This automatic optical fiber tensile testing system is designed for operator skill independent use within production and laboratory settings. Two basic model configurations allow the consumer to select between a set up for regular linear proof screening with additional mandrels for rotary higher strength testing.
The linear edition is designed for production proof screening with causes approximately 22 N. Motorized clamps with carefully designed rubber inserts be sure that the TCC Laser Printer For Cable is not ruined inside the screening process whilst at the same time getting rid of the need for an outside air provide. Levels of tugging force, tugging velocity and hold time are programmable and conveniently offered to the operator with the built in LCD touch screen control. Data from assessments can be saved and accessed through the USB port or Ethernet interface.
Mandrels of the same design as in NYFORS’ optical fiber recoaters can easily be mounted on the proof tester inside the rotary high strength configuration. The fiber is wrapped around the two mandrels which support it having a special clamping system. In this way higher loads does apply on the fiber, enabling breaking power assessments under controlled conditions.
Changeable clamp placement facilitates testing with all the greatest force levels along with screening of short fiber lengths. The lightweight and light weight design helps make the tool easy to maneuver in a laboratory environment and also to integrate within a production function bench in which space reaches a premium. The equipment is really a lightweight and light-weight instrument suitable for testing the effectiveness of optical materials as much as 30 N. The device is developed to meet all kinds of applications where a power test needs to be carried out.
The device is made with all the consumer under consideration. The Secondary Coating Line is easily positioned in the carefully guided linear clamps, as well as the testing begins automatically using a “One Touch” go switch. The built-in microprocessor regulates all of the important parameters such as tugging pressure, pulling speed and hold time. This permits for any totally managed check each time.
The device could be connected to an outside PC, which enables usage of all automated guidelines and settings. The equipment is tailored to face-on your own use or to the incorporation into different subsystems. The machine has an substantial capability of signing and conserving information such as tugging pressure, tugging speed and fiber diameter and other guidelines.
Two recoat injector designs can be found. The PTR307 utilizes a computerized water pump to inject the recoat materials. The volume of materials dispensed through the automated injector is controlled manually using the best-mounted “Inject” button or programmed to the machine utilizing the tablet pc controller. The PTR307B includes a handbook recoat injection system that requires an individual to manually dispense the recoat materials in to the mold cavity; a substitute injector for the PTR307B recoater is available listed below. Take note the automatic injector is only compatible with high-directory recoat materials, while the manual injector is compatible with both low- and- directory recoat materials; both are sold individually listed below. Please contact Tech Assistance for additional information.
he manual injector could be installed to Optical Fiber Ribbon Machine through the 4-40 anchoring screws on the recoater housing (see photo off to the right). Make use of a 3/32″ hex answer to safe the injector prior to use. To connect the PTRRRM for the recoater mold, tighten up the connector at the end of the green plastic tubes, then release by way of a 1/4 consider permit rotation.
The injector is equipped with a distribution valve and two-position selection lever for directing the stream of recoat materials. A knurled dispensing screw with an internal plunger acts as a syringe for the recoat materials. To fill up the syringe, stage the lever downwards (i.e., towards the recoat bottle), then spin the knurled dispensing attach counterclockwise until it ikrsve easily to fill the syringe (demonstrated within the photo to the right). Then, to inject the recoat material into the mold, stage the lever horizontally (i.e., dealing with the knurled screw) and rotate the screw clockwise till close to the end of the travel array is achieved. Steer clear of bottoming the dispenser since this might damage the inner plunger; also take care when re-interesting the threads to prevent cross threading the dispensing attach. A number of fill/inject steps may be required until air is displaced in the system. Use lens tissue and an acetone or alcohol cleaning answer to gather any extra recoat material that flows from the mold.