Patent application number | Description | Published |
20080254658 | Memory card connector - A memory card connector includes a housing, a plurality of terminals and a cover. The housing consists of a bottom wall, a front wall, a back wall and a pair of side walls and defines a plurality of slots therein. A receptacle is formed among the walls. The terminals are received in the corresponding slots. The cover is pivotally mounted to the housing, having a top member. At least one pressed component is arranged on the top member. The pressed component includes a pair of opposite spring arms, one end of the spring arms connects with the top member, and the other is stamped individually to form a pair of inclined arms on the top member. The inclined arms joint together by a protruding joint portion, which presses down a memory card. Therefore, a firmly electrical connection between the memory card and the terminals is established. | 10-16-2008 |
20110051263 | CLUTCHING JIG - A clutching jig is adapted to disassemble a lens module which includes a lens socket and a lens component mounted to the lens socket. The clutching jig includes a base and at least two inserting slices. The base defines two opposite lateral surfaces and a bottom surface. A slot passes through the opposite lateral surfaces and the bottom surface to divide the base into a first holding portion and a second holding portion. The bottom surface has a receiving recess at a portion thereof. The inserting slices are removably mounted to the opposite lateral surfaces and beyond the bottom surface. Wherein the inserting slices are inserted between the lens component and the lens socket, and the receiving recess receives the lens component with a circumferential dimension thereof lessened to clutch the lens component when the first holding portion and the second holding portion are urged to approach each other. | 03-03-2011 |
20110056072 | CLUTCHING JIG - A clutching jig used to disassemble a lens socket and a lens component which has a lens base glued on a printed circuit board (PCB) and is fixed in the lens socket by a plurality of buckling pieces of the lens socket abutting on the lens component has a substantially rectangular base. The base defines two opposite first lateral surfaces, a bottom surface, and a slot passing through the first lateral surfaces and the bottom surface to divide the base into a first holding portion and a second holding portion. The bottom surface has a receiving recess communicating with the slot. When the receiving recess receives the lens component, a plurality of resisting slices attached to a periphery of the base inserts into a gap between the lens component and the lens socket for pressing the buckling pieces away from the lens component. | 03-10-2011 |
20110130037 | CAMERA MODULE SOCKET - A camera module socket for receiving a camera module which plates a metal coating around an outer periphery thereof includes an insulating housing defining a receiving chamber for receiving a lower portion of the camera module, a plurality of conductive terminals received in the insulating housing, a metallic shell encircling the insulating housing, and a shielding cover. The shielding cover has top board which defines a through hole at a middle thereof for allowing a top portion of the camera module exposed therefrom, and a plurality of side boards extended downwardly from side edges of the top board. The shielding cover has at least one elastic arm bent into an inner thereof from the corresponding side board for elastically abutting against the camera module and electrically connected with the metal coating, and at least one resistant tab formed at the corresponding side board for pressing against metallic shell. | 06-02-2011 |
20110148129 | DISMOUNTING JIG - A dismounting jig adapted for removing a metal shield which is coupled with a lens module and has two projections at two opposite sides thereof. The dismounting jig has a main body and two clutching arms. Each of the clutching arms has a fixing plate and a holding portion connected with the fixing plate. A lower portion of the holding portion has a buckling slice protruded inward. Two opposite sides of the holding portion extend perpendicularly to form a pair of opposite stabilizing wings locating at a same side as the buckling slice with respect to the holding portion. The clutching arms are symmetrically mounted on the main body by the fixing plates thereof fixed on two opposite sides of the main body. A receiving space is formed among the two pairs of the stabilizing wings and the holding portions. | 06-23-2011 |
20110149583 | LENS MODULE SOCKET - A lens module socket for receiving a lens module having a base portion includes an insulating housing, a plurality of conductive terminals and a shielding shell. The insulating housing has a bottom wall and side walls extended upwardly from the bottom wall to surround a receiving chamber therebetween for receiving the lens module. Two opposite side walls each defines at least one through hole thereon and a latch member disposed in the through hole. The latch member includes an arm portion extended upwardly from a bottom of the through hole and a hook portion projected into the receiving chamber from an upper position of the arm portion for buckling the lens module without gap formed between the bottom wall and a bottom of the lens module. The hook portion has an inclined guide surface for guiding the lens module during the lens module is assembled to the insulating housing. | 06-23-2011 |
20110173790 | CLUTCHING JIG - A clutching jig adapted for separating a lens component from a lens socket. The clutching jig has a main body, two protecting blocks and two clutching arms. Each of the clutching arms has a fixing plate and a holding portion connected with the fixing plate. Two opposite sides of the holding portion extend perpendicularly to form a pair of opposite stabilizing wings. The clutching arms are mounted on the main body by the fixing plates thereof fixed on two opposite sides of the main body. The holding portions face to and space away from each other under the main body. The two protecting blocks are made from resilient material and respectively adhered on two inner sides of the holding portions. A receiving space is formed among the protecting blocks and the two pairs of the stabilizing wings. | 07-21-2011 |
