This automated optical Fiber tensile testing system is made for operator ability independent use in creation and laboratory configurations. Two fundamental model configurations enable the consumer to pick between a set up for standard linear proof screening with extra mandrels for rotary higher strength testing.
The linear version is ideal for production proof screening with forces as much as 22 N. Motor-driven clamps with very carefully developed rubberized inserts ensure that the Fiber covering is not ruined within the testing procedure while concurrently eliminating the requirement for an outside air provide. Levels of tugging force, pulling speed and hold time are programmable and conveniently accessible to the FTTH Cable Production Line with the built-in LCD touch-screen control. Information from assessments can be stored and accessed through the USB port or Ethernet interface.
Mandrels of the identical style like NYFORS’ optical Fiber recoaters can be easily attached to the proof tester inside the rotary higher power configuration. The Fiber is covered round the two mandrels which assistance it using a unique clamping mechanism. In this way much higher lots can be applied to the Fiber, allowing breaking up power tests under controlled conditions.
Adjustable clamp positioning facilitates testing with the highest force amounts as well as screening of short Fiber measures. The lightweight and light bodyweight style makes the instrument easy to maneuver in TCC Laser Printer For Cable and to incorporate within a creation work table where space is at reasonably limited. The machine is a compact and lightweight instrument ideal for testing the potency of visual fibers approximately 30 N. The equipment is designed to meet all sorts of applications where a power test has to be carried out.
The machine is made with all the user in mind. The Fiber is readily positioned in the guided linear clamps, and the testing begins automatically having a “One Touch” go switch. The built in microprocessor regulates all the essential parameters including pulling force, pulling velocity and hold time. This permits to get a totally controlled check every time.
The device can be linked to an external Computer, which allows usage of all automated guidelines and configurations. The machine is adapted to stand-on your own use or even to the integration into various subsystems. The machine has an substantial capability of logging and conserving information including pulling force, pulling speed and Fiber diameter as well as other parameters.
Two recoat injector configurations can be purchased. The PTR307 uses an automated water pump to inject the recoat material. The quantity of material dispensed through the automatic injector is controlled by hand using the top-mounted “Inject” button or programmed into the device using the tablet pc control. The PTR307B comes with a handbook recoat injection program that requires the user to manually dispense the recoat materials into the mold cavity; another one injector for your PTR307B recoater can be obtained listed below. Make sure you note that this automatic injector is simply compatible with higher-index recoat material, while the manual injector works with both reduced- and- directory recoat material; both of them are sold individually listed below. Please get in touch with Tech Support for more information.
he handbook injector can be installed to compatible Fiber recoaters via the 4-40 screws in the recoater housing (see photo for the right). Utilize a 3/32″ hex key to secure the injector before use. To connect the PTRRRM for the recoater mold, tighten up the connector at the conclusion of the eco-friendly plastic tubing, then loosen by way of a 1/4 turn to permit rotation.
The injector is equipped with a syndication device and 2-place choice handle for directing the flow of recoat material. A knurled dispensing screw with an inner plunger works as a syringe for that recoat materials. To fill up the Secondary Coating Line, point the handle downward (i.e., towards the recoat bottle), then spin the knurled dispensing attach counterclockwise until it spins freely to fill the syringe (shown within the picture towards the right). Then, to inject the recoat material into the mold, point the lever horizontally (i.e., dealing with the knurled screw) and fdrofe the screw clockwise till near the end in the journey range is achieved. Steer clear of bottoming out the dispenser because this may damage the inner plunger; also take care when re-interesting the threads to prevent go across threading the dispensing screw. Several fill up/inject actions may be needed till air is displaced within the program. Use camera lens cells and an acetone or alcoholic beverages cleaning solution to collect any excess recoat material that runs from the mold.