Abstract: An online thickness detection platform having a first laser sensor and a second laser sensor that detect a thickness of a product passing between the first arm and the second arm of a C-type frame on which the first laser sensor and a second laser sensor, respectively are adjustably mounted. The first laser sensor and the second laser sensor do not contact the product during detecting the thickness of the product. Because the thickness of the product is detected online, the thickness of the product is monitored in real-time. When the thickness of the product exceeds or falls below an allowed value range, production of the product is stopped, thereby avoiding producing a large number of unqualified products with a thickness out of the allowed value range and waste is prevented.

Abstract: A chip sorting and packaging platform comprises a supply module, a sorting module, and a packaging module. The supply module is adapted to feed a plurality of chips. The sorting module is configured to pick up the chips fed by the supply module and to determine whether each of the chips is qualified. The packaging module is configured to package qualified chips of the chips sorted by the sorting module.

Abstract: A positioning device that has a support table, two pairs of sliding blocks slidably mounted in the support table, a positioning plate extending vertically at the top of each sliding block, a base on which the support table is supported, a cylinder in the base, a ball in the cylinder, a piston rod slidably mounted in the cylinder and pushing the ball to move upward in a vertical direction, so that the ball drives the two pairs of sliding blocks to move away from each other in the first horizontal direction and the second horizontal direction, respectively, until the positioning plates of the two pairs of sliding blocks abut against four inner walls of the opening of the circuit board, respectively, to allow the electronic device to be received in a positioning slot defined by the positioning plates, and a release mechanism that drives the piston rod to move downward in the vertical direction to allow the two pairs of sliding blocks to be moved toward each other in the first horizontal direction and the second

Abstract: A positioning device including a support tab, two pairs of sliding blocks slidably mounted in the support table, a positioning plate extending vertically from on a top of each sliding block, a base on which the support table is supported, a cylinder installed in a chamber of the base, a ball received in the cylinder, a piston rod slidably mounted in the cylinder that pushes the ball to move upward in a vertical direction, so that the ball drives the two pairs of sliding blocks to move away from each other in the first horizontal direction and the second horizontal direction, respectively, until the positioning plates of the two pairs of sliding blocks abut against four inner walls of the opening of the circuit board, respectively, to allow the electronic device to be received in a positioning slot defined by the positioning plates, and a release mechanism that drives the ball to move downward to allow the two pairs of sliding blocks to be moved toward each other in the first horizontal direction and the secon

Abstract: An automatic component loading system is disclosed. The automatic component loading system has a loading device, a conveying device having a plurality of first pin receiving slots and a plurality of first component receiving trays positioned around a circumference of the conveying device, and a position correcting device having at least one pin that corresponds with the plurality of first pin receiving slots.

Abstract: A contact bending unit comprises a frame and a bending tool pivotally mounted on the frame. The bending tool has a row of receiving slots formed in a bottom surface of the bending tool receiving a plurality of contacts. The bending tool bends the contacts when the bending tool is rotated.

Abstract: A wire processing apparatus comprises a frame, a clamping device mounted on the frame and adapted to clamp a wire to be processed, and a straightening and cutting device mounted on the frame. The straightening and cutting device is adapted to press a conductor of the wire into a straight shape and cut the conductor to a predetermined length after pressing.

Abstract: An automatic injection system for injecting an adhesive into a plurality of bores of a multi-bore ferrule comprises an injector, a first clamp holding the ferrule at a first adhesive injection station, and a second clamp holding the ferrule at a second adhesive injection station. The injector injects the adhesive into an injection opening in the ferrule. A plurality of optical fibers are not disposed in the bores of the ferrule and the injector injects the adhesive into the ferrule until the bores are fully filled with the adhesive at the first adhesive injection station. The optical fibers are disposed in the bores of the ferrule filled with the adhesive and the injector again injects the adhesive into the ferrule at the second adhesive station to compensate for a loss of adhesive during an insertion of the optical fibers into the bores.

Abstract: An automatic injection system for injecting an adhesive into a plurality of bores of a multi-bore ferrule comprises an injector, a first clamp holding the ferrule at a first adhesive injection station, and a second clamp holding the ferrule at a second adhesive injection station. The injector injects the adhesive into an injection opening in the ferrule. A plurality of optical fibers are not disposed in the bores of the ferrule and the injector injects the adhesive into the ferrule until the bores are fully filled with the adhesive at the first adhesive injection station. The optical fibers are disposed in the bores of the ferrule filled with the adhesive and the injector again injects the adhesive into the ferrule at the second adhesive station to compensate for a loss of adhesive during an insertion of the optical fibers into the bores.

