Patent application number | Description | Published |
20100107368 | HINGE ASSEMBLY - A hinge assembly includes a base, a joint member, a pintle, and a coiling spring. The joint member is rotatably connected to the base. The pintle runs through the base and the joint member. The coiling spring has a first end and a second end. The first end is fixed relative to the base, and the second end is fixed relative to the joint member. | 05-06-2010 |
20100108833 | ADJUSTABLE MECHANISM - An adjustable mechanism includes a first bottom plate, a second bottom plate, a receiving block positioned, a receiving block, and an elastic member. The receiving block is positioned between the first bottom plate and the second bottom plate. The receiving block defines a receiving cavity. The connecting member includes an inserted portion. The inserted portion defines a latching groove therein. The elastic member includes an elastic protrusion. The inserted portion and the elastic member are received in the receiving cavity in such manner that the elastic protrusion is received in the latching groove. | 05-06-2010 |
20100157564 | ADJUSTMENT MODULE - An adjustment module includes a frame, a sliding member, at least one coiled spring, a pair of guide rails, and a supporting member. The frame includes a main plate. The at least one coiled spring includes an extending portion and a sleeved coiled portion. The guide rails are positioned on opposite sides of the frame. The supporting member is fixed on the frame and has at least one supporting surface. The sliding member is slidably positioned between the guide rails. The coiled portion of the at least one coiled spring is positioned on the at least one supporting surface. An end of the extending portion of the at least one coiled spring is fixed on the sliding member, and an axis of the coiled portion of the at least one coiled spring is substantially perpendicular to the main plate. | 06-24-2010 |
20100236023 | HINGE ASSEMBLY AND SUPPORT MECHANISM USING THE SAME - A hinge assembly includes a pivot shaft, a rotary member and a steady member sleeved on the pivot shaft. The rotary member and the steady member faces each other and are rotatable relative to each other. The rotary member forms a first peak, and the steady member forms a second peak. A friction portion is formed between the rotary member and the steady member. A thickness of the friction portion exceeds or equals to a thickness of either of the first peak or the second peak, and is less than the combined thickness of the first peak and the second peak. A support mechanism using the hinge assembly is also provided. | 09-23-2010 |
20100252708 | SUPPORT MECHANISM - A support mechanism includes a bracket and a rotary unit including a base and at least one adjustment subassembly. The adjustment subassembly includes an elastic member and a ball. The elastic member resists the ball to contact the bracket. The bracket is rotatable relative to the base. | 10-07-2010 |
Patent application number | Description | Published |
20090303717 | LED LAMP ASSEMBLY - An LED lamp assembly includes a first heat sink, a plurality of second heat sinks secured to a periphery of the first heat sink, a plurality of LED modules respectively attached to the second heat sinks and a plurality of heat pipes interconnecting the first heat sink and the second heat sinks. The first heat sink comprises a heat conducting body defining a through hole therein and a plurality of first fins around the heat conducting body. The second heat sinks each comprise a plurality of second fins facing the first fins of the first heat sink. The heat pipes each comprise an evaporating section attached to a corresponding second heat sink and a condensing section extending into the through hole of the heat conducting body of the first heat sink and attached to the heat conducting body. | 12-10-2009 |
20090323325 | LED LAMP - An LED lamp includes a lamp seat, a prism-shaped first heat sink disposed on a top of the lamp seat, a second heat sink covering a top of the first heat sink, a plurality of heat pipes thermally connecting the first heat sink with the second heat sink, a plurality of LED modules mounted on the first heat sink and an envelope located between the lamp seat and the second heat sink and surrounding the first heat sink. The first heat sink includes an annular base and a plurality of first fins and second fins extending therefrom. The LED modules are mounted on the first fins, respectively. Each heat pipe has two parallel sections respectively attached to a corresponding first fin and an inner circumferential periphery of the annular base. | 12-31-2009 |
20100246179 | LED LAMP - An LED lamp includes a lamp body having a heat sink forming an insert and a lamp holder which is connected to the heat sink of the lamp body. The lamp holder includes a mounting portion extending outwards from an external surface thereof. The mounting portion defines a socket. The insert is inserted into the socket to thereby connect the lamp body with the heat sink of the lamp holder. An light source module consisting of a plurality of LEDs is mounted on a bottom surface of the heat sink. | 09-30-2010 |
Patent application number | Description | Published |
