Patent application number | Description | Published |
20120304419 | APPARATUS FOR LIMITING PIVOTAL ROTATION ANGLE - A pivotal rotation angle limiting apparatus includes a supporting seat, a pivot shaft and a linking element. The supporting seat includes a shaft hole, an axially-extended opening connected to the shaft hole and a first connecting portion. The pivot shaft includes a second connecting portion projected from the shaft hole of the supporting seat. The linking element includes a pivot portion and a slide-guided portion, wherein the pivot portion is engaged to the first connecting portion of the supporting seat, the slide-guided portion is engaged to the second connecting portion of the pivot shaft and has a length less than a diameter of the pivot shaft, and the second connecting portion of the pivot shaft is moved along the slide-guided portion and stopped by ends of the slide-guided portion when the pivot shaft is rotated, so that the pivot shaft is limited to pivot within a constant angle. | 12-06-2012 |
20130022297 | ANTI-LOOSE MECHANISM OF RELATIVE SLIDING DEVICE - An anti-loose mechanism of a relative sliding rail includes a sliding-guided member connected to a sliding member and a main frame capable of being combined to a pivotal seat. The sliding-guided member includes a sliding-guided portion and at least one sliding protrusion disposed next to the sliding-guided portion. The main frame pivoted to a relative sliding member includes an accommodation portion slidably jacketed to the sliding-guided portion of the sliding-guided member. A protruded abutment disposed outside next to the accommodation portion is placed on a relative sliding path (end) of the sliding protrusion of the sliding-guided member. When the main frame and the sliding-guided member are relatively slid to an end for opening, the protruded abutment and the sliding protrusion of the sliding-guided member are appropriately packed and abutted to each other, to stably position the sliding member and the relative sliding member therebetween for the next operations. | 01-24-2013 |
20130031748 | LOCATING MODULE STRUCTURE FOR PIVOT PIN - A locating module structure for pivot pin is disclosed. The pivot pin has a deployed section for assembling with at least one locating module. The locating module is formed with a geometrical configuration. The locating module has a continuous section and an opening. The continuous section interferes with the pivot pin. When the pivot pin is rotated, the locating module applies a frictional force to the pivot pin to provide a locating effect. In comparison with the conventional locating assembly, the locating module has simplified structure and is easier to adjust in interference extent. Moreover, the locating module solves the problem existing in the conventional locating assembly that the conventional locating assembly is easy to deform and wear. | 02-07-2013 |
20130031749 | LOCATING MODULE STRUCTURE FOR PIVOT PIN - A locating module structure for pivot pin is disclosed. The pivot pin has a deployed section for assembling with at least one locating module. The locating module is formed with a geometrical configuration. The locating module has a continuous section and an opening. The continuous section interferes with the pivot pin. When the pivot pin is rotated, the locating module applies a frictional force to the pivot pin to provide a locating effect. In comparison with the conventional locating assembly, the locating module has simplified structure and is easier to adjust in interference extent. Moreover, the locating module solves the problem existing in the conventional locating assembly that the conventional locating assembly is easy to deform and wear. | 02-07-2013 |
20130047377 | ANTI-INTERFERENCE STRUCTURE OF RELATIVE SLIDE ASSEMBLY - An anti-interference structure of relative slide assembly includes a relative slide member and a slide member. At least one guide member is disposed on the relative slide member. The guide member has a support section rising from a surface of the relative slide member. At least one guide slope is formed on one side of the support section. The slide member is relatively slidably connected with the relative slide member. At least one raised abutment section is disposed on the slide member and slidable with the slide member. The support section is positioned in the sliding path of the raised abutment section. During the sliding movement of the slide member along the relative slide member, the raised abutment section abuts against the support section to enlarge the gap between the slide member and the relative slide member so as to avoid interference therebetween due to deformation of the components. | 02-28-2013 |
