This automated optical fiber tensile testing program is made for operator skill independent use within creation and lab configurations. Two fundamental design configurations permit the consumer to pick between a set up for standard linear proof testing and with extra mandrels for rotary high power testing.
The linear version is designed for creation proof screening with causes approximately 22 N. Motor-driven clamps with very carefully developed rubberized inserts ensure that the Optical Fiber Ribbon Machine is not ruined in the testing process whilst concurrently getting rid of the necessity for another air supply. Degrees of pulling force, pulling speed and hold time are automated and conveniently available to the owner with the built in Liquid crystal display touch-screen manage. Data from tests can be saved and reached using the Universal serial bus port or Ethernet interface.
Mandrels of the identical design as with NYFORS’ optical fiber recoaters can be installed on the proof tester inside the rotary higher power configuration. The fiber is wrapped around the two mandrels which support it with a special clamping system. In this way greater loads can be used to the fiber, allowing breaking up strength assessments below controlled conditions.
Changeable clamp positioning facilitates testing using the greatest force amounts as well as testing of brief fiber lengths. The compact and light weight design makes the instrument easy to move around in a laboratory environment and to integrate in a production work bench where space reaches reasonably limited. The machine is a lightweight and lightweight instrument perfect for testing the potency of optical materials approximately 30 N. The device is created to meet all types of programs where a strength check needs to be performed.
The machine is made with all the user in mind. The Optical Fiber Coloring Machine is readily positioned in the carefully guided linear clamps, and the testing starts instantly having a “One Touch” go button. The built-in microprocessor regulates all of the essential guidelines such as tugging force, tugging velocity and hold time. This allows to get a totally managed test each and every time.
The device can be attached to an external Computer, which enables usage of all programmable parameters and configurations. The device is adapted to face-on your own use or to the integration into different subsystems. The device posseses an substantial capability of signing and conserving details such as pulling force, pulling velocity and fiber diameter along with other guidelines.
Two recoat injector designs can be found. The PTR307 uses an automated pump to inject the recoat materials. The amount of material dispensed by the automated injector is managed by hand through the top-installed “Inject” switch or programmed to the device utilizing the tablet control. The PTR307B features a handbook recoat injection system that needs the user to manually distribute the recoat materials in to the mold cavity; a substitute injector for that PTR307B recoater can be obtained listed below. Make sure you note the automated injector is simply suitable for high-directory recoat material, whilst the handbook injector works with both low- and- directory recoat materials; both are sold separately below. Please get in touch with Tech Assistance for more information.
he manual injector can be mounted to suitable Secondary Coating Line using the 4-40 anchoring screws on the recoater real estate (see picture to the right). Utilize a 3/32″ hex key to safe the injector before use. To get in touch the PTRRRM towards the recoater mold, tighten up the connector at the conclusion of the green plastic material tubes, then loosen by a 1/4 consider permit rotation.
The injector is equipped with a syndication valve and 2-place choice handle for directing the flow of recoat materials. A knurled dispensing attach having an inner plunger works as a syringe for the recoat material. To fill the syringe, point the lever downward (i.e., toward the recoat container), then spin the knurled dispensing attach counterclockwise until it spins easily to fill the syringe (demonstrated in the photo towards the right). Then, to inject the recoat material in to the mold, point the handle horizontally (i.e., facing the knurled attach) and spin the attach clockwise till near the finish of the journey range is reached. Steer clear of bottoming out iuwekk dispenser because this may harm the inner plunger; also be mindful when re-engaging the threads to prevent cross threading the dispensing screw. Several fill up/inject steps may be required till air is displaced within the program. Use lens cells plus an acetone or alcoholic beverages cleansing solution to accumulate any extra recoat material that runs from the mold.