Patent application number | Description | Published |
20090147458 | DOUBLE HINGE ASSEMBLY AND ELECTRONIC DEVICE USING THE SAME - An exemplary double hinge assembly ( | 06-11-2009 |
20090320240 | HINGE ASSEMBLY - A hinge assembly includes a pivot shaft, a first leaf, a fixing leaf, a restricting member, a deformable member, two limiting blocks, and a fastening member. The rotatable leaf is non-rotatably connected to the pivot shaft and the fixing leaf is rotatably connected to the pivot shaft. The restricting member and the deformable member are rotatably sleeved on the pivot shaft. The restricting member defines two positioning grooves. The deformable member includes a base plate and two protrusions extending substantially perpendicularly from the base plate. The limiting blocks are partially received in the positioning grooves and connected to the deformable member. When the rotatable leaf is rotated, the limiting blocks slide out of the positioning grooves to press the base plate of the deformable member such that the deformable member becomes elastically deformed. The fastening member is fixed on an end of the pivot shaft. | 12-31-2009 |
20090320243 | HINGE ASSEMBLY - An exemplary hinge assembly includes a rotatable shaft, a rotatable stand, a fixed stand, a restricting member, a cam, and a fastening member. The rotatable stand and the restricting member are non-rotatably connected to the rotatable shaft. The fixed stand and the cam are rotatably connected to the rotatable shaft. The cam is fixed to the fixed stand. The restricting member has a first restricting portion, the cam having a second restricting portion, the first restricting portion and the second restricting portion cooperatively define a rotating angle range between the rotatable stand and the fixed stand. | 12-31-2009 |
20090320245 | HINGE ASSEMBLY - An exemplary hinge assembly includes a rotatable shaft, a rotatable stand, a fixed stand, a restricting member, a cam, and a fastening member. The rotatable stand and the restricting member are non-rotatably connected to the rotatable shaft. The fixed stand and the cam are rotatably connected to the rotatable shaft. The cam is fixed to the fixed stand. The cam defines a restricting groove. A restricting piece is formed on the edge of the restricting member. The restricting piece engages in the restricting groove of the cam, thereby defining a rotatable angle range between the rotatable stand and the fixed stand. | 12-31-2009 |
20100011539 | DUAL-AXIS HINGE MECHANISM - An exemplary dual-axis hinge mechanism includes a base seat, a first rotatable assembly and a second rotatable assembly. The first rotatable assembly includes a rotary member rotatably assembled in the base seat, a steady member and an elastic member non-rotatably received in the base seat, and a fastening member. The rotary member includes a rotational shaft configured for extending through the steady member, the elastic member, the base seat, and then engages with the fastening member. Each of the rotary member and the steady member defines an engaging surface. The engaging surfaces movably engage with each other. The fastening member is rotatable along the rotational shaft for adjusting an external force for rotating the rotary member. The second rotatable assembly includes a pivotal shaft fixed to the rotary member, and a bracket pivotally assembled on the pivotal shaft. | 01-21-2010 |
20100090070 | SUPPORT STAND - A support stand includes a support body, a connecting member, a fastening assembly. The support body defines an assembling hole. The connecting member is received in the assembling hole of the support body, and defines an engaging hole. The fastening assembly is positioned on the support body. The fastening assembly includes a follower. The follower has a positioning pole. The follower is movably connected to the support body, so that the positioning pole is capable of engaging/disengaging in the engaging hole of the connecting member. | 04-15-2010 |
20100108830 | LOCKING MODULE AND SUPPORT STAND FOR DISPLAY DEVICE USING THE SAME - A support stand for display device includes a base seat, an elevating support, and a locking module detachably connected the elevating support to the base seat. The locking module includes a fixing member, a rotating member, an elastic member, and a latching member. The fixing member is fixed on one of the base seat and the elevating support, and the fixing member defines a gap and a latching groove. The rotating member is rotatably extended through the other one of the base seat and the elevating support, and the fixing member. The elastic member is sleeved on the rotating member, and abuts on the fixing member. The latching member is fixed on an end of the rotating member. The latching member is extended through the gap of the fixing member, and is engaged in the latching groove of the fixing member. | 05-06-2010 |
20100170064 | HINGE ASSEMBLY - A hinge assembly includes a first rotation member and a second rotation member. The first rotation member includes an elastic coiled support portion. The second rotation member includes an elastic rotation portion. The rotation portion defines a cavity. The support portion is rotatably received in the cavity of the rotation portion. | 07-08-2010 |
20100259878 | COMPUTER MOUSE - A collapsible computer mouse includes a main cover, a collapsible portion, and a hinge assembly hinging the main cover and the collapsible portion. The hinge assembly includes a first bracket, a second bracket, a restricting member, at least one resilient member, a fastener, a third bracket, and a connecting member. The first bracket, the second bracket, the restricting member, the resilient member, and the fastener are sleeved on the shaft. A protrusion is formed on of the first bracket or the restricting member, and a sliding slot is defined in the other. Elastic force created by the resilient member engages the protrusion in the sliding slot, such that the hinge assembly is self-locking. | 10-14-2010 |