20110181968 | LENS MODULE SOCKET - A lens module socket for receiving a lens module having a base portion includes an insulating housing, a plurality of conductive terminals received in the insulating housing, a shielding shell encircling the insulating housing, and a plurality of rotatable latches pivotally assembled to the insulating housing by a plurality of shaft pins. The insulating housing has a bottom base and side walls extended upwardly from the bottom base to surround a receiving chamber therebetween for receiving the lens module. The insulating housing defines a plurality of slits at the side walls for receiving the rotatable latches and a plurality of insertion holes extended downwardly from top portions of the side walls for receiving the shaft pins. The rotatable latches have press portions passing through the slits into the receiving chamber for pressing against the base portion of the lens module when the rotatable latches are rotated to a closed state. | 07-28-2011 |
20110209342 | ASSEMBLING JIG FOR LENS MODULE - An assembling jig for lens module comprises a crutch, a mobile carrier and a pressing mechanism. The crutch includes a level mounting base and an erect support wall joined to one side of the mounting base. A firm carrier is fixed on the mounting base. The mobile carrier fixed on the firm carrier comprises a carrier base, several positioning blocks disposed around the top surface of the carrier base, the positioning blocks surrounding a restraining groove in which a PCB with a lens socket is received. The pressing mechanism disposed on the support wall includes a pressing member can move up and down and a drive gear connected to one end of the pressing member. This kind of lens module component assembling jig features in assembling lens component steadily and can be applied to different kinds of lens component. Thus it abates the cost of assembling the lens component. | 09-01-2011 |
20110287640 | BATTERY CONNECTOR - A battery connector is adapted for being assembled to a printed circuit board. The battery connector includes an insulating housing, two holding elements and a plurality of terminals. The insulating housing has two opposite side surfaces. The insulating housing defines a plurality of terminal cavities and receiving grooves. Two holding grooves are opened in two opposite ends of the insulating housing. Each side surface of the insulating housing protrudes sideward to form a locating piece. Each holding element has a base plate mounted to the holding groove and a holding piece projecting out of the holding groove to be inserted into the printed circuit board. The terminals are respectively received in the terminal cavities. Each terminal has two contacting portions having an interstice therebetween and facing towards the receiving groove, and a soldering portion projecting out of the terminal cavity to be inserted in the printed circuit board. | 11-24-2011 |
Patent application number | Description | Published |
20080276744 | SIDE CORE-PULLING MECHANISM OF MOLD - A side core-pulling mechanism of mold includes a slide block, an impacted block and a wobbly block. The bottom of the slide block projects outwards to form a columnar pin. The front surface of the impacted block defines a receiving cavity, a first slot and a second slot. The first slot upright extends downwards to pass through the bottom of the impacted block from the over place of the right end of the receiving cavity and communicates with the right end of the receiving cavity. The second slot extends rightwards and downwards to pass through the bottom of the impacted block from a start end of the first slot. The first and second slots communicate with each other. The columnar pin is movable in the first and second slots. The wobbly block is received in the receiving cavity of the impacted block. The wobbly block is against the bottom wall of the receiving cavity to cut off the first slot at a nature status and rotates upwards in the receiving cavity for making the first slot be in a through status. | 11-13-2008 |
20080277822 | APPARATUS AND METHOD FOR PERIODICALLY COOLING INJECTION MOLD - An apparatus for periodically cooling injection mold has a cavity formed between a cavity insert and a core insert of the injection mold. The bottom of the cavity defines a perforation that extends and passes through a lower pushing plate. An ejector pin is received in the perforation. The bottom end of the ejector pin passes out of the lower pushing plate and is above the top surface of a lower fixed plate. A sensor switch that controls several electric valve actuators is located on the lower fixed plate and is below the ejector pin. The electric valve actuators control cooling liquid to flow into several cooling pipes that are configured in the cavity insert and the core insert respectively. A method for periodically cooling injection mold includes the steps of: closing the injection mold and pouring raw materials into the cavity to form a product; pushing the ejector pin downward along the perforation and the bottom of the ejector pin touching and pressing the sensor switch. The sensor switch is inducted, and further causes the electric valve actuators opened. The cooling liquid flows into the cooling pipes for cooling the injection mold. Then, liberate the bottom of the ejector pin away from the sensor switch when the product is taken out from the injection mold. Last, release induction of the sensor switch for causing the electric valve actuator closed correspondingly and for stopping the cooling liquid into the cooling pipes. | 11-13-2008 |
20080292744 | Mold a secondary molding - A mold for a secondary molding includes a lower mold insert, an upper mold insert coupled to the lower mold insert, and an extraction device loaded in the lower mold insert. The lower mold insert has a lower container, a couple of lower notches adjacent to the two opposite sides of the lower container respectively and a lower cavity with two opposite sides connected to the lower notches respectively. The extraction device has an inserting core. The inserting core includes a body with two molding portions at its opposite sides. The body is inserted into the lower container, the molding portions project into the lower cavities. | 11-27-2008 |
