The Fiber Fusion Splicer is mainly used in fiber-optic communications, fiber optic cable construction and maintenance. It is mainly depend on emit arc melting of the two optical fiber, the same time apply to collimation principle gentle advancing, so that couple of the fiber optic mode filed.

I would like to introduce the working methods of fusion splicer. They are as follows:

The first, striping the optic cable, and cable is fixed to the plate fiber shelves. You should be noted that different cable has different methods to striping, then you can fix it.

The second, you should be make the optical fiber passes through the heat-shrinkable tube. After the completion of the weld, heat shrinkable tube protect the fiber splice head.

The third, To open the power of fiber fusion splicer, and select appropriate welding. Because of it has both AC and DC two types of supply power, depending on the type of power supply to a reasonable switch. We know, 75-ohm coaxial cable used in a conventional single-mode fiber and dispersion shifted single-mode fiber optical fiber, there are two kinds of 1310nm and 1550nm operating wavelength, so we need fiber and wavelength according to the system used to select the appropriate welding way.

The fourth, To make an optic fiber end face, because the end face produced directly affect connection quality, so you must do a qualified face first before the weld. Used the special tool to strip the coating layer, then clean linen or cotton moistened with alcohol to wipe the bare fiber several precision cleaver cutting fiber.

The fifth, placed in the optic cable. Put the optic cable into the fusion splices V-shaped slot, and be carefully pressed on fiber platen and fiber clamps, to set the position of the fiber optic in the platen according to the length of the fiber cutting, and correctly into the windshield.

The sixth, the splice optical fibers. When the continuation key is pressed, the fiber moving towards each other, the moving process, generates a short discharge clean the surface of the fiber, when the gap between the optic fiber end face is suitable welding machine stops moving towards each other, to set the initial gap and measurement of the machine, then displays the cutting angle.

The seventh, Moving optic cable and with heater to reinforce the optic fiber. Open the windshield of the pick-up at the same time storing weld data: welding mode, data, estimate loss and so on. Remove the optic cable from fusion splice, then take the shrink tube on bare fiber center, heating it in heater and removed from the heater after heating.

The eighth, the splice tray and fixed. Continuation of good fiber tray to the splice tray fixed fiber optic accommodating tray, connector box, terminal box, fiber splicing is completed.

The nineth, fiber splicing machines, wearing parts of the discharge electrode. Recommendations provided by each manufacturer is different, but basically like discharge 4000-5000 replaceable electrode. Own processing, re-polished, but the length will change the welding parameters can also make changes to the job.

This optical fiber fusion splicer is a well performed automated fusion splicing machines. Now the fusion splicer come in two varieties, single fiber splicer and ribbon splicer or mass fusion splicer. Ingellen offer a range of fiber Fusion splicers,such as Fujikura fusion splicer and Sumitomo fusion splicer, Fitel Furukawa fusion splicer. Find more fiber optic splicing tools at Ingellen.com today!