Abstract: A multi-layer yarn structure and a method for making the same are provided. The multi-layer yarn structure includes a core layer, a layer of noncircular fibers, and an outer layer. The core layer has a plurality of hydrophobic fibers. The noncircular fibers surround the core layer to form a middle layer. The outer layer surrounds the middle layer and has a plurality of hydrophilic fibers. The method spins different fibers into multi-layer yarn for making textile with a soft, smooth, and thick feel. By utilizing inherent characteristics of the multi-layer yarn structure, the textile may regulate moisture released from the human body and keep the body dry and comfort.

Abstract: Provided is an electrical connector, including a case, a plurality of contacts and a magnetic unit. The case has a receiving cavity and formed by mounting a first shell, a second shell and a third shell. The second shell is mounted on the front of the first shell, and the third shell is mounted on the above of the first and second shells. The contacts are inserted into the case from the second shell, and pass through the receiving cavity to extend out of the first shell. Rear ends of the contacts are held by and soldered on the solder-assist pieces. The magnetic unit includes at least two magnetic bodies separately located on the upside and downside of the contacts, so that efficiently using the inside space of the electrical connector, increasing the size of the magnetic unit and enhancing the magnetic attraction.

Abstract: An energy-saving socket includes a housing, at least one control switch, and at least one LED (Light-Emitting Diode) indicator. The housing receives therein an electrical circuit. The electrical circuit includes at least one set of electrical receptacles and one set of external power connection terminal. The housing forms at least one set of through holes corresponding to the electrical receptacles and a slot located close to the through holes. The control switch is associated with at least one set of the electrical receptacles and includes a switching pivot structure and a depression structure. The switching pivot structure is arranged inside the housing in engagement with the electrical circuit. The depression structure straddles the switching pivot and includes a pushbutton exposed through the slot. The LED indicator is received through a wall of the housing to be fixed inside the housing and is electrically connected to the electrical circuit and the control switch.

Abstract: Disclosed is a card connector, which includes an insulative body, a plurality of the conductive terminals, a metal shell and a supporting plate. The insulative body has a main body in which a plurality of terminal slots is defined. The conductive terminals are respectively received in the terminal slot. The metal shell covers the insulative body and defines a receiving space therebetween. The supporting plate is movably disposed in the receiving space. The supporting plate has a swingable connecting portion. The front substrate can swing up and down relative to the rear substrate through the design of the supporting plate and the swingable connecting portion, so that the electronic card can be easily inserted into and ejected from the card connector without being damaged, thereby prolong the service life of the electronic card.

Abstract: Disclosed is a mold having sliders, comprising a fixed half, an angle pin, a slider pushing element, a moving half, a main block, a driving block and a sub-block. The angle pin comprises an angle pin body; the slider pushing element has a push face and a pull back face; the main block is installed on the moving half and driven by the angle pin body; the driving block is installed on the main block and has a driving face in accordance with the push face, and a push slope and a pull slope are formed at the other end; the sub-block is slidably installed on the main block and has a push out face in accordance with the push slope, the sub-block can be driven by the push slope and driven by the pull slope to be initialized. The present invention can simplify the complicated structure of a mold.

Abstract: A mold for making a product having a barbed structure at an intermediate position thereof has a stationary mold including a fixing board, a mold board, a core, an oblique block, a limiting element, and an elastic element. The mold board has a trough and a limiting chute. The core has a cavity and a slide chute. The oblique block having a hole communicating the cavity is movably disposed in the slide chute. An end of the block is extendable out of the cavity and an opposite end forms an accommodating hole. The limiting element includes a limiting end extending into the accommodating hole and a fixing end movably disposed in the limiting chute. The elastic element of which one end is against the accommodating hole and an opposite end is set against the trough is disposed in the accommodating hole.

Abstract: An automatic soldering system includes a conveyance mechanism, a vehicle, a first part assembling mechanism, a first soldering mechanism, a turn-over mechanism, a second part assembling mechanism, a second soldering mechanism, and a control system. The vehicle is conveyed by the conveyor mechanism for carrying a workpiece. The first part assembling mechanism and the first soldering mechanism assemble and solder a first part to the primary workpiece carried by the vehicle. The turn-over mechanism turns the vehicle that is conveyed by the conveyor mechanism and carries the primary workpiece having the first part assembled thereto by a predetermined angle. The second part assembling mechanism and the second soldering mechanism assemble and solder and position a second part to the primary workpiece. The control system is electrically connected to and thus controls the first part and second part assembling mechanisms, the first and second soldering mechanisms, and the turn-over mechanism.