Class / Patent application number | Description | Number of patent applications / Date published |
384037000 | Resilient supporting member | 14 |
20090067762 | Retaining plug for retaining needle roller bearings in the centers of gears - The retaining plus is used for assembling or retaining an array of needle roller bearings in the center of a gear. The plug applies a spring force through a push ball and a wire retainer clip which separates a pair of the needle roller bearings and force the array of bearings together and against the inside diameter of the gear. | 03-12-2009 |
20090317025 | Steering Yoke - A yoke for use in a rack and pinion steering assembly is described. The yoke may include a bearing surface that provides a low coefficient of friction, allowing for a greater biasing force against the rack shaft. The materials and design of the yoke can provide for a quieter system with reduced vibration. | 12-24-2009 |
20100129012 | Rolling element retainer - A rolling element retainer is provided with two through rolling element retaining spaces. Each of the rolling elements retaining spaces is provided for accommodation of one rolling element. The rolling element retainer is provided with a linking portion at each of two opposite sides thereof. The rolling element retainer is further provided with a rolling element rolling channel in each of two external end surfaces thereof. The angular difference between the respective rolling element rolling channels and the respective linking portions is 0 degree or 90 degrees. By such arrangements, the rolling channels at two ends of the rolling element retainer are provided for contact with the rolling elements therebetween, so as to guide the movement of such rolling elements. | 05-27-2010 |
20110150374 | HORIZONTALLY AND VERTICALLY ADJUSTABLE BEARING - A bearing ( | 06-23-2011 |
20110268377 | SLIDING APPARATUS FOR ELECTRONIC DEVICE - A sliding apparatus includes a first sliding member and a second sliding member slidable relative to the first sliding member. A first resilient member and a second resilient member are connected between the first and second sliding members. The first and second resilient members overlap with each other to provide the better sense of damping for operators. | 11-03-2011 |
20120237146 | SLIDING BEARING - A sliding bearing | 09-20-2012 |
20130071051 | ASSEMBLY STRUCTURE - An assembly structure includes a sliding element, a relative sliding element and an elastic element. The relative sliding element includes sliding-guided portions disposed at the two sides thereof, and the sliding element includes sliding jacket portions clamped to the two sliding-guided portions of the relative sliding element. The elastic element includes a coil winding portion formed with two ends, and a first swing arm and a second swing arm are respectively disposed on the two ends of the coil winding portion and respectively located in the vicinity of the sliding element and the relative sliding element. The first swing arm is pivoted to the relative sliding element, and the second swing arm is pivoted to the sliding element, so that the deformed portion of the coil winding portion limited by the first and second swing arms can be prevented from rubbing against the sliding element. | 03-21-2013 |
20130077903 | SLIDE UNIT MECHANISM - A slide unit mechanism includes a sliding plate including slide parts and rattle preventing mechanisms that engage the sliding plate to prevent the sliding plate from rattling. Each of the rattle preventing mechanisms includes a recess; an opening positioned on a moving path of the slide part; a locking torsion spring disposed in the recess, one end of which is attached to an engaging part protruding from the opening on the moving path of the slide part; and an engaging recess formed in the slide part and configured to engage the engaging part. When the sliding plate is slid to the open position or the closed position, the engaging part engages the engaging recess and is biased by elastic force of the locking torsion spring toward the engaging recess. | 03-28-2013 |
20130236131 | SLIDE RAIL STRUCTURE FOR ELECTRONIC DEVICE - A slide rail structure with stable movement and rotation is provided for an electronic device. The slide rail structure includes a base capable of being assembled with a fixed machine body, a tractor capable of being pivoted to a sliding module and movably disposed on the base, and an elastic body including a fixed end connected to the base and a pivot end connected to the tractor. The tractor, incorporated with the elastic body to assist in moving the sliding module, is capable of providing the sliding module with stable and smooth motion. | 09-12-2013 |
20140064642 | SLIDING BEARING - A sliding bearing | 03-06-2014 |
20140133788 | Slide Plate Hinge For Portable Electronic Device Terminal - A slide plate hinge comprises a fixed plate, and a slide plate. A slide plate sliding guide groove is respectively arranged on each of both sides of the fixed plate. The central section of the groove wall at one side of the sliding guide groove is of an elastic structure, and the elastic structure and the groove wall at the other side of the sliding guide groove clamps the slide plate. The slide plate hinge can implement the sliding guide and friction clamping on the slide plate by use of the sliding guide groove of an elastic structure, with high structural integration and concealability, thereby enabling the slide plate hinge to still have good hand feeling even without driving springs and enabling the slide plate to be stopped at any time amid the sliding process. The driving springs are not indispensable, so the thickness of the hinge can be reduced. | 05-15-2014 |
20140153848 | Sliding Plate Hinge Of Portable Electronic Device Terminal - A sliding plate hinge of a portable electronic device terminal includes a fixed plate and a sliding plate. A sliding-guide groove for the sliding plate is disposed at either side of the fixed plate. A frictional component supported by an elastic component is also disposed at either side of the fixed plate respectively. The frictional components at the two sides form a compression fit with the side surface of the sliding plate or with the side surface of a component fixedly connected to the sliding plate, so as to generate side pressure against the sliding plate or the component fixedly connected to the sliding plate. The design utilizes the frictional components to generate side pressure against the sliding plate or the component fixedly connected to the sliding plate and thus generate frictional damping, ensuring that the sliding plate hinge has a comfortable hand-feel even in the absence of a drive spring. | 06-05-2014 |
20140301678 | SPRING UNIT AND SLIDING MECHANISM - The present invention relates to a spring unit whose spring constant can be easily changed. The spring unit includes a plurality of wire springs each including a bent part formed in the middle of wire by bending, extending parts extending from the bent part, and end parts formed at ends of the extending parts. The wire springs are arranged side by side, and a deformed part protruding in a direction of arrangement of the wire springs is formed in one or more of the extending parts. | 10-09-2014 |
20150030267 | SPRING UNIT AND SLIDE MECHANISM - A spring unit includes a composite spring and a metal wire. The composite spring is formed of resin, has a single beam structure, and includes a curved part between its end parts. The metal spring is formed of a metal wire, and includes a curved part between its end parts. The end parts of the composite spring are fixed to the corresponding end parts of the metal spring, so that the composite spring and the metal spring are fixed to be positioned in the same plane. The composite spring and the metal spring engage with each other in an engagement part formed in at least one position between the curved parts and the end parts. The composite spring and the metal spring are separated in a part other than the end parts and the engagement part. | 01-29-2015 |