Abstract:
A cover latch mechanism, used for fixing a first cover to a second cover, includes a latching groove defined in the second cover; a latching hook extending from a surface of the first cover corresponding to the latching groove, the latching hook engaged with the latching groove; and a connecting member fixed to the second cover. The connecting member includes a latching portion according to the latching hook. The latching portion defines a receiving depression to receive the latching hook, and an elastic resisting protrusion extending from the latching portion adjacent to the receiving depression to resist the latching hook in the latching groove.
Abstract:
A battery holder in an electronic device includes a battery receptacle, a locking member, and at least one resilient member. The battery is received in the battery receptacle. The locking member partially protrudes into the battery receptacle and locks the battery. The at least one resilient member and the electronic device are integrally formed. The battery includes a base wall, beyond which the at least one resilient member elastically extends into the battery receptacle.
Abstract:
An accessory securing mechanism includes a housing member, a securing member, and elastic members. The housing defines an assembly recess, the assembly recess forms a protrusion to engage a string, the securing member and the elastic member are received in the assembly recess, the elastic member resists the securing member, and the securing member resists the protrusion to secure the string.
Abstract:
A battery holding structure includes a battery receptacle, a receiving chamber, and a locking member. The battery is received in the battery receptacle, and the receiving chamber communicates with the battery receptacle. The locking member is received in the receiving chamber for locking the battery. The battery receptacle includes a base wall, and the battery holding structure also includes a push member. The push member is connected to the base wall elastically, and the push member can create a force to resisting the battery away from the battery receptacle.
Abstract:
An engaging structure for an electronic device includes a first substrate, an engaging member, and a fixed reinforcing member. The first substrate defines at least one guiding slot. The engaging member includes at least one first latching protrusion extending therefrom. The at least one first protrusion engages in the at least one guiding slot. The fixed reinforcing member includes at least one abutting block extending therefrom. The at least one abutting block is configured for abutting against the at least one first latching protrusion.
Abstract:
A hinge assembly (20) including a first magnetic member (21) and a second magnetic member (22) is described. The polarities of opposing end surfaces of the first magnetic member and the second member are different. The second magnetic member is configured for rotating relative to the first magnetic member to generate a magnetic moment. In addition, an exemplary portable electronic device (100) equipped with the hinge assembly is also described.
Abstract:
A key mechanism is used in an electronic device. The electronic device includes a housing defining an opening. The key mechanism includes: a plate, at least one latching portion positioned on a first side of the plate; at least one post positioned on a first side of the plate; and a protrusion extending from a second side opposite to the first side. The protrusion extends from the opening, the latching portion and the plate resist the housing. The present disclosure further discloses an electronic device using the key mechanism.
Abstract:
A battery holder in an electronic device includes a battery receptacle, a locking member, and at least one resilient member. The battery is received in the battery receptacle. The locking member partially protrudes into the battery receptacle and locks the battery. The at least one resilient member and the electronic device are integrally formed. The battery includes a base wall, beyond which the at least one resilient member elastically extends into the battery receptacle.
Abstract:
An electronic device includes a main body, a keyboard, a first magnet, and a second magnet. The first magnet is positioned on the main body. The second magnet is positioned on the keyboard. The main body defines a receiving cavity configured for receiving the keyboard. A sidewall of the receiving cavity defines a cut-out adjacent to the board. The keyboard is capable of being taken out of the receiving cavity by an external force exerting on a portion of the keyboard adjacent to the cut-out.
Abstract:
A stylus includes a shaft and a ring connected to the shaft. The shaft is at a periphery of the ring. The ring is configured to sleeve on a finger of a user. The stylus can be steadily sleeved on the finger and convenient for using. Further provide is an electronic device using the stylus.