by the bezel is referred to as a frame front end part, the bezel includes width direction cover parts respectively covering both sides in the first direction of the frame front end part, both ends in the first direction of the frame front end part are opened, and the frame front end part is structured so that side faces in the first direction of the card passage are structured by the width direction cover parts of the bezel which serve as guide faces for a card.

A connector is provided that includes a housing, a contact, and a slider. The housing includes a mating connector receiving section, while the contact extends into the mating connector receiving section. The slider is positioned on the housing and includes a cam plate and a protruding wall positioned along a rear end of the cam plate.

The card connector includes a card connector base and a limiting structure. The card connector base includes a first area and a second area, the limiting structure includes a first limiting part and a second limiting part; the first limiting part is used to limit a first data card in the first area, and the second limiting part is used to limit a second data card or a third data card in the second area; a first spring plate group is disposed in the first area and is configured to electrically connect to edge connectors of the first data card; a second spring plate group and a third spring plate group are disposed in different positions of the second area; the second spring plate group is configured to electrically connect to edge connectors of the second data card; the third spring plate group is configured to electrically connect to edge connectors of the third data card.

A card reader may include a fixed body having a card moving passage, a pulling-out prevention member supported by the fixed body and structured to turn between a closing position and an open position, and structured to prevent pulling-out of the card at the closing position, a first urging member which urges the pulling-out prevention member toward the closing position, a lock member to prevent turning of the pulling-out prevention member toward the open position, and a lock member drive mechanism. The lock member may be driven by the lock member drive mechanism and swung so as to be switched from one of an unlocking attitude permitting turning of the pulling-out prevention member toward the open position and a locking attitude interfering with the pulling-out prevention member and preventing turning of the pulling-out prevention member toward the open position to the other of the unlocking attitude and the locking attitude.

A chip card securing assembly detachably received in a body of an electronic device, the chip card securing assembly includes a tray and a connector. The tray includes a receiving portion and a holding portion. The receiving portion includes a first end and a second end, the second end defines a receive slot. The holding portion extends from the first end and configured to hold a chip card. The connector is received in the receiving portion and exposed from the receive slot. An electronic device applying the chip card securing assembly is also provided.