Patent application number | Description | Published |
20120105986 | HOUSING STRUCTURE FOR MINIATURE LENS FOCUS MODULE - A housing structure for miniature lens focus module has a top portion formed into a stepped structure, that is, the housing has a size-reduced topmost portion relative to the rest rear portion thereof and has a shoulder portion formed therein, so that a plate-shaped spring element for holding a lens holder can be directly connected to the shoulder portion in the housing to keep away from the topmost portion of the housing by a predetermined distance and define an operation space between the shoulder portion and the topmost portion, allowing the lens holder and accordingly a lens held thereto to axially linearly move within the operation space to focus light. The spacer provided in the prior art lens focus module can be omitted to reduce the cost and the assembling procedures of the lens focus module. | 05-03-2012 |
20120120510 | MAGNET HOLDING STRUCTURE OF AUTO-FOCUS MODULE - A magnet holding structure of auto-focus module includes an outer frame for holding four magnets to four inner wall surfaces of the outer frame; a lens holder for holding a lens thereto and being assembled to the outer frame via at least one spring member; and a winding fitted around the lens holder for driving the lens holder to axially move forward or rearward to focus automatically. The outer frame is provided at each of four inner corners with an inverted L-shaped plate extending downward from a top of the outer frame to locate between the lens holder and the winding, so as to face toward four spaces respectively existing between two adjacent magnets outside the winding. With these arrangements, the electromagnetic field produced by the winding can have enhanced magnetic efficiency and increased driving force at the corners of the winding to achieve the purpose of power saving. | 05-17-2012 |
20140049847 | LENS FOCUSING DEVICE - A lens focusing device includes a lens holder for holding a lens therein, a base, and an electrically conductive spring member elastically connected to between the lens holder and the base. The base is provided on a side wall with two terminal recesses, in which two connecting terminals are disposed. The connecting terminals respectively include a first terminal portion forward extended along a light axis to electrically connect to the spring member, a second terminal portion rearward extended along the light axis, and a connecting portion located between the first and the second terminal portion. The spring member is further electrically connected to two ends of a winding wound around the lens holder, so that external electric current can be supplied to the winding via the connecting terminals and the spring member for driving the lens holder to move relative to the base along the light axis. | 02-20-2014 |
20140049848 | LENS FOCUSING DEVICE - A lens focusing device includes a lens holder, a winding fitted around the lens holder, and an outer case enclosing the lens holder therein. The outer case includes an outer wall portion, and multiple inner wall portions connected to the outer wall portion via multiple connecting portions. The inner wall portions are located between the lens holder and the winding, and respectively include an inner surface, an outer surface, and a first and a second side surface. The lens holder is formed on an outer face with confining areas, each of which includes a main surface and a first and a second raised side surface respectively facing against the inner surface and the first and second side surfaces, so that the inner wall portions are limited to move relative to the lens holder only within the confining areas. Therefore, the lens focusing device is impact-resistant and undue-twisting protected. | 02-20-2014 |
20150043093 | BASE STRUCTURE OF LENS-FOCUSING MECHANISM AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a base structure of lens-focusing mechanism first prepares a conductive member having at least two conductive parts, interconnection part, contacts and two conductive pins. The conductive parts have proximity ends separated and staggered to each other. An insulating base is formed by injection molding and encapsulates the conductive member wherein the conductive pins, the interconnection part and the contacts are exposed out of the insulating base. The interconnection part is cut and then a spring member is mounted to the insulating base and electrically connected to the conductive pins through the contacts. The present invention can solve the problem of difficulty in assembling conductive pins and connecting the spring member for the insulating base. The conductive member is arranged within the insulating base such that plastic material can be saved, the flatness, the stability and the anti-damage ability of base can be enhanced. | 02-12-2015 |
20160028297 | ELECTROMAGNETIC DRIVING MODULE AND LENS DEVICE USING THE SAME - An electromagnetic driving module includes an upper housing, a lower housing, a circuit board, a base, a wiring assembly, and a magnetic element. The upper housing is connected to the lower housing. The circuit board is fixed on the upper housing. The base is disposed in a space defined by the upper housing and the lower housing. The wiring assembly is disposed on the base. The magnetic element corresponds to the wiring assembly and is disposed on the upper housing. | 01-28-2016 |
Patent application number | Description | Published |
20120117794 | SURFACE MOUNT MACHINE NOZZLE - An exemplary surface mount machine nozzle includes a mounting element, a pneumatic suction nozzle and a fixing pin. The mounting element defines one of a pivot hole and an elongated perforation in a sidewall thereof. The pneumatic suction nozzle defines another one of the pivot hole and the elongated perforation therein. The fixing pin horizontally extends through the pivot hole and the perforation for connecting the mounting element and the pneumatic suction nozzle together. The fixing pin is slidable along the elongated perforation such that the pneumatic suction nozzle is telescopically slidable relative to the mounting element. | 05-17-2012 |
20120125945 | SURFACE MOUNTING APPARATUS AND WINDER THEREOF - An exemplary surface mounting apparatus includes a winder, a waste tape and a feeder for discharging the waste tape towards the winder. The winder includes a pivot, a wheel rotatably mounted around the pivot, and a coil spring disposed between the pivot and the wheel. An outer end of the coil spring is connected to the wheel to rotate with the wheel, and an inner end of the coil spring is static relative to the pivot during rotation of the wheel. The waste tape is connected to the wheel of the winder. | 05-24-2012 |
20120255837 | TRANSMISSION MECHANISM AND SURFACE MOUNT DEVICE USING THE SAME - A transmission mechanism includes a feeder, a belt furling module, a tension maintaining module, and a carrier belt. The tension maintaining module and the belt furling module are positioned on the feeder, and the carrier belt runs along the feeder, the tension maintaining module, and the belt furling module in that order. The tension maintaining module includes a base, a pivot shaft slidably positioned on the base, and an elastic member sleeved on the pivot shaft. When the carrier belt relaxes, the elastic member releases its compression force to drive the pivot shaft to move away relative to the base, thereby maintaining the tension force of the carrier belt. The disclosure also provides a surface mount device using the transmission mechanism, which reduces the likelihood of the carrier belt breaking or jamming, thereby promoting improved precision and yield rate of the surface mounted equipment. | 10-11-2012 |
20130276992 | FEEDER - A feeder capable of transferring and separating an adhesive component from a tap, includes a frame, a driven capstan device, a separating device, and a drive device. The driven capstan device is mounted to the frame. The separating device is mounted to the frame to separate the adhesive component from the tap. The drive device drives the tap to unwind from the driven capstan and transfer to the separating device to enable the separating device to separate the adhesive component. | 10-24-2013 |
20130284380 | FEEDER - A feeder capable of transferring and separating an adhesive component on a tap, includes a frame, a separator, and a drive device. The frame has a top portion for supporting the tap. The separator is mounted to the frame to separate the adhesive component from the tap when the tap passes through the separator. The drive device drives the tap to pass through the separator. | 10-31-2013 |