FTTH Cable Production Line – Why Is This Significant..

This automated optical fiber tensile testing system is designed for operator skill impartial use in creation and lab configurations. Two basic model configurations allow the user to pick between a set up for Sheathing line with additional mandrels for rotary high strength testing.

The linear version is ideal for creation evidence screening with forces up to 22 N. Motor-driven clamps with very carefully designed rubber inserts be sure that the fiber coating will not be damaged within the testing procedure while at the same time eliminating the need for an external air provide. Levels of tugging force, pulling speed and hold time are automated and easily offered to the operator with the built-in Liquid crystal display touch screen manage. Data from assessments can be saved and accessed through the USB port or Ethernet user interface.

Mandrels of the identical style like NYFORS? optical fiber recoaters can easily be attached to the proof tester within the rotary high power settings. The fiber is wrapped round the two mandrels which support it having a special clamping mechanism. This way higher lots can be used onto the fiber, allowing breaking strength assessments below managed circumstances.

Changeable clamp positioning facilitates screening with the greatest force amounts as well as testing of brief fiber lengths. The lightweight and light weight design helps make the tool easy to move around in a lab environment and to integrate inside a creation work table in which space reaches a premium. The machine is a compact and lightweight instrument suitable for testing the strength of optical fibers approximately 30 N. The machine is designed to meet all sorts of programs when a power check needs to be carried out.

The machine is designed using the user in mind. The secondary coating line is easily put into the guided linear clamps, as well as the screening starts automatically having a One Touch go switch. The built in microprocessor controls each of the important parameters like pulling force, pulling speed and hold time. This allows to get a completely managed check each and every time.

The machine can be attached to an external Computer, which allows use of all programmable parameters and settings. The machine is adapted to face-alone use or the incorporation into various subsystems. The machine has an substantial capacity for logging and conserving details including pulling force, tugging speed and fiber size along with other parameters.

Two recoat injector designs can be found. The PTR307 utilizes a computerized pump to inject the recoat materials. The quantity of materials dispensed from the automated injector is controlled by hand using the top-mounted “Inject” switch or programmed to the machine using the tablet pc controller. The PTR307B features a handbook recoat shot system that needs an individual to manually distribute the recoat materials into the mold cavity; another one injector for your PTR307B recoater is accessible below. Please note the automated injector is only suitable for higher-directory recoat material, as the Fiber coloring machine works with each low- and- directory bpabim material; they are both sold individually listed below. Please get in touch with Tech Support for additional information.

he handbook injector can be mounted to suitable fiber recoaters using the 4-40 anchoring screws in the recoater housing (see photo to the right). Use a 3/32″ hex key to safe the injector before use. To connect the PTRRRM towards the recoater mold, tighten the connector at the conclusion of the eco-friendly plastic material tubing, then release by a 1/4 consider enable rotation.

The injector comes with a distribution valve as well as 2-place choice lever for directing the stream of recoat material. A knurled dispensing attach having an internal plunger acts 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 attach counterclockwise until it spins freely to fill the syringe (demonstrated in the picture to 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 attach clockwise till near the end from the journey range is achieved. Steer clear of bottoming out your dispenser as this may damage the inner plunger; also be careful when re-interesting the threads to prevent go across threading the dispensing screw. A number of fill up/inject actions may be needed till air is displaced in the system. Use camera lens cells plus an acetone or alcohol cleaning solution to accumulate any extra recoat materials that runs from the mold.