Patent application number | Description | Published |
20130154291 | EXTRACTION DEVICE - An exemplary extraction device includes a telescoping mechanism, a clamping mechanism and a shell receiving the telescoping mechanism and the clamping mechanism. The shell defines an accommodating space and a first receiving space. The first receiving space is shaped to receive a sidewall of a device. The telescoping mechanism moves back and forth in the accommodating space and the clamping mechanism closes and opens as the telescoping mechanism moves back and forth. The extraction device can grip a distal end of an element showing outside the sidewall of the device, the sidewall is inserted into the first receiving space of the extraction device and the telescoping mechanism closes on and grips the available small portion of the element, thereby allowing the element to be withdrawn. | 06-20-2013 |
20130154856 | RECEIVING APPARATUS AND ELECTRONIC DEVICE EMPLOYING THE RECEIVING APPARATUS - A receiving apparatus includes a casing; a lid is rotatably engaged in one side of the casing to open and close the casing. The receiving apparatus further comprises a supporting portion and a transmission mechanism. The supporting portion is engaged in the bottom of the casing for receiving an input and output interface. The transmission mechanism rotates the supporting portion to be in between vertical and horizontal relative to the casing by cooperation with the lid; wherein when the receiving apparatus is in a closed state, the supporting portion is inclined to the bottom of the casing; and when the casing is in an open state, the supporting portion is perpendicular to the bottom of the casing. An electronic device employing the receiving apparatus is provided. | 06-20-2013 |
20130157483 | POWER PLUG, ELECTRICAL PLUG ASSEMBLY AND ELECTRICAL CHARGER ASSEMBLY - An exemplary plug assembly includes an accepting assembly and a power plug which is detachably inserted into the accepting assembly. The power plug includes a base body and an inserting assembly. The base body includes at least two blades with a specification adapted to a socket providing external AC power. The base body includes two conductive pads electrically connected to the blades. The inserting assembly includes a plug cover and two conductive connecting blades fixed to an inserting portion of the plug cover, the plug cover being detachably mounted to the base body. The accepting assembly includes a charger cover and two conductive pins fixed to an accepting portion of the charger cover. Each conductive connecting blade comprises a first conductive contact portion electrically connected to the conductive pad and a second conductive contact portion electrically connected to the conductive pin. | 06-20-2013 |
20130157488 | POP-UP MECHANISM AND ELECTRICAL CHARGER USING SAME - An electrical charger for charging an electronic device includes a base, a connector, and a pop-up mechanism. The connector is exposed out of the base for connecting the electronic device. The pop-up mechanism is received in the base and includes a number of pushing pillars and a button set on the base. The pushing pillars are slidably set beside the connector. A top end of each pushing pillar extends out of the base. The button drives the pushing pillars to slide upwards, pushing the electronic device away from the connector when the charging operation is completed. | 06-20-2013 |
20130220023 | TESTING DEVICE AND TESTING SYSTEM FOR TESTING RELIABILITY OF INTERFACE EMPLOYED BY ELECTRONIC DEVICE - An exemplary testing device includes a shell, a motor, a wheel rotating eccentrically, a testing plug, and a sliding assembly. The sliding assembly is configured to move back and forth along a first direction in a first accommodating space of the shell. A periphery of the wheel abuts against two opposite sides of the sliding assembly. An eccentricity e defined between a eccentric hole of the wheel and the center of the wheel causes the sliding assembly to move back and forth along the first direction when the wheel rotates eccentrically. The testing plug connects to the sliding assembly and moves back and forth in unison with the sliding assembly, such that the testing plug can be inserted into the interface of the electronic device more than once. | 08-29-2013 |
20130220865 | PROTECTION CASE FOR ELECTRONIC DEVICE - A protection case for receiving an electronic device. The protection case includes a receiving body for receiving the electronic device, a pair of winding mechanisms correspondingly set at two opposite sides of the receiving body, and a pair of belts correspondingly being wound on the winding mechanisms. The belts extend retractably out from the winding mechanisms to fasten the receiving body to a user. | 08-29-2013 |
20130244462 | POWER SOCKET AND ELECTRICAL CONNECTOR ASSEMBLY - An exemplary electrical connector assembly includes a power plug and a power socket. The power plug includes a magnet. The power socket includes a pop-up mechanism. The pop-up mechanism includes a sliding assembly which can be switched from a first position to a second position. When the sliding assembly is switched from the first position to the second position, the pop-up mechanism generates a magnetic field which repels the magnet of the power plug, and the power plug moves away from the power socket. | 09-19-2013 |
20130260584 | POP-UP MECHANISM AND ELECTRICAL CHARGER USING SAME - A charger for charging an electronic device includes a base, a connector for connecting to the electronic device, and a pop-up mechanism. The pop-up mechanism includes a restricting unit, a pushing pillar and a return structure. The restricting unit includes a restricting sidewall and a bottom sidewall. The pushing pillar is connected to the bottom sidewall via a spring. The pushing pillar includes a resilient engaging arm. The pushing pillar is urged by the spring to an uppermost position where a top of the resilient engaging arm is located above the return structure. When the pushing pillar is pressed downwards, the resilient engaging arm slides in a positioning cutout of the return structure to hold the pushing pillar in a lower position. When the pushing pillar is further pressed downwards, the resilient engaging arm escapes from the positioning cutout to drives the pushing pillar returns to the uppermost position. | 10-03-2013 |
20130288493 | PLUG ASSEMBLY AND ELECTRICAL CHARGER ASSEMBLY - A plug assembly includes an accepting assembly and a power plug which is detachably inserted into the accepting assembly. The power plug includes a first housing, a rotating plug assembly, two conductive connecting blades, a transmission mechanism, and a locking mechanism. The accepting assembly includes a charger cover, two conductive poles, and a buckling mechanism received in the charger cover. The rotating plug assembly drives the transmission mechanism to move down to insert into the charger cover, drives the buckling block to move up to insert into the first housing, and drives locking blocks to move closer and lock with the buckling block; and in the retracted state, the rotating plug assembly drives the transmission mechanism to move up, drives the locking blocks to move further away from each other, such that the locking blocks release the buckling block. | 10-31-2013 |
20140073200 | POWER PLUG - A power plug for connecting with a power outlet includes at least two metal connecting poles, two outputting cavities, and two conductive resilient sheets. The two outputting cavities are defined in a lower case of the power plug to connect an external device. The two conductive resilient sheets are received within an inner space of the power plug. The at least two metal connecting poles pass through an exterior surface of the power plug into the internal space to form two connecting terminals. Each of the conductive resilient sheets is connected between one of the two connecting terminals and a corresponding outputting cavity to transport electrical power from the power jack to the external device. | 03-13-2014 |
20140092535 | SLIDING MECHANISM AND ELECTRONIC APPARATUS HAVING SAME - An electronic apparatus includes a base, a sliding member and a sliding mechanism. The sliding mechanism includes a first magnet disposed in the sliding member, and a first electromagnet disposed in the base opposite to the first magnet. The first magnet and the first electromagnet are capable of producing a first repulsive force and a first attracting force, the sliding member alternately slides back and forth between the different locations of the base driven by the first repulsive force and the first attracting force. | 04-03-2014 |