SINHER TECHNOLOGY INC. Patent applications |
Patent application number | Title | Published |
20150342068 | DURABLE SYNCHRONOUS OPENING AND CLOSING MECHANISM - A durable synchronous opening and closing mechanism includes a support rack, a first rotation portion, a second rotation portion and a transmission member. The support rack includes a first jointing hole and a second jointing hole and at least one coupling portion. The first rotation portion includes a first rotation shaft, a plurality of integrally formed first transmission bumps extended radially outward and a first limiting portion. The second rotation portion includes a second rotation shaft, a plurality of integrally formed second transmission bumps extended radially outward and a second limiting/portion. The transmission member has an axle and a plurality of bridging bumps radially formed to engage with the first transmission bumps and second transmission bumps. The first and second limiting portions restrict rotation of the bridging bumps. | 11-26-2015 |
20150267450 | SYNCHRONOUS MOVING DOUBLE-AXIS HINGE - A synchronous moving double-axis hinge comprises a support member, a first transmitting assembly and a second transmitting assembly mounted onto the support member, and a transmission element installed on the support member. The first transmitting assembly includes a first transmission shaft and a first helical gear. The second transmitting assembly includes a second transmission shaft and a second helical gear. The transmission element includes a hinge pin and a driven helical gear. The driven helical gear has a first engaging zone to engage with the first helical gear and a second engaging zone to engage with the second helical gear. The hinge pin has a third extension axis crossing with a first extension axis of the first transmission shaft and a second extension axis of the second transmission shaft. Thus the crossed helical gears can effectively amplify the contact among the gear teeth to make transmission steadier. | 09-24-2015 |
20140118895 | DISPLAY MODULE SUPPORT FRAME FOR ELECTRONIC DEVICES AND METHOD OF MANUFACTURING SAME - A display module support frame for electronic devices includes a first support section, a second support section and a bend section located between the first and second support sections. The bend section includes a coupling zone and a bend buffer zone. The display module support frame has an initial state in which the first and second support sections do not receive forces and the first and second coupling portions of the first and second support sections are positioned at two sides of the coupling zone, and a bend state in which either the first or second support section receives the forces to bend a bridge portion such that the first and second coupling portions are moved towards the coupling zone to couple with each other, and the compression buffer space is shrunk to form a holding space between the first and second support sections to hold a display module. | 05-01-2014 |
20140118894 | DISPLAY MODULE HOLDING FRAME AND METHOD OF MANUFACTURING SAME - A display module holding frame and method of manufacturing same include the steps of: first, providing a support frame which includes an installation frame to hold a display module, two installation portions to hold two hinge structures, an installation space formed within the installation frame, a coupling space formed between the two installation portions and a wiring passage communicating with the installation space and the coupling space; next, threading a signal wire through the wiring passage; finally, forming a rubber protective layer on the surface of the support frame via an injection process. The rubber protective layer has a holding portion to fix the signal wire in the wiring passage. The display module holding frame thus formed provides a structure to securely hold the signal wire without moving freely. | 05-01-2014 |
20100293751 | HINGE FOR ANCHORING AND AUTOMATIC CLOSING - A hinge provides swiveling of a display relative to one side of a host body includes a first fastening seat, a pintle, a second fastening seat, a main twisting set, a positioning friction plate, an ancillary twisting set, a compressed elastic reed assembly and a nut. The main twisting set has a main rotary member compressed by a returning force of the compressed elastic reed assembly. When the pintle pivots to a selected angle, the protrusion of the main rotary member rapidly slides in a retaining latch trough through a steep sloped surface so that the display can automatically and fully fold over the host body. The main rotary member and the ancillary rotary member turn concurrently and respectively on the steep sloped surface and a gradual sloped surface so that adequate friction resistance is generated due to compression of the returning force of the compressed elastic reed assembly. | 11-25-2010 |
20100293750 | HINGE FOR ANCHORING AND AUTOMATIC CLOSING - A hinge provides swiveling of a display relative to one side of a host body including a first fastening seat, a pintle, a second fastening seat, a main torsion anchor member, a torsion rotary member, an ancillary torsion anchor member, a compressed elastic reed assembly and a nut. The main torsion anchor member and the torsion rotary member are compressed by a returning force of the compressed elastic reed assembly. When the pintle pivots to a selected angle, the protrusion rapidly slides in a retaining latch trough of the main torsion anchor member through a steep sloped surface so that the display automatically and fully folds over the host body. The torsion rotary member pivots concurrently so that the bulged edge slides on a gradual sloped surface of different gradients so that adequate friction resistance is generated due to compression of the returning force of the compressed elastic reed assembly. | 11-25-2010 |
20090007373 | Hinge barrel and manufacturing method thereof - The present invention includes fabricating a raw metal through a first rolling process to form a body having a base, a bracing portion and a holding trough; placing a forming strut in the holding trough; fabricating the body held the forming strut through a second rolling process to form the bracing portion in an arched shape with the inner side in contact with the forming strut; treating the body with the arched bracing portion and the forming strut in a heat treatment to enhance the hardness; and cutting off the body at a selected length and removing the forming strut to become a finished product of the hinge barrel. The hinge barrel thus formed can provide a required steady friction coefficient. It is simply structured and can be fabricated with a lower force. The probability of product defects resulting from too much or too little friction coefficient can be prevented. | 01-08-2009 |