20100263166 | HINGE ASSEMBLY - A hinge assembly includes a first connecting member, a second connecting member, a rotary member, an elastic member, and a limiting member. The rotary member includes a first pivot portion to engage with the first connecting member and a second pivot portion to engage with the second connecting member. The elastic member is disposed between the second connecting member and the rotary member. The limiting member is positioned on the second connecting member. A sidewall of one of the second pivot portion of the rotary member and the second connecting member defines a limiting structure. The limiting member is disposed on a sidewall of the other one of the second pivot portion of the rotary member and the second connecting member. The limiting member slidably engages with the limiting structure. | 10-21-2010 |
20100275412 | HINGE ASSEMBLY AND ELETRONIC DEVICE USING THE SAME - A hinge assembly includes a first bracket, a second bracket, a damping member, and a torsion resilient member. The first bracket defines a damping protrusion. The second bracket is rotatable relative to the first bracket. The damping member defines a depression. The damping protrusion is configured to engage with the depression. The torsion resilient member urges the first bracket to rotate relative to the second bracket and the damping member. The engagement of damping protrusion and the depression prevents the first bracket from rotating when the first bracket rotates through a predetermined angle. When the first bracket rotates through the predetermined angle relative to the second bracket and the damping member, the first bracket together with the damping member are rotatable relative to the second bracket to any desired angle. | 11-04-2010 |
20110061201 | HINGE ASSEMBLY - A hinge assembly includes a shaft, a rotary member, and a tube. The rotary member includes a friction body and is fixed to the shaft. The tube rotatably engages with the friction body of the rotary member. When the tube rotates to a predetermined position relative to the rotary member, the friction body deforms, thereby generating friction between the friction body and the tube. | 03-17-2011 |
20110232035 | HINGE MECHANISM - The embodiment includes a hinge, a pivot shaft, a cam, and a cam follower. The pivot shaft includes an engaging portion bound by two curved surfaces and two non-rotatable surfaces. The cam is non-rotatably sleeved on the engaging portion of the pivot shaft and defines a noncircular hole and two cutouts. The noncircular hole is bound by two first contact surfaces and two second contact surfaces. The second contact surfaces are tangent to the curved surfaces of the engaging portion of the pivot shaft. The cam follower is rotatably sleeved on the engaging portion of the pivot shaft and resists the cam. The cam follower forms two peaks engaging with the cutouts in the cam. | 09-29-2011 |
20110235248 | COUPLING MECHANISM AND ELECTRONIC DEVICE USING SAME - A coupling mechanism includes a pivot assembly and a lifting assembly. The pivot assembly includes a first bracket, a pivot pin, a second bracket, and a cam piece. The second bracket is rotatably mounted to the first bracket via the pivot pin and has a valley portion recessed from one surface thereof. The cam piece is mounted to the pivot pin for holding the second bracket at any angle. The cam piece has a peak portion formed on one surface thereof and received in the valley portion of the second bracket at a closed position. The lifting assembly is adjustably assembled to the second bracket such that the lifting assembly is pivotally assembled with the first bracket. | 09-29-2011 |
20110252602 | HINGE MECHANISM - A hinge mechanism includes a pivot shaft, a resilient member coiling around the pivot shaft, a first cam, a second cam, and a rolling assembly. The pivot shaft defines a through hole in a radial direction thereof. The first cam and the second cam are sleeved on the pivot shaft, the first cam defines two pairs of recesses at one end surface thereof, and the second cam defines a groove at one end surface thereof facing the first cam. The rolling assembly positioned between the first cam and the second cam includes a pin and two rolling bearings sleeved on opposite ends of the pin. | 10-20-2011 |
20110289726 | HINGE MECHANISM - A hinge mechanism includes a first rotation assembly, a second rotation assembly substantially parallel to the first rotation assembly, a first connection member, and a second connection member. The first and second rotation assemblies include a first and second pivoting shafts and a first and second brackets sleeved on the first and second pivoting shafts, respectively, and both the first and second brackets includes an engaging portion eccentrically formed on one end respectively thereof. The first connection member includes two pivotal portions. The pivotal portions are rotatably connected to the engaging portions of the first bracket and the second bracket, respectively. The second connection member is sleeved on the first pivoting shaft and the second pivoting shaft. | 12-01-2011 |
