This automatic optical fiber tensile testing system is designed for operator skill independent use in creation and lab settings. Two fundamental design designs enable the consumer to choose between a set up for regular linear proof testing along with extra mandrels for rotary high strength testing.
The linear edition is designed for production evidence testing with forces up to 22 N. Motor-driven clamps with very carefully developed rubber inserts ensure that the FTTH Cable Production Line is not really ruined within the testing procedure whilst at the same time eliminating the need for an outside air supply. Amounts of tugging force, pulling velocity and hold time are programmable and easily available to the operator with the built in Liquid crystal display touch-screen manage. Data from assessments can be saved and reached via the Universal serial bus port or Ethernet interface.
Mandrels of the identical style as with NYFORS’ optical fiber recoaters can be easily mounted on the evidence tester inside the rotary higher power settings. The fiber is covered around the two mandrels which support it having a special clamping system. In this way greater loads can be used on the fiber, allowing breaking power tests below managed conditions.
Adjustable clamp positioning facilitates screening with all the highest force levels as well as testing of short fiber lengths. The lightweight and light weight style definitely makes the tool simple to maneuver in a laboratory environment as well as integrate in a production work bench in which space are at reduced. The equipment is really a compact and lightweight instrument ideal for screening the effectiveness of optical fibers as much as 30 N. The device is created to fulfill all types of programs in which a strength test has to be performed.
The equipment is designed with the user in mind. The Fiber Drawing Machine is readily placed in the guided linear clamps, and also the screening starts instantly having a “One Touch” go switch. The built-in microprocessor regulates all the important guidelines including pulling force, pulling speed and hold time. This allows for any completely managed test each and every time.
The equipment can be connected to an outside Computer, which enables access to all automated parameters and settings. The machine is tailored to stand-alone use or even to the incorporation into various subsystems. The equipment posseses an extensive capability of logging and conserving details such as pulling force, tugging velocity and fiber size and other parameters.
Two recoat injector configurations are available. The PTR307 uses an automated water pump to inject the recoat materials. The quantity of materials dispensed through the automated injector is controlled by hand through the top-mounted “Inject” button or programmed into the device using the tablet pc controller. The PTR307B includes a manual recoat shot system that needs the user to manually dispense the recoat material to the mold cavity; a substitute injector for the PTR307B recoater is available listed below. Please note the automated injector is only appropriate for higher-directory recoat materials, whilst the handbook injector works with both reduced- and- index recoat materials; they are both marketed individually listed below. Make sure you contact Technology Support to learn more.
he handbook injector can be mounted to suitable Sheathing Line using the 4-40 screws on the recoater real estate (see photo for the right). Use a 3/32″ hex key to secure the injector just before use. To get in touch the PTRRRM towards the recoater mold, tighten the connector at the conclusion of the eco-friendly plastic tubes, then release by way of a 1/4 turn to allow for rotation.
The injector comes with a syndication device and 2-place selection lever for directing the flow of recoat materials. A knurled dispensing screw with an inner plunger behaves as a syringe for your recoat material. To fill the syringe, point the lever downwards (i.e., towards the recoat bottle), then rotate the knurled dispensing screw counterclockwise till it spins easily to fill up the syringe (demonstrated within the photo for the right). Then, to inject the recoat materials into the mold, point the handle horizontally (i.e., dealing with the knurled screw) and spin the screw clockwise till nearby the finish from the journey range is achieved. Steer clear of bottoming out iuwekk dispenser because this may damage the interior plunger; also be mindful when re-interesting the threads to prevent go across threading the dispensing screw. A number of fill/inject steps may be required till air is displaced in the system. Use lens cells plus an acetone or alcohol cleansing solution to accumulate any extra recoat material that runs from your mold.