Abstract: A system for feeding a diaphragm includes a diaphragm separating device adapted to separate a diaphragm from a stack of diaphragms, a first visual device adapted to identify the diaphragm separated from the stack of diaphragms and a position of the diaphragm, a robot adapted to pick up the diaphragm separated from the stack of diaphragms under guidance of the first visual device, and a second visual device adapted to check whether the diaphragm picked up by the robot is a single diaphragm.

Abstract: An ultrasonic cleaning system comprises a cleaning tank containing a cleaning liquid, a moving and holding device configured to move a carrier into the cleaning tank and hold the carrier in the cleaning tank, and an ultrasonic wave generator mounted in the cleaning tank. A plurality of fiber optic ferrules are mounted on the carrier and are immersed in the cleaning liquid when the moving and holding device holds the carrier in the cleaning tank. The ultrasonic wave generator is adapted to emit an ultrasonic wave into the cleaning liquid to clean the fiber optical ferrules immersed in the cleaning liquid.

Abstract: A system for feeding a diaphragm comprises a diaphragm separating device adapted to separate a single diaphragm from a stack of diaphragms and a visual device adapted to identify the single diaphragm and a position of the single diaphragm separated from the stack.

Abstract: An integrated equipment for processing a plurality of fiber optic ferrules comprises a polishing system, a ferrule cleaning system, a drying system, a wiping system, and a robot system. The polishing system polishes a plurality of front end faces of the plurality of fiber optic ferrules mounted on a carrier. The ferrule cleaning system cleans the carrier and the fiber optic ferrules on the carrier after the fiber optic ferrules have been polished. The drying system dries the carrier and the fiber optic ferrules on the carrier after the carrier and the fiber optic ferrules have been cleaned. The wiping system wipes the front end faces of the fiber optic ferrules on the carrier after the carrier and the fiber optic ferrules have been dried. The robot system transfers the carrier to the polishing system, the ferrule cleaning system, the drying system, and the wiping system.

Abstract: A cleaning system comprises a first cleaning tank, a carrying and moving unit, a first cleaning spray head, and a rolling brush unit. The carrying and moving unit is configured to move a polishing film to be cleaned into the first cleaning tank and hold the polishing film in the first cleaning tank. The first cleaning spray head is configured to spray a cleaning liquid on the polishing film held in the first cleaning tank. The rolling brush unit is configured to brush the polishing film while the first cleaning spray head sprays the cleaning liquid on the polishing film.

Abstract: A robot assembling system for assembling a multi-layer cage comprises a first assembling workstation, a second assembling workstation, a third assembling workstation, and a robot. The multi-layer cage includes a bottom case, a top case, a partition plate, and a partition assembly. The first assembling workstation assembles the partition plate and the partition assembly to form a partition device. The second assembling workstation assembles the partition device and the top case to form a top case assembly. The third assembling workstation assembles the top case assembly and the bottom case to form the multi-layer cage. The robot transmits the bottom case, the top case, the partition plate, the partition assembly, the partition device, or the top case assembly between the workstations. The robot assists an assembly process at each of the workstations.

Abstract: A system for feeding a diaphragm includes a diaphragm separating device adapted to separate a diaphragm from a stack of diaphragms, a first visual device adapted to identify the diaphragm separated from the stack of diaphragms and a position of the diaphragm, a robot adapted to pick up the diaphragm separated from the stack of diaphragms under guidance of the first visual device, and a second visual device adapted to check whether the diaphragm picked up by the robot is a single diaphragm.

Abstract: A system for feeding a diaphragm comprises a diaphragm separating device adapted to separate a single diaphragm from a stack of diaphragms and a visual device adapted to identify the single diaphragm and a position of the single diaphragm separated from the stack.

