Abstract: Disclosed is a plastic injection mold, comprising a female mold, a male mold corresponding to the female, an inclined pushing mechanism, a parting lock and a puller. The female mold comprises an accepting space. The inclined pushing mechanism comprises an inclined pusher and an inclined pushing seat, which a parting lock hole and a guide rail are formed therein. The inclined pusher is installed on the guide rail. The parting lock is fixed on the male mold. The puller is fixed on female mold. As the plastic injection mold is utilized to form a product with barb, a present slide mechanism can be replaced by the inclined pushing mechanism with the parting lock and the puller. The plastic injection mold has a simple structure and can be easily designed and manufactured. Accordingly, the plastic injection mold can be utilized to manufacture the product with barb with small size.
Abstract: An injection mold for molding an insert element which includes a material belt with two belt holes formed therein and a plurality of terminals. Each terminal has a fastening portion with an inserting hole formed therein and a contact portion. The injection mold includes a male mold, a plurality of locating elements, a fastening element, a plurality of locating pieces and a female mold. The male mold has a cavity and a plurality of inserting grooves. Each locating element mounted to the male mold has a locating head extending beyond the male mold for inserting into the belt holes. The fastening element mounted to the cavity has a plurality of fastening grooves for respectively receiving the fastening portions. Each locating piece inserted into the inserting grooves has an inserting portion passing through the inserting hole and supporting the contact portion. The female mold is engaged with the male mold.
Type:
Grant
Filed:
May 24, 2010
Date of Patent:
June 5, 2012
Assignee:
Cheng Uei Precision Industry Co., Ltd.
Inventors:
Wen-Peng Gong, Xian-Yun Wang, Xiao-Ping Wu, Shih-Hsiung Ho
Abstract: A flat cable connector includes a casing, a plurality of terminals, and a pressing member. Each terminal has a fixing arm, a movable arm, and a connecting portion, the fixing arm having fixing and contact portions, the movable arm having bearing and pressing portions, and a recess formed on the fixing portion and having first and second shoulder portions. The pressing member forms a rotation shaft and a cam portion having a propping end and an actuation end, wherein the rotation shaft is pivotally disposed on the recess, the propping end props against the bearing portion whereby the pressing portion keeps a first distance from the contact portion. When the pressing member is being pressed, the actuation end rotates and props against the bearing portion whereby the pressing portion keeps a second distance from the contact portion, the second distance being shorter than the first distance.
Abstract: A storage device adapted for receiving input data which includes a plurality of data units and each data unit includes a plurality of bits, includes a statistics unit computing a difference between “0” and “1” in each bit of the data units of the input data and providing a statistic result, a calculation unit producing transferable data according to the statistic result, and a transferring unit transferring the input data into programming data according to the transferrable data and storing the programming data and the transferrable data in the storage device.
Abstract: A compact zoom lens system includes, in order from an object side to an image side along an optical axis thereof, a first lens group having positive refractive power, a second lens group having positive refractive power and a third lens group also having positive refractive power. The first lens group is stationary and includes a reflecting element for bending the optical path. The second and third lens groups are movable along the optical axis, and each of the first, second and third lens groups has at least one aspheric lens surface. When zooming from a wide-angle end to a telephoto end, the second lens group moves toward the object side and the third lens group moves toward the image side, so as to reduce the spacing between the first and second lens groups and increase the spacing between the second and third lens groups. By this specific optical configuration, the compact zoom lens system has the advantages of small size, simple structure, low cost, good reliability and better image quality.
Abstract: A flash memory device includes a cover, an electrical module, a slider and a rotatable member for driving the slider. The cover defines a receiving chamber and an opening communicating with the receiving chamber. The electrical module is slideably received in the receiving chamber and includes a circuit board and a connector port electrically connected with the circuit board. The rotatable member has a fixed axis around which the rotatable member revolves. The rotatable member includes a protrusion slideably received in a slot defined in the slider. The connector port is driven to telescopically extend through the opening by the slider which is further driven by the protrusion.
Abstract: Provided is a wiring connector, including a insulating housing, a wiring contact and a rotary push member. The insulating housing disposes a limiting portion in a receiving cavity and forms and inserting hole on the limiting portion. The wiring contact is mounted in the receiving cavity and includes a clamping portion. The rotary push member is rotatably mounted on the insulating housing and forms a through hole. The rotary push member can be rotated to make the through hole face the inserting hole. One end of the cable can be inserted into the through hole and the inserting hole and be clamped in the clamping portion. The wiring connector can clamp the cable by the clamping portion and fix the cable to the insulating housing by rotating the rotary push member, so that saving the soldering process and enhancing a reliability of connection between the wiring contact and the cable.
Abstract: An automatic wire cutting and twisting apparatus includes a chassis board on which a start-terminal mounting rack, an end-terminal mounting rack, and a mounting track are mounted. The start-terminal mounting rack opposes a start terminal of the mounting track. The end-terminal mounting rack is position-adjustably coupled to an end terminal of the mounting track. A wire cutting mechanism is mounted on the start-terminal mounting rack and forms ingress and egress for wires. A wire twisting mechanism includes start-terminal and end-terminal rotation sections respectively mounted on the start-terminal and end-terminal mounting racks. A wire dragging mechanism includes a start-terminal dragging section mounted on the chassis board and a slidable dragging section movable above the mounting track. A wire pick-up mechanism is position-adjustably mounted on the mounting track.