Patent application number | Description | Published |
20110023666 | FAST SCREWDRIVER BLADE CONNECTING STRUCTURE - A fast screwdriver connecting apparatus includes an elongated rod body, a first resilient unit, a second resilient unit, a movable inner tube and a hollow tube an inner portion of the elongated rod body has a plugging trough. A ring is extended from the plugging trough to form an arc ring slot, and a wedging groove with an opening to engage a wedging ring. A connecting element receives a steel ball, and the second resilient unit and the hollow tube are coupled to the connecting element. A circular slot of the hollow tube is aligned with the retracting hole, and a wedging slot is formed where the movable inner tube is aligned with inner wall of the elongated rod. Different sizes of screwdriver blades can be replaced from the elongated rod body to push against the resilient units, and the steel ball rolls into the wedging slot. | 02-03-2011 |
20110049816 | Quick connecting device structure - A quick connecting device structure comprises a shaft body defined by a proper-length external ring guiding section with two restricting surfaces for the abutment of front and rear movement rings to clamp a spring element there-between. The shaft body also includes a storing socket with an external assembly portion at one end, and an extensible bore drilled at the other end for the accommodation of a steel ball. A cylindrical sleeve has an end defined by an internal stepwise abutment ringed surface and a coupling cavity, and the other end having first and second annular insert grooves. A stop collar fitted to the coupling cavity provides another abutment ringed surface. The two abutment ringed surfaces can bi-directionally press at the front or rear movement ring with the spring element respectively, forming a two-way pressing-and-bouncing operation. Thus, a driver shank can be easily slid in/out for quick installment or replacement thereof. | 03-03-2011 |
Patent application number | Description | Published |
20130114986 | PAPER-FEEDING DEVICE AND MULTI-FUNCTION PRINTER - A paper-feeding device and a multi-function printer (MFP) using the paper-feeding device are provided. The MFP includes a housing with the paper-feeding device installed thereon. The paper-feeding device includes an outer case, an inner case and a retainer. The outer case has first side-walls, openings and slots, in which each opening and each slot on the opening are correspondingly disposed on each first side-wall. The inner case is located beside the first side-walls of the outer case and has a second side-wall. The second side-wall has a position-limiting rib protruding towards the first side-walls. The retainer is located between the first side-walls and has a body, a protrusion and a pivot, in which the protrusion is disposed at a top-portion of the body and correspondingly located in the slots, and the pivot is located between the protrusion and a retaining-portion of the body and correspondingly locked in the openings. | 05-09-2013 |
20130134647 | AUTOMATIC DOCUMENT FEEDING DEVICE, MULTI-FUNCTION PERIPHERAL AND OPERATING METHOD AND AUTOMATIC DOCUMENT FEEDING METHOD OF THE SAME - An automatic document feeding device (ADF) suited for being configured in a body of an apparatus is provided. The apparatus has a first and second power sources to drive the ADF to transmit a paper in or out of the body. The ADF includes a limiting structure with a limiting space, a swinging member and a blocking member. The first and second power sources drive the limiting structure and the swinging member to swing respectively. The blocking member has a first end connected to the swinging member and a second end extending toward the limiting structure. When the limiting structure is at a second position and the swinging member swings toward a third position, the second end is trapped into the limiting space. When the limiting structure moves toward a first position and the swinging member swings toward the third position, the second end escapes from the limiting space. | 05-30-2013 |
20130134650 | STOPPER, PAPER FEEDING DEVICE AND MULTI-FUNCTION PRINTER - A stopper, a paper feeding device including an inner and outer cases, a first and second axels, a first and second rollers, a pair of stoppers and a tray, and a multi-function printer are provided. The outer case has two side walls and two protrusions disposed on the side walls. The inner case is between the two side walls. The first axel pivots the inner case and the side walls. The first roller covers the first axel. The stoppers are disposed at outer side of the side walls, wherein each of the stoppers has a C-ring, a connecting portion and a stopping portion. Each C-ring pivoted to the first axel has a first and second ends, and the protrusions prop against to the first ends. The second axel pivots the inner case, and the second roller covers the second axel. The tray is disposed below the first roller. | 05-30-2013 |
20130134652 | MULTI-FUNCTION PERIPHERAL - A multi-function peripheral (MFP) suited for printing/scanning a paper or a business card is provided. The MFP includes a body and a printing/scanning unit, a feeding roller, and a plurality of idle rollers disposed in the body. The body has a feeding path that the printing/scanning unit, the feeding roller, and the idle rollers are located thereon. The printing/scanning unit used for printing/scanning the paper or the business card on the feeding path. The idle rollers lean against the feeding roller respectively. A path length between two leaning points of any two adjacent idle rollers contacting the feeding roller is shorter than a size of the business card. | 05-30-2013 |
