This automated optical fiber tensile testing system is designed for operator skill independent use in creation and laboratory configurations. Two fundamental model configurations enable the consumer to pick between a set up for regular linear evidence testing along with additional mandrels for rotary high power testing.

The linear edition is made for production proof screening with causes as much as 22 N. Motor-driven clamps with very carefully designed rubber inserts ensure that the Fiber Drawing Machine is not ruined in the screening procedure while concurrently eliminating the requirement for an external air provide. Degrees of pulling force, tugging speed and hold time are automated and conveniently offered to the owner from the built-in LCD touch screen control. Information from tests can be stored and accessed using the Universal serial bus dock or Ethernet interface.

Mandrels of the identical style like NYFORS’ optical fiber recoaters can easily be mounted on the evidence tester within the rotary high power configuration. The fiber is covered across the two mandrels which support it using a unique clamping system. By doing this much higher lots can be used to the fiber, allowing breaking up strength tests under managed conditions.

Adjustable clamp positioning facilitates testing with all the greatest force amounts as well as testing of short fiber lengths. The lightweight and light weight design makes the tool simple to move around in a laboratory environment as well as incorporate in a creation work bench where space is at reduced. The equipment is a compact and lightweight tool suitable for screening the potency of optical fibers as much as 30 N. The equipment is designed to fulfill all sorts of applications in which a power test needs to be carried out.

The machine is made with all the consumer in mind. The Optical Fiber Proof-Testing Machine is readily put into the guided linear clamps, and the screening starts automatically using a “One Touch” go switch. The built-in microprocessor controls all of the important guidelines such as pulling force, pulling speed and hold time. This permits to get a totally controlled test each and every time.

The machine can be connected to another Computer, which allows access to all programmable guidelines and configurations. The equipment is tailored to face-alone use or the incorporation into various subsystems. The equipment comes with an extensive capability of logging and saving information including pulling force, tugging velocity and fiber diameter and other parameters.

Two recoat injector configurations are available. The PTR307 uses a computerized water pump to inject the recoat material. The volume of material dispensed through the automated injector is managed by hand through the top-mounted “Inject” switch or programmed in to the machine utilizing the tablet control. The PTR307B includes a handbook recoat injection program that needs the consumer to manually distribute the recoat material to the mold cavity; a substitute injector for your PTR307B recoater is accessible listed below. Make sure you note the automated injector is simply compatible with higher-directory recoat materials, whilst the manual injector is compatible with each reduced- and- index recoat material; both are marketed individually below. Make sure you contact Tech Support for additional information.

he handbook injector can be installed to suitable Secondary Coating Line via the 4-40 anchoring screws on the recoater real estate (see picture to the right). Make use of a 3/32″ hex key to safe the injector before use. For connecting the PTRRRM to the recoater mold, tighten the connector at the end of the green plastic material tubes, then loosen with a 1/4 turn to allow for rotation.

The injector comes with a distribution device and two-place selection lever for directing the flow of recoat material. A knurled dispensing attach with an inner plunger acts as a syringe for that recoat material. To fill the syringe, point the lever downwards (i.e., towards the recoat container), then spin the knurled dispensing screw counterclockwise till it spins easily to fill up the syringe (demonstrated within the photo to the right). Then, to inject the recoat materials into the mold, point the lever horizontally (i.e., dealing with the knurled screw) and spin the attach clockwise until near the end of the travel range is achieved. Avoid bottoming out iuwekk dispenser as this may harm the inner plunger; also take care when re-interesting the threads to avoid go across threading the dispensing screw. Several fill up/inject actions may be required until air is displaced inside the program. Use camera lens cells as well as an acetone or alcoholic beverages cleansing solution to collect any extra recoat material that flows from the mold.

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