20120042473 | HINGE MECHANISM - A hinge mechanism includes two pivot shafts substantially parallel to each other, two main gears non-rotatably respectively sleeved on the pivot shafts, a transmission assembly positioned between the two pivot shafts to transmit a torque of one of the two main gears to the other in a reverse direction, and a connecting member defining two shaft holes. The pivot shafts are respectively rotatably received in the shaft holes. Two contact assemblies are respectively mounted on the pivot shafts abutting the connecting member. One of the connecting member and each main gear forms at least one detent, and the other defines at least one recess correspondingly. The at least one detent is received in the at least one recess. | 02-23-2012 |
20120106091 | SUPPORT MECHANISM AND ELECTRONIC DEVICE USING THE SAME - A support mechanism includes a pivoting assembly and a support member. The pivoting assembly includes a fixing member, a sliding member slidably mounted on the fixing member, a pivoting shaft rotatably connected to one end of the fixing member, and at least one torsion spring sleeved on and coiling around the pivot shaft. The torsion spring includes two assembling legs, one assembling leg of the torsion spring elastically resists against the fixing member. The support member is fixed to the sliding member. | 05-03-2012 |
20120188703 | LINKAGE MECHANISM AND ELECTRONIC DEVICE USING SAME - A linkage mechanism includes a fixing member, a rotary member, a support member and a sliding module. A first end of the rotary member is rotatably assembled to the fixing member. A first end of the support member is rotatably hinged to the second end of the rotary member, and the second end of the support member is hinged with the sliding module. The sliding module includes a sliding member and a sliding rod slidably assembled to the sliding member. The sliding member is slidably mounted to the fixing member, and further hinged to the second end of the support member. The sliding member defines a sliding hole. The sliding rod is rotatably assembled to the rotary member together with the fixing member, and further slidably passing through the sliding hole of the sliding member. An electronic device using the linkage mechanism is also provided. | 07-26-2012 |
20120192380 | HINGE ASSEMBLY - A hinge assembly includes a sleeve, a rotation shaft, and a sealing subassembly. The rotation shaft is partially received in the sleeve. The sealing subassembly seals the sleeve. The sleeve defines a pivot hole, and an inner side wall defining the pivot hole defines a restricting portion. The rotation shaft has a shaft portion and a buffer portion extending from a side wall of the shaft portion. The shaft portion is received in the pivot hole of the sleeve, and the buffer portion is received in the restricting portion of the sleeve. Damping oil is used between the inside of the sleeve and the rotation shaft. | 08-02-2012 |
20120192381 | HINGE MECHANISM - A hinge mechanism includes a first rotation assembly, a second rotation assembly substantially parallel to the first rotation assembly, a brace member, a connection shaft partially received in the sliding slot, a first connection member, and a second connection member. The first rotation assembly includes a first pivoting shaft and a first bracket sleeved on the first pivoting shaft. The first bracket includes a mounting portion eccentrically formed on one end of the first bracket. The second rotation assembly includes a second pivoting shaft and a second bracket sleeved on the second pivoting shaft. The second bracket includes a mounting portion eccentrically formed on the second bracket. The brace member defines a sliding slot. An end of the first connection member is eccentrically connected to the first pivoting shaft, and the other end of the first connection member is connected to the connection shaft. | 08-02-2012 |
20120194978 | HINGE MECHANISM AND ELECTRONIC DEVICE USING THE SAME - A hinge mechanism includes a fixing member, a rotary member, a rotary member, an adjusting member and a support member, all of which are interconnected. The rotary member is capable of being positioned in a preset manner to form an acute angle relative to the fixing member, the adjusting member is capable of being positioned in a preset manner to form an acute angle relative to the rotary member; and the support member is capable of being positioned in a preset manner to form an obtuse angle relative to the adjusting member. An electronic device using the hinge mechanism is also provided. | 08-02-2012 |
20120306431 | PROTECTIVE COVER WITH BATTERY FOR ELECTRONIC DEVICE - A protective cover for an electronic device includes a housing, a rechargeable battery received in the housing, a printed circuit board also received in the housing. The printed circuit board includes a charging-discharging module electrically connected to the battery. The protective cover also includes a solar panel used for collecting light-energy, and an opto-electronic conversion module formed on the solar panel and electrically connected to the battery. | 12-06-2012 |
20120324675 | MULTI-DIRECTIONAL HINGE MECHANISM - A multi-directional hinge mechanism includes a pair of first rotating assemblies, a second rotating assembly and a connecting member, and is capable of functioning on two perpendicularly-opposed axes. | 12-27-2012 |
20130164095 | FASTENING ASSEMBLY - A fastening assembly includes a fastening member, a locking member engaged with the fastening member, and an elastic member sleeved on the fastening member. The fastening member forms an arc resisting sidewall. The elastic member includes a main body and a plurality of elastic strips extending from a same side of the main body and spaced from each other. Each elastic strip gradually closes to an center axis of the main body along the direction of away from the main body. Each elastic strip forms an arc protrusion towards the center axis of the main body on an inner wall. The arc protrusion matches with the resisting sidewall. | 06-27-2013 |