A carrying structure including a carrying main body, two engaging components, two driven linkages, and a driving linkage is provided. The carrying main body is adapted to carry an expansion card. The two engaging components are disposed on opposite ends of the carrying main body, each of the engaging components is adapted to be actuated to an engaging state for being engaged to a server main body, and each of the engaging components is adapted to be actuated to a releasing state for being separated from the server main body. The two driven linkages are respectively connected to the two engaging components. The driving linkage is connected between the two driven linkages and adapted to drive the two engaging components to be simultaneously actuated between the engaging state and the releasing state by the two driven linkages. In addition, a server having the carrying structure is also provided.

A mobile terminal is provided, which includes: a housing, having a tray installation hole; a circuit board, disposed inside the housing; a tray retention portion, disposed inside the housing, where the tray retention portion faces toward the circuit board; a card holder, disposed on the circuit board; a tray, movably disposed in the tray installation hole and movably mating with the tray retention portion, at least the tray or the housing is provided with an ejection hole; and a toggle piece, rotatably disposed at the tray retention portion and located between the card holder and the ejection hole, one end of the toggle piece is an ejector pin action receiving end, the other end of the toggle piece is a tray ejection end, and the tray ejection end is used to apply an ejection force to the tray after a force is applied to the ejector pin action receiving end.

An example ejectable cassette, guide column, and ejectable cassette system is provided. The ejectable cassette includes a housing including a proximal end, a distal end, a first side, and a second side. The ejectable cassette includes a first locking mechanism assembly at the first side of the housing. The first locking mechanism assembly includes a first locking tab slidably disposed along the first locking mechanism assembly. The first locking tab is biased towards the proximal end of the housing. The ejectable cassette includes a second locking mechanism assembly at the second side of the housing. The second locking mechanism assembly includes a second locking tab slidably disposed along the second locking mechanism assembly. The second locking tab is biased towards the distal end of the housing.

A carrying structure including a carrying main body, two engaging components, two driven linkages, and a driving linkage is provided. The carrying main body is adapted to carry an expansion card. The two engaging components are disposed on opposite ends of the carrying main body, each of the engaging components is adapted to be actuated to an engaging state for being engaged to a server main body, and each of the engaging components is adapted to be actuated to a releasing state for being separated from the server main body. The two driven linkages are respectively connected to the two engaging components. The driving linkage is connected between the two driven linkages and adapted to drive the two engaging components to be simultaneously actuated between the engaging state and the releasing state by the two driven linkages. In addition, a server having the carrying structure is also provided.

A server includes a casing, a storage device, and a storage device frame assembly. The casing includes a first side plate. The storage device frame assembly includes a support frame and a handle. The support frame accommodates the storage device and is removably mounted on the first side plate. The handle includes a pivotable component and a slidable component. The pivotable component is pivotably disposed on the support frame. The slidable component is slidably disposed on the pivotable component. The slidable component is slidable between a first position and a predetermined position relative to the pivotable component, a longitudinal axis of the slidable component in the first position is non-parallel to the longitudinal axis of the slidable component in the predetermined position.

An apparatus for preventing over-discharging according to various embodiments of the present invention may comprise: a housing including a first opening; a first electronic component disposed inside the housing; a second electronic component electrically connected to the first electronic component; and a switch for electrically connecting or disconnecting the first electronic component and the second electronic component through an external force by a pin inserted through the first opening. In addition, various embodiments may be possible.

A server device includes a chassis, some power cages, a spring leaf structure and a power supplying unit. The power cages are arranged inside the chassis. Two of the power cages define a space therebetween. The power cage includes a first plate having a first and a second holes. The spring leaf structure includes a main body, a blocking plate and an unlocking plate. The main body connects to the first plate. The blocking plate and the unlocking plate protrude to the space respectively through the first and the second holes. The blocking plate includes a straight edge. The unlocking plate includes a curved edge. The power supplying unit includes a main and a subsidiary plates. The subsidiary plate and the main plate form a stair structure. The subsidiary plate is configured to abut against the straight edge or the curved edge.

A socket connector includes a housing having a top, a bottom, a first side wall and a second side wall forming cavities that receive power sockets. The housing includes pin access openings through the bottom that receive power pins mated to the power sockets. Each power socket includes a cable socket receiving a power cable and a pin socket that receives the power pin. The power socket electrically connects the power cable and the power pin. The socket connector includes latches each having a latch release and a latch arm operably coupled to the latch release. The latch arm extends along the corresponding pin access opening and includes a latching surface aligned with the pin access opening configured to engage the power pin to retain the power pin in the housing. The release button is actuated to release the latch arm from the power pin and allow removal of the power pin from the housing.

This application discloses a card tray and card holder apparatus and an electronic device. The card tray and card holder apparatus includes a card pressing cover, a detection and ejection mechanism, a circuit board, a card tray, and a card holder. The card pressing cover is fastened to the circuit board, a first accommodating space is formed by the card pressing cover and the circuit board, and the card tray and the card holder are both disposed in the first accommodating space. The card tray includes a detection matching portion and a lever matching portion. The detection and ejection mechanism is disposed on the card pressing cover and includes a lever and a detection portion, where the lever is rotatably disposed on the card pressing cover, the detection portion is disposed on the card pressing cover.

An ejecting mechanism is provided and includes a main body, a driving component and a driven component. The main body is slidable relative to a casing. The driving component and the driven component are pivotable relative to the main body. When the driving component switches from a first position to a second position, the driving component drives the driven component to switch from a third position to a fourth position. During a process that the driving component and the driven component respectively switch from the first position and the third position to the second position and the fourth position, the driving component and the driven component respectively push two opposite lateral walls of the casing to drive the main body to slide from an installation position to a detachment position relative to the casing. Furthermore, an electronic device with the aforementioned ejecting mechanism is provided.