This automated optical fiber tensile testing system is ideal for operator skill impartial use in creation and laboratory configurations. Two fundamental model configurations permit the user to choose between a set up for secondary coating line and with additional 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 designed rubber inserts ensure that the fiber coating is not damaged in the testing process whilst concurrently eliminating the need for another air supply. Degrees of tugging force, pulling velocity and hold time are programmable and conveniently available to the operator with the built in LCD touch-screen manage. Data from tests can be saved and accessed through the Universal serial bus port or Ethernet user interface.
Mandrels of the same style like NYFORS? optical fiber recoaters can be easily installed on the proof tester in the rotary higher power configuration. The fiber is wrapped across the two mandrels which support it with a special clamping system. In this way much higher loads can be used onto the fiber, allowing breaking strength assessments below managed circumstances.
Adjustable clamp positioning facilitates screening using the greatest force amounts as well as testing of brief fiber lengths. The compact and light weight design definitely makes the instrument simple to maneuver inside a laboratory atmosphere and to incorporate in a production work bench where space are at reasonably limited. The machine is a lightweight and light-weight instrument ideal for screening the effectiveness of optical fibers as much as 30 N. The machine is designed to meet all kinds of programs where a strength check has to be carried out.
The machine was created using the consumer in mind. The Sheathing line is definitely placed 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 the important guidelines like pulling force, pulling speed and hold time. This allows for any totally managed check each and every time.
The machine can be attached to an outside Computer, which enables use of all programmable parameters and settings. The machine is tailored to face-on your own use or even to the integration into various subsystems. The machine comes with an substantial capability of logging and saving information including tugging force, tugging speed and fiber size along with other guidelines.
Two recoat injector designs can be found. The PTR307 uses an automated water pump to inject the recoat material. The volume of materials dispensed through the automated injector is controlled by hand via the top-installed “Inject” button or programmed into the machine using the tablet control. The PTR307B includes a manual recoat shot system that needs an individual to manually dispense the recoat material into the mold cavity; another one injector for the PTR307B recoater is accessible listed below. Make sure you note the automatic injector is simply compatible with high-directory recoat material, while the TCC laser printer for cable works with both low- and high- directory bpabim material; both of them are sold individually listed below. Make sure you get in touch with Tech Support for more information.
he handbook injector can be mounted to compatible fiber recoaters through the 4-40 screws on the recoater housing (see photo towards the right). Use a 3/32″ hex key to secure the injector just before use. For connecting the PTRRRM for the recoater mold, tighten up the connector at the conclusion of the eco-friendly plastic tubes, then loosen by a 1/4 choose enable rotation.
The injector is equipped with a syndication valve as well as 2-place choice handle for directing the stream of recoat materials. A knurled dispensing screw with the internal plunger behaves as a syringe for the recoat material. To fill up the syringe, point the lever downward (i.e., towards the recoat bottle), then rotate the knurled dispensing screw counterclockwise till it rotates easily to fill up the syringe (shown within the picture to the right). Then, to inject the recoat material into the mold, point the lever horizontally (i.e., facing the knurled attach) and rotate the attach clockwise till near the finish of the travel range is achieved. Avoid bottoming out the dispenser because this may damage the internal plunger; also take care when re-engaging the threads in order to avoid cross threading the dispensing attach. A number of fill/inject actions may be needed till air is displaced within the system. Use lens cells as well as an acetone or alcoholic beverages cleaning solution to collect any extra recoat material that runs through the mold.