20130051713 | SLIDE RAIL STRUCTURE OF RELATIVE SLIDE ASSEMBLY - A slide rail structure of relative slide assembly includes two slide guide members disposed on a slide member. Each slide guide member has a locating section connected with the slide member. The locating section has a slide guide section disposed on one side of the locating section, which side is distal from an edge of the slide member. The slide guide section is bent toward the edge of the slide member. Two pivot seats are pivotally disposed on two sides of a relative slide member. A main support is connected on each pivot seat. The main support has a relative slide guide section disposed on the main support and slidable along the slide guide section. The slide guide section is bent over the locating section in an overlapping state. Therefore, the width and volume of the slide guide member are minified to enlarge internal utility space of the slide member. | 02-28-2013 |
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 |
20130077901 | RELATIVE SLIDING RAIL STRUCTURE USING PIVOTING MECHANISM - A relative sliding rail structure using a pivoting mechanism mainly includes a pivot shaft, a main frame, a sliding-guided member and a pivoting seat. The main frame is connected to the pivot shaft via the pivoting seat. The sliding-guided member includes at least one sliding-guided portion engaged to a sliding seat of the main frame, so that the main frame and the sliding-guided member are relatively moved when the main frame is moved along the sliding-guided member. The main frame includes a hollow portion disposed on the sliding seat, and the pivoting seat is combined with at least one roller, wherein the roller is appropriately passed through the hollow portion to enter the sliding seat of the main frame to abut against the sliding-guided portion of the sliding-guided member, so that the main frame and the sliding-guided member are connected to each other to form a stable mutual sliding combination. | 03-28-2013 |
20130121626 | OPENING-CLOSING GUIDING STRUCTURE OF LONG-STROKE SLIDING COVER - An opening-closing guiding structure of a long-stroke sliding cover includes a sliding member, a relative sliding member, first elastic assemblies and second elastic assemblies. The sliding member includes first sliding-guided portions having turned curved portions. The relative sliding member includes a second sliding-guided portion and a third sliding-guided portion, wherein the second sliding-guided portion has a sliding track interlaced with the first sliding-guided portion, and the third sliding-guided portion has a sliding track interlaced with an apex of the turned curved portion of the first sliding-guided portion. The first elastic assembly is slidably connected to the first and second sliding-guided portions. The second elastic assembly is slidably connected to the first and third sliding-guided portions. When a short part of an opening stroke of a sliding cover is performed, a subsequent, long part of the opening stroke of the sliding cover can be automatically operated. | 05-16-2013 |
20130160241 | SLIDE-AID DEVICE FOR ELECTRONIC APPARATUS - A slide-aid device for electronic apparatus includes a linkage mechanism and an elastic unit assembled with the linkage mechanism. The linkage mechanism has a first arm and a second arm pivotally connected with the first arm. The elastic unit has a fixed end and a connection end. The connection end is pivotally connected with the second arm, whereby the elastic unit is movable with the second arm. When an operation force is applied to the first arm, the first arm is moved to drive the second arm so as to make the elastic unit store energy. After the first arm passes over a reference axis, the elastic unit releases the energy to provide an action force to help the operation force. | 06-27-2013 |
20130174677 | RELATIVE-ROTATION SYNCHRONOUS MOVEMENT-AID DEVICE - A relative-rotation synchronous movement-aid device, which has a simple structure and is easy to assemble. The synchronous movement-aid device includes a linking arm and a rotational wheel assembled with the linking arm. The linking arm has a pivoted end and a free end mounted on the rotational wheel. The pivoted end is mounted on a rail. When an external force is applied to the linking arm, the pivoted end can freely move along the rail. The free end serves to make the rotational wheel relatively rotate along with the movement of the linking arm to achieve better synchronous movement effect than the conventional slide mechanism. | 07-11-2013 |
20130174681 | SYNCHRONOUS MOVEMENT-AID DEVICE FOR SLIDE MODULE - A synchronous movement-aid device for slide module includes at least one aid device. The aid device includes a first arm, a second arm connected with the first arm and a rotational wheel connected with the second arm and rotatable with the movement of the second arm. The first arm has a pivoted end mounted on a rail. When an external force is applied to the first arm, the pivoted end can freely move along the rail relative to the second arm. The second arm has a fixed end connected to the rotational wheel. When the first arm moves along the rail, the rotational wheel is driven to rotate so as to achieve better synchronous movement effect than the conventional slide mechanism. | 07-11-2013 |