Abstract: A robot assembling system for assembling a multi-layer cage comprises a first assembling workstation, a second assembling workstation, a third assembling workstation, and a robot. The multi-layer cage includes a bottom case, a top case, a partition plate, and a partition assembly. The first assembling workstation assembles the partition plate and the partition assembly to form a partition device. The second assembling workstation assembles the partition device and the top case to form a top case assembly. The third assembling workstation assembles the top case assembly and the bottom case to form the multi-layer cage. The robot transmits the bottom case, the top case, the partition plate, the partition assembly, the partition device, or the top case assembly between the workstations. The robot assists an assembly process at each of the workstations.

Abstract: A wiping system comprises a support table, a conveying unit configured to convey a wiping belt onto the support table, a carrier holding device configured to hold a carrier on which a plurality of fiber optic ferrules are mounted, a carrier pressing device configured to press the carrier on the support table with a plurality of front end faces of the fiber optic ferrules in direct contact with the wiping belt, and a first base on which the support table is mounted. The carrier holding device and the carrier pressing device are slidably mounted on the first base. The carrier pressed on the support table is movable back and forth relative to the support table in a first horizontal direction while the front end faces of the fiber optic ferrules remain in direct contact with the wiping belt.

Abstract: A wiping system comprises a support table, a conveying unit configured to convey a wiping belt onto the support table, a carrier holding device configured to hold a carrier on which a plurality of fiber optic ferrules are mounted, a carrier pressing device configured to press the carrier on the support table with a plurality of front end faces of the fiber optic ferrules in direct contact with the wiping belt, and a first base on which the support table is mounted. The carrier holding device and the carrier pressing device are slidably mounted on the first base. The carrier pressed on the support table is movable back and forth relative to the support table in a first horizontal direction while the front end faces of the fiber optic ferrules remain in direct contact with the wiping belt.

Abstract: An ultrasonic cleaning system comprises a cleaning tank containing a cleaning liquid, a moving and holding device configured to move a carrier into the cleaning tank and hold the carrier in the cleaning tank, and an ultrasonic wave generator mounted in the cleaning tank. A plurality of fiber optic ferrules are mounted on the carrier and are immersed in the cleaning liquid when the moving and holding device holds the carrier in the cleaning tank. The ultrasonic wave generator is adapted to emit an ultrasonic wave into the cleaning liquid to clean the fiber optical ferrules immersed in the cleaning liquid.

Abstract: A cleaning system comprises a first cleaning tank, a carrying and moving unit, a first cleaning spray head, and a rolling brush unit. The carrying and moving unit is configured to move a polishing film to be cleaned into the first cleaning tank and hold the polishing film in the first cleaning tank. The first cleaning spray head is configured to spray a cleaning liquid on the polishing film held in the first cleaning tank. The rolling brush unit is configured to brush the polishing film while the first cleaning spray head sprays the cleaning liquid on the polishing film.

Abstract: An integrated equipment for processing a plurality of fiber optic ferrules comprises a polishing system, a ferrule cleaning system, a drying system, a wiping system, and a robot system. The polishing system polishes a plurality of front end faces of the plurality of fiber optic ferrules mounted on a carrier. The ferrule cleaning system cleans the carrier and the fiber optic ferrules on the carrier after the fiber optic ferrules have been polished. The drying system dries the carrier and the fiber optic ferrules on the carrier after the carrier and the fiber optic ferrules have been cleaned. The wiping system wipes the front end faces of the fiber optic ferrules on the carrier after the carrier and the fiber optic ferrules have been dried. The robot system transfers the carrier to the polishing system, the ferrule cleaning system, the drying system, and the wiping system.

Abstract: A method of forming a terminating end of a cable, comprising the steps of: providing a cable; cutting a circumferential slit through an outer insulation layer; clamping a first section of the outer insulation layer with a first clamping device, and clamping a second section of the outer insulation layer with a second clamping device; displacing the first clamping device, separating the first section from the second section and exposing a section of a metal braid; displacing the first clamping device; pushing and pressing the exposed section to fold the exposed section into a braid protrusion portion; loosening the first and second clamping devices, and removing the cable from the first and second clamping devices; cutting the braid protrusion portion with a cutting device to form a protruding braid portion, the protruding braid portion; and removing the first section of the outer insulation layer and a first protruding braid portion.