Sheathing Line..

This automated optical Fiber tensile screening program is designed for operator skill independent utilization in production and laboratory configurations. Two basic design configurations permit the consumer to select from a set up for regular linear proof testing along with additional mandrels for rotary high strength testing.

The linear version is made for creation evidence testing with causes as much as 22 N. Motor-driven clamps with carefully designed rubberized inserts be sure that the Fiber covering is not ruined within the testing procedure whilst at the same time eliminating the necessity for an outside air supply. Degrees of pulling force, tugging speed and hold time are automated and conveniently offered to the Optical Fiber Coloring Machine from the built-in Liquid crystal display touch-screen control. Data from tests can be saved and reached via the USB port or Ethernet user interface.

Mandrels the exact same design as with NYFORS’ optical Fiber recoaters can be installed on the proof tester inside the rotary high strength configuration. The Fiber is covered round the two mandrels which assistance it using a unique clamping system. By doing this higher loads can be applied on the Fiber, allowing breaking up power tests under controlled conditions.

Adjustable clamp positioning facilitates testing with the greatest force levels as well as screening of short Fiber measures. The lightweight and light weight style definitely makes the tool easy to maneuver in Secondary Coating Line as well as integrate within a production work table where space reaches reasonably limited. The machine is a lightweight and lightweight instrument perfect for screening the effectiveness of visual fibers approximately 30 N. The machine is created to fulfill all kinds of applications in which a power test needs to be carried out.

The machine was created using the user in mind. The Fiber is easily placed in the carefully guided linear clamps, as well as the screening starts automatically using a “One Touch” go switch. The built in microprocessor controls all of the essential guidelines including pulling force, tugging speed and hold time. This permits for any totally managed test each time.

The equipment can be attached to an external PC, which allows usage of all programmable parameters and configurations. The equipment is tailored to face-alone use or to the incorporation into various subsystems. The equipment posseses an extensive ability of signing and saving details like pulling force, pulling velocity and Fiber diameter as well as other guidelines.

Two recoat injector designs are available. The PTR307 uses a computerized pump to inject the recoat material. The volume of materials dispensed from the automated injector is controlled by hand via the top-mounted “Inject” switch or programmed in to the device utilizing the tablet control. The PTR307B comes with a manual recoat injection system that will require an individual to personally dispense the recoat material in to the mold cavity; a substitute injector for the PTR307B recoater is available listed below. Make sure you note that the automatic injector is simply appropriate for higher-index recoat materials, while the handbook injector works with each low- and high- index recoat material; they are both sold separately below. Please contact Technology Assistance for more information.

he manual injector can be mounted to suitable Fiber recoaters through the 4-40 anchoring screws around the recoater real estate (see picture towards the right). Utilize a 3/32″ hex key to safe the injector prior to use. To connect the PTRRRM towards the recoater mold, tighten the connector after the green plastic tubes, then release with a 1/4 turn to enable rotation.

The injector comes with a syndication device as well as 2-place choice handle for directing the stream of recoat materials. A knurled dispensing screw having an internal plunger behaves as a syringe for the recoat material. To fill up the Cable Air Wiper, point the handle downwards (i.e., towards the recoat container), then rotate the knurled dispensing attach counterclockwise until it rotates freely to fill the syringe (demonstrated within the picture for the right). Then, to inject the recoat material into the mold, point the handle horizontally (i.e., dealing with the knurled screw) and fdrofe the screw clockwise until nearby the end of the journey range is achieved. Avoid bottoming out your dispenser since this may damage the inner plunger; also be careful when re-engaging the threads to avoid go across threading the dispensing screw. Several fill up/inject steps may be needed until air is displaced in the program. Use camera lens cells plus an acetone or alcohol cleaning solution to gather any excess recoat materials that flows from the mold.