20130193292 | SUPPORTING STRUCTURE FOR ELECTRONIC DEVICE - A supporting structure for an electronic device is provided to reduce the thickness or volume of device structures in conventional skills. The supporting structure includes a connecting arm having a first end and a second end which are substantially pivoted to a side region of a sliding and/or rotating module and an edge portion of a substrate module, respectively. With the connecting arm being rotated in response to the movement of the sliding and/or rotating module, the rotation or combination type can be provided between the first and second ends of the connecting arm and the side regions of the sliding and/or rotating module and the edge portion of the substrate module, thereby improving difficulties of the internal structure and design of the assembly of conventional supporting structure and electronic device. | 08-01-2013 |
20130219660 | JACKING DEVICE FOR ASSISTING AN ELECTRIC APPARATUS WITH MOVEMENT - A jacking device for assisting an electric apparatus with movement is operated in a labor-saving way, thereby simplifying complicated operational conditions occurred in conventional skills. The electric apparatus includes a machine body module, a motion module, and a support arm disposed between the motion module and the machine body module. The support arm includes a pivot end and a push end utilized to transmit power to the jacking device. The jacking device includes a slave portion receiving the power transmitted from the push end of the support arm and a link portion pivoted to the slave portion. The link portion includes a free end motioned between a first position and a second position to drive the motion module for rotation and upward or downward movement when the slave portion is motioned in response to the power transmitted from the push end of the support arm. | 08-29-2013 |
20130220043 | JACKING DEVICE - A jacking device is provided to push an object for rotation and upward or downward movement. The jacking device includes a combination of a slave arm and a link arm. The slave arm includes a first end capable of producing rotation and linear movement and a second end pivoted to the link arm, The link arm includes a fixation end disposed on a base and a free end. When the first end of the slave arm is received with an action force, the second end of the slave arm is forced to push the link arm for rotation, and the free end of the link arm is forced to motion between a first position and a second position so as to push m object for rotation and upward or downward movement. | 08-29-2013 |
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 |
20130241383 | SLIDE AND ROTATION MODULE FOR EXECUTABLE MULTIPLE OPERATION MODE ELECTRONIC DEVICE - The present invention discloses a slide and rotation module for an executable multiple operation mode electronic device, providing a structure with inclination-adjustable, movable, rotational and bidirectional folding functions. The slide and rotation module includes a steering arm and a slide seat disposed between the first machine body and the second machine body. The steering arm includes a first end pivoted to a first machine body and a second end pivoted to a second machine body, in which the second end of the steering arm is rotated and translated within a limiting part in response to a motion of the first machine body. | 09-19-2013 |
20130272632 | LINKAGE-TYPE SYNCHRONOUS SLIDE STRUCTURE OF RELATIVE SLIDE ASSEMBLY - A linkage-type synchronous slide structure of relative slide assembly includes a slide member and a relative slide member slidably connected to the slide member. The relative slide member is formed with a slide guide section. The slide member is slidable relative to the relative slide member along the slide guide section. Two extensible/retractable assemblies with a variable length are respectively oppositely disposed on two sides of the slide guide section. Second ends of the extensible/retractable assemblies are respectively pivotally connected to corresponding sections of two sides of the slide member. First ends of the extensible/retractable assemblies are pivotally connected with each other and slidable along the slide guide section. A restriction mechanism is disposed between the extensible/retractable assemblies and the relative slide member to serve as a pivotal center of the extensible/retractable assemblies for restricting axial slide thereof and synchronizing the moves of two sides of the slide member. | 10-17-2013 |