20130039002 | SERVER RACK ASSEMBLY - A server rack assembly includes a server rack, a power supply device, and a bus-bar electronically connected to the power supply device. The server rack includes a bottom plate and a post substantially perpendicular to the bottom plate. The power supply device is attached to the post in a first direction that is substantially parallel to the bottom plate. The bus-bar includes a plurality of connectors adapted to electronically connect a plurality of servers. The bus-bar is attached to the post in a second direction that is substantially perpendicular to the bottom plate, and the plurality of connectors are arranged on the bus-bar in the second direction. | 02-14-2013 |
20130039004 | SERVER RACK ASSEMBLY - A server rack assembly receives a number of servers. The server rack assembly includes a server rack, a bus-bar, and a power supply. The server rack includes a stand column. The server rack defines a plurality of server spaces for receiving the plurality of servers. A bus-bar is mounted to the server rack and includes a plurality of connectors aligned in a first direction substantially parallel to the stand column. The bus-bar is adapted to electronically plug to the plurality of servers. The power supply device is pluggable to one of the plurality of connectors of the bus-bar along a second direction substantially perpendicular to the stand column The power supply device is adapted to output direct current to the bus-bar. | 02-14-2013 |
20130039005 | SERVER RACK ASSEMBLY - A server rack assembly receives a plurality of servers. The server rack assembly includes a server rack, a bus-bar, and a power supply. The server rack includes a stand column. The server rack defines a plurality of server spaces for receiving the plurality of servers. A bus-bar is mounted to the server rack and includes a plurality of connectors aligned in a first direction substantially parallel to the stand column. The bus-bar is adapted to electronically plug to the plurality of servers. The power supply device is electronically connected to one of the plurality of connectors of the bus-bar. The power supply device is adapted to output direct current to the bus-bar. The power supply is approximately twice the height of each of the plurality of server spaces. | 02-14-2013 |
20130039006 | SERVER RACK ASSEMBLY - A server rack assembly receives a plurality of servers. The server rack assembly includes a server rack, a bus-bar, and a power supply. The server rack includes a stand column. The server rack defines a plurality of server spaces for receiving the plurality of servers. A bus-bar is mounted to the server rack and includes a plurality of connectors aligned in a first direction substantially parallel to the stand column. The bus-bar is adapted to electronically plug to the plurality of servers. The power supply device is electronically connected to a middle portion of the bus-bar. The power supply device is adapted to output direct current to the bus-bar. | 02-14-2013 |
Patent application number | Description | Published |
20090262511 | SHIELDING DEVICE - A shielding device ( | 10-22-2009 |
20090268420 | SHIELDING ASSEMBLY - A shielding assembly ( | 10-29-2009 |
20100127897 | MULTI-STATUS KEY ASSEMBLY - A multi-status key assembly is described. The multi-status key assembly includes a pressing body, a support member and a pressing cover. The support member is disposed between the pressing cover and the pressing body. A pressing pole and direction pressing poles protrude from the pressing body. | 05-27-2010 |
20100328907 | POSITIONING STRUCTURE FOR PORTABLE ELECTRONIC DEVICE - A positioning structure for portable electronic device includes two latching elements and a positioning element. Each latching element includes a blocking portion. The positioning element includes a cover portion and two fixing portions formed at two ends thereof. The cover portion defines a plurality of cavities for receiving electronic components. Each fixing portion defines a hole, and the blocking portion is received in the hole. | 12-30-2010 |
20110032664 | COVER MECHANISM AND ELECTRONIC DEVICE USING SAME - A cover mechanism for an electronic device includes a protective cover and a resisting member. The protective cover includes a cover portion, and an arm portion. The arm portion allows the protective cover to rotate relative to the electronic device. The resisting member is attached to the electronic device, and prevents the arm portion from separating from the electronic device. | 02-10-2011 |
Patent application number | Description | Published |
20130003279 | NOTEBOOK COMPUTER - A notebook computer includes a base, a cover rotatably connected to a rear side of the base, and a keyboard slidably mounted to the base. The keyboard includes a mounting portion disposed on a top of the base, and a supporting portion extending downwards from a front side of the mounting portion. | 01-03-2013 |
20130102194 | ROTATABLE POWER STRIP - A rotatable power strip includes a base, a cover, a fixing member fixed to the base, and a socket. Two opposite first conductive pieces and a second conductive piece between the first conductive pieces are mounted to the base. The socket is rotatably mounted to the base. A top of the socket is exposed out of the cover. Two first conductive pins and a second conductive pin are mounted to a bottom of the socket. The second conductive pin is arranged between the first conductive pins and engages with the second conductive piece. The socket is rotated around the second conductive pin. The fixing member is capable of locking the socket to a conductive position where the first conductive pins respectively engage with the first conductive pieces, and a non-conductive position where the first conductive pins respectively disengage from the first conductive pieces. | 04-25-2013 |
