Class / Patent application number | Description | Number of patent applications / Date published |
016338000 | Screw-threaded adjustment | 9 |
20130117967 | HINGE WITH TORQUE SETTING FUNCTION - There is provided a hinge with torque setting function for connecting two objects by a hinge shaft adapted to be assembled with precision and to be tightened easily. In order to reduce the diameter of the curvature portion | 05-16-2013 |
20160138320 | Hinge for the rotatable movement of a door, a door leaf or the like - A hinge for the controlled rotatable movement of at least one closing element, such as a door, a door leaf or the like, anchored to a stationary support structure, such as a wall, a floor, a frame or the like, includes a hinge body and a pivot defining a first axis and reciprocally coupled to allow rotation of the at least one closing element between an open position and a closed position. The hinge further includes a working chamber defining a second axis substantially perpendicular to the first axis and a plunger element sliding in the working chamber along the second axis between a position proximal to the bottom wall of the working chamber and a position distal therefrom. | 05-19-2016 |
016339000 | Along or parallel to hinge axis | 7 |
20090165248 | ADJUSTABLE HINGE ASSEMBLY - An exemplary adjustable hinge assembly ( | 07-02-2009 |
20100071161 | HINGE ASSEMBLY FOR COLLAPSABLE ELECTRONIC DEVICE - A hinge assembly includes a pivot shaft having a pivot portion, a friction member sleeved on the pivot portion, a support member, and an adjusting member. The pivot shaft includes a pivot portion. The friction member includes a first friction body and a second friction body attached to the first friction body. The support member includes a housing, and defines a receiving chamber in the housing and an adjusting hole communicating with the receiving chamber. The friction member and the pivot portion of the pivot shaft are received in the chamber. An inner wall of the receiving chamber presses the friction member to clamp the pivot portion. The adjusting member is received in the at least one adjusting hole to abut the friction member such that the friction created between the friction member and the pivot portion can be adjusted. | 03-25-2010 |
20110072619 | HINGE - A hinge includes a second connector having a hollow pivotal device of which a peripheral outside protrudes outward to form a locking rib, and a first connector having a pivotal sleeve which is pivotally sleeved to the pivotal device to make the first connector rotatable relative to the second connector. The locking rib is able to slide along and abut against a peripheral inside of the pivotal sleeve to produce friction resistance force therebetween for positioning the first connector at any inclined angle relative to the second connector. A fastening pin is disposed in the pivotal device of the second connector and spaced from a peripheral inside of the pivotal device so that can make the pivotal device pressed inward to produce an outward elasticity to strengthen the friction resistance force between the locking rib and the peripheral inside of the pivotal sleeve. | 03-31-2011 |
20110099761 | HINGE - A hinge includes a first connector which has a hollow pivotal sleeve with a channel penetrating therethrough, a coupling flap and a locating strip spaced from each other in a parallel relation and connected with two opposite edges of the channel respectively, a resilient tube pivotally received within and circumferentially biasing against the pivotal sleeve to produce a friction resistance force therebetween, two second connectors fastened to two opposite ends of the resilient tube, and a fastening element for holding the locating strip and the coupling flap closely together and adjust a space between the locating strip and the coupling flap to further regulate the friction resistance force. So the first connector may be positioned at any desired angle relative to the second connectors by means of the friction resistance force between the resilient tube and the pivotal sleeve. | 05-05-2011 |
016340000 | Threaded pintle | 3 |
20090235489 | Sheath Type Rotating Axel Structure with Automatic Locking Mechanism - The present invention discloses a sheath type rotating axle structure with automatic locking mechanism, comprising a sheath device, a retainer, a pivotal axle, a locking fastener, a locking rotator, a resilient body, and a screw nut. The first axle segment of the pivotal axle is pivoted to the sheath of the sheath device to realize the function of “easy opening and firm closing,” and the sheath device is disposed with a retainer on one end to achieve the “anti-shaking” function. The second axle segment of the pivotal axle is pivoted to the through hole of the retainer and embeddingly inserted into a locking fastener and a locking rotator. The locking fastener is disposed with a pin to be securingly fixed with a pin hole formed on the retainer, and a screw nut is used to securingly fix a plurality of resilient discs or a spring. When the pivotal axle is rotated to drive the locking fastener departing from the locked position, the resilient discs (or spring) are compressed by the locking rotator. Also, when the pivotal axle is rotated back to drive the locking rotator returning to the locked position, the resilient discs (or spring) press the locking rotator back to the locked position, so as to achieve the function of “automatic locking.” | 09-24-2009 |
20090271948 | HINGE WITH LESS NOISE - A hinge with less noise pivotally connects to a cover and a base of an electrical appliance and has a stationary-positioning element, a rotating-positioning element and a noise-eliminated spacer. The stationary-positioning element is mounted securely in the base and has at least one positioning protrusion. The rotating-positioning element is mounted securely in the cover and has at least one positioning detent corresponding to the positioning protrusion when the cover is closed. The noise-eliminated spacer is attached to the rotating-positioning element to let the stationary-positioning element and the rotating-positioning element in constant contact, which results in friction between the stationary-positioning element and the rotating-positioning element being uniform. The noise-eliminated spacer is made by metal stamping process to well form the size of the through hole for tightly engage the deformed portion of the shaft to eliminate noise. | 11-05-2009 |
20100000049 | INTERFERENCE ASSEMBLY, HINGE UTILIZING THE SAME, AND COLLAPSIBLE DEVICE UTILIZING THE HINGE - A interference assembly includes first and second elements, each of which includes a mating side, both of which face each other. Two fixing portions extend from the first mating side. The second mating side defines a first fixing slot and a second fixing slot. A first sliding portion is angled on the second mating side between an end of the first fixing slot and an end of the second fixing slot. A second sliding portion is angled on the second mating side between the opposite end of the first fixing slot and the opposite end of the second fixing slot. One of the fixing portions may engage in the first fixing slot and move along the first sliding portion, and the other may engage the second fixing slot and move along the second sliding portion. A hinge utilizing the assembly and a collapsible device utilizing the hinge are also disclosed. | 01-07-2010 |