20130276267 | LINKAGE-TYPE SYNCHRONIZATION MODULE STRUCTURE - A linkage-type synchronization module structure includes a slide member, a relative slide member and two extensible/retractable assemblies connected therebetween. Second ends of the extensible/retractable assemblies are respectively pivotally connected to corresponding sections of two sides of the slide member. First ends of the extensible/retractable assemblies are slidably pivotally connected with each other and restricted by a middle slide guide section disposed between the slide member and the relative slide member. Two fixed support sections are respectively oppositely disposed on two lateral sides of the middle slide guide section. The extensible/retractable assemblies are formed with slide guide sections in which the fixed support sections are fitted. A restriction slide guide mechanism is disposed between each extensible/retractable assembly and the relative slide member for cooperatively guiding the extensible/retractable assemblies to pivotally rotate and extend/retract so as to synchronize the moves of two sides of the slide member. | 10-24-2013 |
20140055938 | SLIDING-TYPE ELECTRONIC APPARATUS WITH STRENGTHENING FORCE STRUCTURE - A sliding-type electronic apparatus with a strengthening force structure includes a body served as a system terminal and an upper cover disposed on the body and having a surface configured with a touch screen. A sliding and cover-lifting member constituted by a sliding rail, a sliding member and a pivot shaft device is at least disposed between the body and the upper cover. In a normal state, a supporting device, together with the sliding and cover-lifting member, is horizontally and supportively placed in a preset concave chamber space of the body. The auxiliary supporting devices can be formed as an inclined auxiliary support structure on the rear surface of the upper cover when the upper cover is lifted, thereby effectively increasing the screen touch resistance to inhibit screen wobble in an operation process and to promote the support effect and operation stability of the screen. | 02-27-2014 |
20140097316 | AUXILIARY SUPPORT DEVICE FOR FLIP TOUCH SCREEN - An auxiliary support device for flip touch screen includes a main body and an upper cover having a touch panel. The main body is preformed with a cavity for assembling with a base seat. The upper cover is preformed with an elongated recess corresponding to the cavity. A slide rail is assembled in the elongated recess. One end of a link member is movably pivotally connected with an outer end of the base seat. A bottom end of a slide member is movably pivotally connected with an inner end of the base seat. The slide member is assembled in the slide rail. The other end of the link member is slidably connected with of a surface of the slide member. When the upper cover is turned upward, the link member is turned upward with the slide member to obliquely support the upper cover. | 04-10-2014 |
20140174226 | MULTI-SEGMENT ROTARY SHAFT STRUCTURE - A multi-segment rotary shaft structure includes a driving joint assembly and a driven joint assembly. The driving joint assembly at least includes two opposite joint plates and a middle link plate assembly engaged therebetween. The driven joint assembly is disposed between the opposite joint plates and includes at least two driven plates. Opposite ends of the driven plates are formed with synchronous driving sections drivingly engaged with each other. Inward ends of the opposite joint plates are linked with outward ends of the driven plates. Outward ends of the middle link plate assembly are linked with the inward ends of the driven plates. The driving joint assembly and driven joint assembly are stringed and pivotally connected and combined, whereby the joint plates can be freely rotated around multiple rotational centers. | 06-26-2014 |
20140174227 | SYNCHRONOUS FOLDING DEVICE - A synchronous folding device includes two opposing folding members and a multi-joint rotary axle structure mounted between the two folding members. The multi-joint rotary axle structure has two ends which can be folded or unfolded synchronously. The multi-joint rotary axle structure includes a driving joint assembly and a driven joint assembly. The driving joint assembly includes two opposing joint plates and a middle link plate. Two ends of the driving joint assembly are respectively connected to the two opposing folding members. Each joint plate of the driving joint assembly can be turned free through plural turning centers so that both ends can be closed or opened synchronously for the folding device to be folded or unfolded accurately. | 06-26-2014 |
20140376902 | SHIELD MODULE TRAVEL ENLARGING STRUCTURE - A shield module travel enlarging structure includes a front cover and a rear cover formed with opposite windows. The front and rear covers are assembled to form a module main body having an internal operation space. A shield is mounted in the operation space and movable between a position in alignment with the opposite windows and a position misaligned from the opposite windows. A transmission gear is mounted in the internal operation space of the module main body to cooperate with the shield. The transmission gear at least has a large-gear-ratio gear and a small-gear-ratio gear. The large-gear-ratio gear is drivingly engaged with the shield. A push member is drivingly engaged with the small-gear-ratio gear. When the push member is moved, via the transmission gear, the shield is slid by an enlarged travel. | 12-25-2014 |