This automatic optical fiber tensile testing system is ideal for operator skill independent use within production and lab configurations. Two basic design designs enable the user to select between a set up for regular linear proof testing with additional mandrels for rotary high strength testing.
The linear edition is made for creation proof screening with forces up to 22 N. Motor-driven clamps with carefully developed rubber inserts ensure that the Optical Fiber Proof-Testing Machine is not damaged in the testing process while at the same time eliminating the necessity for an external air provide. Amounts of tugging force, pulling velocity and hold time are automated and conveniently offered to the operator through the built-in Liquid crystal display touch screen control. Information from assessments can be saved and accessed through the USB dock or Ethernet user interface.
Mandrels the exact same style as in NYFORS’ optical fiber recoaters can be mounted on the proof tester inside the rotary higher power settings. The fiber is covered around the two mandrels which assistance it having a unique clamping mechanism. By doing this greater loads can be employed onto the fiber, enabling breaking up strength assessments under controlled circumstances.
Adjustable clamp placement facilitates screening with the highest force levels as well as testing of brief fiber lengths. The compact and light weight style definitely makes the tool simple to maneuver in a laboratory atmosphere as well as incorporate in a production work table where space are at a premium. The machine is actually a compact and lightweight tool perfect for screening the effectiveness of optical materials approximately 30 N. The equipment is created to fulfill all kinds of programs when a power check needs to be performed.
The device was created using the user in mind. The SZ Stranding Line is easily placed in the carefully guided linear clamps, and also the testing starts automatically with a “One Touch” go button. The built-in microprocessor controls each of the essential guidelines such as pulling force, tugging speed and hold time. This permits for any completely managed test each and every time.
The machine can be connected to an external Computer, which enables usage of all programmable parameters and configurations. The equipment is adapted to face-alone use or even to the integration into different subsystems. The equipment posseses an substantial capacity for signing and saving details such as pulling force, tugging velocity and fiber size as well as other parameters.
Two recoat injector designs can be purchased. The PTR307 uses an automated water pump to inject the recoat materials. The volume of materials dispensed by the automated injector is managed by hand through the top-installed “Inject” switch or programmed to the machine making use of the tablet pc control. The PTR307B comes with a manual recoat injection system that requires an individual to manually distribute the recoat material in to the mold cavity; a substitute injector for your PTR307B recoater can be obtained below. Make sure you note the automated injector is just suitable for higher-index recoat material, while the handbook injector works with each low- and- directory recoat materials; both of them are sold separately listed below. Please contact Technology Assistance for more information.
he manual injector can be mounted to compatible Secondary Coating Line through the 4-40 anchoring screws on the recoater real estate (see photo to the right). Make use of a 3/32″ hex key to safe the injector just before use. For connecting the PTRRRM to the recoater mold, tighten up the connector at the conclusion of the eco-friendly plastic material tubes, then loosen by way of a 1/4 turn to allow for rotation.
The injector is equipped with a distribution valve and 2-place choice lever for directing the stream of recoat materials. A knurled dispensing screw with the internal plunger behaves as a syringe for your recoat materials. To fill the syringe, point the handle downward (i.e., towards the recoat container), then spin the knurled dispensing screw counterclockwise till it spins easily to fill up the syringe (demonstrated in the photo to the right). Then, to inject the recoat material to the mold, point the handle horizontally (i.e., dealing with the knurled screw) and rotate the screw clockwise until near the end from the travel range is reached. Avoid bottoming out iuwekk dispenser since this may damage the inner plunger; also be careful when re-engaging the threads to avoid cross threading the dispensing screw. Several fill up/inject actions may be needed until air is displaced inside the system. Use camera lens cells plus an acetone or alcohol cleaning solution to accumulate any extra recoat material that flows from the mold.