Abstract: An automatic fiber cleaning system comprises a first cleaning module, a second cleaning module, and a sprayer. Each of the first cleaning module and the second cleaning module has a cleaning belt, a driven belt wheel on which an unused portion of the cleaning belt is wound, a driving belt wheel on which a used portion of the cleaning belt is wound, and a pressing tool on which the cleaning belt is tightened. The sprayer sprays a cleaning agent onto the cleaning belts. The pressing tools press the cleaning belts on both sides of an optical fiber and clamp the optical fiber. The cleaning belts move relative to the optical fiber by the driving belt wheels to wipe the optical fiber.

Abstract: An automatic fiber stripping system comprises a first stripping module, a second stripping module, and a heating device. The first stripping module and the second stripping module each have a stripping belt, a driven belt wheel, a driving belt wheel, and a stripping tool including a pressing portion. The stripping belts are tightened on the pressing portions and the stripping tools press the stripping belts on each of two opposite sides of an optical cable. A blade portion of one of the stripping tools cuts a notch in at least one of two side edges of an outer coating layer of the optical cable. The heating device heats and softens the outer coating layer of the optical cable. The stripping belts are driven to move relative to the optical cable by the driving belt wheels so as to strip off a segment of the outer coating layer from the notch.

Abstract: A thickness detection experiment platform, including: a motion simulation module adapted to drive a product to be detected to perform a predetermined simulation motion simulating various motions of the product on an actual production line and a thickness detection module adapted to detect a thickness of the product driven by the motion simulation module. The motion simulation module may drive the product to be detected to simulate various motions of the product on the actual production line. Thus, conditions of the product on the actual production line may be simulated and reproduced in the laboratory. As a result, the thickness detection experiment platform may be debugged offline in the laboratory without debugging online, normal production of the actual production line is not affected, and debugging of the thickness detection experiment platform becomes easier.

Abstract: An online thickness detection platform having a first laser sensor and a second laser sensor that detect a thickness of a product passing between the first arm and the second arm of a C-type frame on which the first laser sensor and a second laser sensor, respectively are adjustably mounted. The first laser sensor and the second laser sensor do not contact the product during detecting the thickness of the product. Because the thickness of the product is detected online, the thickness of the product is monitored in real-time. When the thickness of the product exceeds or falls below an allowed value range, production of the product is stopped, thereby avoiding producing a large number of unqualified products with a thickness out of the allowed value range and waste is prevented.

Abstract: A component sorting mechanism is disclosed. The component sorting mechanism includes a vibrating plate, a feeding tray having a plurality of grooves in an inner bottom surface thereof, the feeding tray mounted on the vibrating plate, and a first driving device connected to the feeding tray. The first driving device drives the feeding tray to swing within a predetermined angle range.

Abstract: A contact bending unit comprises a frame and a bending tool pivotally mounted on the frame. The bending tool has a row of receiving slots formed in a bottom surface of the bending tool receiving a plurality of contacts. The bending tool bends the contacts when the bending tool is rotated.

Abstract: A welding system for welding a first elongated element and a second elongated element together by a laser beam that is emitted from a laser welding head after the ideal welding center point of the aligned first and second elongated elements has been positioned at a focal point of the laser beam that is emitted from the laser welding head.

Abstract: A terminal bending tool comprises a plate, a plurality of receiving grooves, and a plurality of rollers. The plate extends in a first horizontal direction. The receiving grooves are disposed in the plate in a row along the first horizontal direction. The rollers are pivotally mounted in the receiving grooves. A terminal is received and positioned in a first receiving groove and is in contact with an outer circumferential surface of a first roller. When the terminal bending tool is moved in a vertical direction perpendicular to the first horizontal direction, the first roller rotates and moves along a surface of the terminal while pressing and bending the terminal.

Abstract: A pre-tin shaping system is disclosed. The pre-tin shaping system comprises a base securely holding a circuit board having a pre-tin layer, a heat-press unit having a contact tip, and a movable unit moving the heat-press unit relative to the base. The contact tip is movable to shape the pre-tin layer.

Abstract: A programmable digital machine vision inspection system is disclosed having a programmable automatic feeding system that supplies elements to be inspected, a programmable robot system, a programmable inspection system, a qualified product receiving container, and an unqualified product receiving container. The programmable robot system has a first vision system with an inspection area, and a robot that grips the supplied element and moves the gripped element to and from the inspection area. The programmable inspection system has a second vision system that identifies features of the elements in the inspection area, and determines whether the element is a qualified product based on the identified features. The qualified product receiving container receives identified qualified products from the robot, and the unqualified product receiving container that receives identified unqualified products from the robot.

Abstract: An automatic component loading system is disclosed. The automatic component loading system has a loading device, a conveying device having a plurality of first pin receiving slots and a plurality of first component receiving trays positioned around a circumference of the conveying device, and a position correcting device having at least one pin that corresponds with the plurality of first pin receiving slots.