Abstract:
An exemplary mounting apparatus for an electronic device includes a base, a cover covering the base, and an ejection mechanism. The base includes a first receptacle portion for receiving the electronic device, and a second receptacle portion for receiving the ejection mechanism. The ejection mechanism includes a retaining member having a resilient tab slantingly extending therefrom, a button member, and a push member. The push member is slidably attached in the second receptacle portion and includes a push block movably abutting the electronic device, and a protrusion detachably engaging with the resilient tab. The button is moved to disengage the push member from the retaining member so that the push member pushes the electronic device out of the base.
Abstract:
A golden finger protecting device includes a first, a second, and a third sidewall is connected between corresponding sides of the first and second walls. The first, the second, and third sidewalls are formed by folding a substrate along two parallel fold lines, to wrap the connection terminal of the expansion card. A width of the third sidewall is equal to thickness of the connection terminal. Widths of the first and second sidewalls are respectively greater than or equal to width of the connection terminal. A handle extends from the first sidewall or the second sidewall, away from the third sidewall. A first hole is defined symmetrically extending through the first and second sidewalls and extending through the third sidewall. At least one second hole is defined between a side opposite to the third sidewall of the first or second sidewall and a corresponding end of the first hole.
Abstract:
A locking mechanism is provided for securing a plug with a cable to an electronic device. The locking mechanism includes a base portion configured to abut against a side of the plug, a pressing portion slantingly extending from an end of the base portion, at least one tab protruding from the pressing portion near the base portion, and a clamping portion extending from the other end of the base portion and configured to engage with the cable.
Abstract:
An enclosure includes a back plate and a heat dissipating device. The back plate includes a plurality of locking members extending from the back plate. The heat dissipating device attached to the back plate and includes a plurality of fixing members engaging with the locking members.
Abstract:
A heat dissipating device includes a bracket, a heat dissipater and a circuit board. The bracket includes a bracket and a cover. The bracket includes an inside wall, an outside wall, a pair of sidewalls extending perpendicularly from opposite ends of the outside wall and opposite ends of the inside wall, and a bottom wall perpendicularly positioned between the sidewalls and connected to the inside wall. The cover is attached to the bracket. The heat dissipater is attached to the bottom wall and receiving in the cover. The circuit board is configured to supply power for the heat dissipater and attached to the bracket. The circuit board is capable of connecting with a power interface of the electrical device to power the heat dissipaters.
Abstract:
The invention relates to a heat dissipation device with a bracket for dissipating heat of a heating element of an expansion card. The heat dissipation device also includes an auxiliary card, a heat dissipating element. The bracket includes a securing element configured for securing the heat dissipating element thereto, a locking element, and a connecting element connecting the securing element to the locking element. The securing element clamps the expansion card, and the locking element is slidably mounted to the auxiliary card, to align the heat dissipating element with the heating element of the expansion card.
Abstract:
An exemplary portable electronic device comprises a base unit, a display unit with a display unit, a hinge mechanism for pivotably attaching the display unit to the base unit, and a console assembly including a controller and a speaker. An extension portion extends from a rear end of the base unit. Two support portions extend from a lower portion of the display unit, and the display unit defines a holding space between the two support portions to receive the extension portion of the base unit. The hinge mechanism includes two fixing members attached on the extension portion, and two pivoting members respectively secured to the two support portions and pivotably mounted to the two fixing members. The display unit is pivotable between a first position where the display screen is toward the base unit and a second position where the display screen is away the base unit. The controller is rotatably mounted on the extension portion and is rotatable to cause sound output of the speaker being oriented with the same direction as the display screen at the first and second positions.
Abstract:
In one embodiment, an air guiding plate is attached to an enclosure with a plurality of vents defined therein. The air guiding plate includes a plurality of guiding holes defined therein. Each of the guiding holes is surrounded by a plurality of walls and includes an inlet with a large size, and an outlet with a small size. The outlets are in alignment with the vents of the enclosure. A size in cross section of each of the walls gradually decreases along a direction from the inlet to the outlet.
Abstract:
A computer case includes a blower, a bracket, and an air outlet defined in the computer case. The blower is received in the bracket, which is fixed outside the computer case. The blower includes an intake and an outlet, which are used to take away the heated air in the computer case. The intake of the blower communicates with the air outlet of the computer case. The computer case with an outside set blower for heat dissipating suits a requirement of heat dissipation of high-power computer systems.
Abstract:
A computer mouse includes a main body electrically connected with a computer, and a laser pointer. The main body includes two sidewalls, and a receiving space is defined in the main body bounded by the sidewalls. Each of the sidewalls defines a recess. The laser pointer is detachably mounted in the receiving space of the main body. The laser pointer includes two lateral sides, and each of the lateral sides forms a block to engage in the corresponding recess of the main body for holding the laser pointer in the receiving space of the main body.