20130112632 | FASTENING DEVICE FOR DATA STORAGE DEVICE - A fastening device for fastening a data storage device includes a rack and a fastening member. The rack includes a bottom plate to support the data storage device, and two stop tabs protruding up from the bottom plate to abut against a first sidewall of the data storage device. Two first pins respectively extend from the stop tabs to engage in two corresponding holes defined in the first sidewall of the data storage device. The fastening member includes a main body attached to the bottom plate to abut against a second sidewall of the data storage device, and a resilient portion extending from the main body. A second pin protrudes from the resilient portion to engage in a locking hole defined in the second sidewall of the data storage device. | 05-09-2013 |
Patent application number | Description | Published |
20110270565 | TEST FIXTURE AND METHOD FOR AUTOMATICALLY TURNING ON COMPUTERS - A test fixture includes a first RS-232 connector and a second RS-232 connector. The data terminal ready (DTR) pin of the first RS-232 connector is connected to the DTR pin of the second RS-232 connector, and the clear to send (CTS) pin of the first RS-232 connector is connected to the CTS pin of the second RS-232 connector. The DTR pins are further connected to a power pin of each of the test computers. The test fixture sets a high level voltage for the connected DTR pins, and sets a low level voltage for the connected CTS pins according to the commands of turning on the test computers sent by the control computer, to turn on the test computers. An auto shutdown software included in each of the test computers is executed to shut down the test computers. | 11-03-2011 |
20110271123 | POWER CONTROL SYSTEM OF A BASEBOARD MANAGEMENT CONTROLLER AND METHOD THEREOF - A method controls power of a baseboard management controller (BMC). A power control signal of the BMC is generated for powering up or powering down the BMC. An enabling signal is generated according to the power control signal. A power supply device is directed to output one or more voltages to the BMC. | 11-03-2011 |
20120095717 | SYSTEM AND METHOD FOR TESTING SERIAL PORTS - In a system and method for testing a serial port of a computing device, the serial port electronically connects to a test fixture. Test data is sent to a receive data (RXD) pin by a transmit data (TXD) pin. A test result is received from the serial port by the RXD pin. The TXD pin and the RXD pin work normally if the test data is identical to the test result. When voltages of a request to send (RTS) pin and a data terminal ready (DTR) pin are set at high level, the RTS pin, a data carrier detect (DCD) pin, the DTR pin, a ring indicator (RI) pin, a data send ready (DSR) pin and a clear to send (CTS) pin work normally, upon the condition that status values of the serial port indicate the voltages of the above six pins are at high level. | 04-19-2012 |
20120102309 | PREBOOT EXECUTION ENVIRONMENT TEST DEVICE AND METHOD - A preboot execution environment (PXE) test device includes a microprocessor, one or more indicators, a network interface, a power connector, and a storage device. The network interface connects the PXE test device with a computer. The power connector connects an external power source to supply a voltage to the PXE test device. The storage device stores a boot loader, an embedded operating system, and one or more programs. The microprocessor executes the boot loader and the embedded operating system to start the PXE test device. The one or more indicators indicate a power supply status and a starting status of the PXE test device. The microprocessor further executes the one or more programs to remotely boot the computer for test PXE of a network card in the computer. | 04-26-2012 |
20120124242 | SERVER AND METHOD FOR TESTING PXE FUNCTION OF NETWORK INTERFACE CARD - In a method for testing a preboot execution environment (PXE) function of a NIC of a server, an IP address is allocated for the NIC by sending a DHCP offer message to the NIC in response to receiving a DHCP discover message from the NIC. TFTP parameters are provided to the NIC by sending a DHCP ACK message to the NIC in response to receiving a DHCP request message from the NIC. A connection based on a MTFTP or a TFTP between the BMC and the NIC is established according to the TFTP parameters. A PXE image file is provided to the NIC for downloading through the connection in response to receiving a request for downloading the PXE image file from the NIC, and the downloaded PXE image file is executed to test whether the PXE function of the NIC is normal. | 05-17-2012 |
20120271983 | COMPUTING DEVICE AND DATA SYNCHRONIZATION METHOD - A server includes a Southbridge chip, a first storage device, and a baseboard management controller (BMC) electrically connected to the Southbridge chip. A field replacement unit (FRU) is electrically connected to the BMC and the first storage device. The BMC reads data from a second storage device electrically connected to the BMC, writes the data into the FRU, sends a first control signal to a switch positioned between the BMC, the first storage device and the FRU, to switch on an electrical connection between the BMC and the first storage device for reading data stored within the first storage device. If the data stored within the first storage is different from the data stored within the FRU, the BMC reads the data from the FRU, and writes the data into the first storage device, to synchronize the data within the first storage device and the FRU. | 10-25-2012 |