20130193634 | MULTI-FUNCTION PERIPHERAL - A multi-function peripheral having an automatic document feeding device (ADF) suited for being configured in a body of an apparatus is provided. The apparatus has a first and second power sources to drive the ADF to transmit a paper in or out of the body. The ADF includes a limiting structure, a swinging member and a blocking member. The first and second power sources drive the limiting structure and the swinging member to swing respectively. The blocking member has a first end connected to the swinging member and a second end extending toward the limiting structure. When the limiting structure is at a second position and the swinging member swings toward a third position, the second end is trapped into the limiting space. When the limiting structure moves toward a first position and the swinging member swings toward the third position, the second end escapes from the limiting space. | 08-01-2013 |
20130328259 | MULTI-FUNCTION PERIPHERAL WITH JOINING GEAR - A multi-function peripheral having an automatic document feeding device (ADF) suited for being configured in a body of an apparatus is provided. The apparatus has a first and second power sources to drive the ADF to transmit a paper in or out of the body. The ADF includes a limiting structure, a swinging member and a blocking member. The first and second power sources drive the limiting structure and the swinging member to swing respectively. The blocking member has a first end connected to the swinging member and a second end extending toward the limiting structure. When the limiting structure is at a second position and the swinging member swings toward a third position, the second end is trapped into the limiting space. When the limiting structure moves toward a first position and the swinging member swings toward the third position, the second end escapes from the limiting space. | 12-12-2013 |
20130334011 | MULTI-FUNCTION PERIPHERAL WITH LINKING SET - A multi-function peripheral having an automatic document feeding device (ADF) suited for being configured in a body of an apparatus is provided. The apparatus has a first and second power sources to drive the ADF to transmit a paper in or out of the body. The ADF includes a limiting structure, a swinging member and a blocking member. The first and second power sources drive the limiting structure and the swinging member to swing respectively. The blocking member has a first end connected to the swinging member and a second end extending toward the limiting structure. When the limiting structure is at a second position and the swinging member swings toward a third position, the second end is trapped into the limiting space. When the limiting structure moves toward a first position and the swinging member swings toward the third position, the second end escapes from the limiting space. | 12-19-2013 |
Patent application number | Description | Published |
20080274631 | SATA data connector - A SATA data connector is provided, which is with a power supply circuit. Accordingly, the SATA data connector comprises a male data connector and a female data connector. The male data connector is with a male signal interface that has seven male data connection pins, wherein the male data connection pins consist of four data pins, a power supplying pin, and two ground pins, wherein the power supplying pin connects with a power line of a circuit board. Corresponding to the male data connector, the female data connector is with a female signal interface that has seven female data connection pins as well, wherein the female data connection pins consist of four data pins, a power receiving pin, and two ground pins. While the female data connector is connecting to the male data connector, the power receiving pin is going to contact the power supplying pin, and an operating power can be supplied from the power line of the circuit board to an applied device connected with the female data connector via the power supplying pin of the male data connector, such that the SATA data connector can work without an external SATA power cable, and the amount and volume of the cable can be reduced. | 11-06-2008 |
20090298313 | SATA data connector - A SATA data connector is provided, which is with a power supply circuit. Accordingly, the SATA data connector comprises a male data connector and a female data connector. The male data connector is with a male signal interface that has seven male data connection pins, wherein the male data connection pins consist of four data pins, a power supplying pin, and two ground pins, wherein the power supplying pin connects with a power line of a circuit board. Corresponding to the male data connector, the female data connector is with a female signal interface that has seven female data connection pins as well, wherein the female data connection pins consist of four data pins, a power receiving pin, and two ground pins. While the female data connector is connecting to the male data connector, the power receiving pin is going to contact the power supplying pin, and an operating power can be supplied from the power line of the circuit board to an applied device connected with the female data connector via the power supplying pin of the male data connector, such that the SATA data connector can work without an external SATA power cable, and the amount and volume of the cable can be reduced. | 12-03-2009 |
20100268858 | SATA data connection device with raised reliability - There is disclosed a data connection device, particularly to a SATA data connection device with raised plug-in stability and reliability. The SATA data connection device mainly comprises a SATA data connection seat and a SATA component terminal. A seat body of the SATA data connection seat is provided therein with a slot. On each of two short perimeters of the seat body, there is additionally provided a laterally extending support frame having a snap-fit groove. Moreover, a shell layer of the SATA component terminal is additionally provided at the lower edge of each of two short perimeters thereof with a snap fitting. A snap hook, which may be pressed to tilt, is provided at the bottom end of the snap fitting. When a SATA data connector of the SATA component terminal is insertedly connected into the slot of the SATA data connection seat, the snap hook of the snap fitting may be also snapped into the snap-fit groove. Thus, not only the plug-in stability and reliability of the data connection device may be enhanced significantly, but also the accuracy of high-speed data transmission may be assured. | 10-21-2010 |