20080308710 | Mold with a returning apparatus - A mold with a returning apparatus includes a female and a male mold. The male mold has a fix plate with a through bore, a lower eject plate, an upper eject plate, an eject pin fixed to the upper eject plate, and a returning apparatus. The returning apparatus has a pull rod and a returning portion having a gap. The pull rod defines a top at one end thereof, a surrounding portion adjacent to the top, and a compression formed between the top and the surrounding portion. The gap has a first cavity at an upper portion thereof, a second cavity communicating with the first cavity at a lower portion thereof, and a step formed therebetween. The size of the first cavity is bigger than the second cavity. The top is received in the first cavity, the surrounding portion is received in the second cavity, and the compression abuts against the step. | 12-18-2008 |
20090181119 | Lateral core-pulling mechanism of mold - A lateral core-pulling mechanism of mold includes a cavity plate, a cavity insert configured in the cavity plate and defining a shaping recess, and a core-pulling body including a first slide module longitudinally movably disposed in the front of the cavity plate, an angular pin, and two second slide modules movably disposed at two sides of the cavity insert. The first slide module defines an inclined hole, a first shaping core inserted into the shaping recess and two first guide surfaces at two side edges thereof. The angular pin has an inclined block inclining forward and movably received in the inclined hole to drive the first slide module to move forward or backward. The second slide module defines a second shaping core inserted into the shaping recess and a second guide surface slidably matching the corresponding first guide surface to drive the second slide module to move sideward. | 07-16-2009 |
Patent application number | Description | Published |
20090023343 | SIM CARD CONNECTOR - A SIM card connector includes an insulating body and a plurality of electric terminals. The insulating body has accepting holes and accepting cavities. The electric terminal has a welded slice, a contact and a fixing portion. The welded slice and the contact are accepted in the accepting hole, the contact projects from the accepting hole. A lump is formed in one side of the fixing portion, the fixing portion accepted in the accepting cavities. While the SIM card connector passes through a SMT apparatus, the insulated body is soften and the lump is against the side wall of the accepting cavities for preventing the holding portion out of the insulated body. Therefore, the SIM card connector is welded firmly in the PCB of a mobile. | 01-22-2009 |
20100055989 | Audio jack connector - An audio jack connector includes an insulating housing and a plurality of terminals received in the insulating housing. The insulating housing has a main body and a mating portion projected from an end of the main body. An inserting channel is defined in both the main body and the mating portion. A plurality of grooves and an opening hole are defined in the main body and communicate with the inserting channel. At least one locking projection is formed in the opening hole. The terminals are at least partially received in the grooves of the insulating housing respectively and at least one of the terminals defines a contacting portion contained in the inserting channel via the opening hole with one end thereof being supported by the locking projection. | 03-04-2010 |
20100233911 | Card Connector - A card connector adapted for receiving a SIM card includes an insulating housing having a front surface and two opposite lateral surfaces. The front surface has at least one receiving recess extending rearward. Each of the lateral surfaces has a propping portion which passes through a top surface of the insulating housing. A plurality of connecting terminals is received in the insulating housing. The metal shell coupled with the insulating housing has a covering plate and two lateral plates extending downwards from two opposite sides of the covering plate. A front edge of the covering plate has at least one first mating portion of L shape of which a bottom is received in the receiving recess. A bottom of the lateral plate curves inwards to form a resistive portion resting against the propping portion for forming a chamber for receiving the SIM card. | 09-16-2010 |
20120021646 | ELECTRICAL CONNECTOR - An electrical connector includes a first insulating body having a base board and a tongue board extending rearward from the base board, and a second insulating body having a base portion and fingers extending forward from the base portion. Two opposite sides of the tongue board protrude upward to form two clipping walls and oppositely protrude outward to form two restraining portions spaced from the clipping walls. A receiving space is formed among the tongue board, the base board and the clipping walls for receiving the second insulating body therein. The base portion is clipped between the clipping walls. Front ends of the fingers prop against the base board. Each side surface of the base portion defines an elastic arm having a top connected with the side surface and a bottom beyond a bottom surface of the base portion to be restrained between the restraining portion and the clipping wall. | 01-26-2012 |
20120021647 | MINIATURIZED ELECTRICAL CONNECTOR HAVING HIGH SIGNAL TRANSMISSION RATE - An electrical connector includes a first insulating body having a base board and a first tongue board extending rearward from a bottom of the base board, first terminals each having a first contact portion disposed on the base board, a second insulating body having a base portion and a second tongue board extending forward from a bottom of the base portion, and second terminals each having a second contact portion stretching out of a front of the base portion and disposed above the second tongue board. Two opposite sides of the first tongue board protrude upward to form two clipping walls defining a receiving space therebetween. The second insulating body is received in the receiving space of the first insulating body with the base portion being clipped between the clipping walls and a front end of the second tongue board abutting against a rear end of the base board. | 01-26-2012 |