Coating processes – Immersion or partial immersion – Running lengths
Patent
1983-07-27
1985-07-30
McIntosh, John P.
Coating processes
Immersion or partial immersion
Running lengths
118405, 118420, 4274347, B05C 305, B05C 312
Patent
active
045321604
DESCRIPTION:
BRIEF SUMMARY
FIELD OF THE INVENTION
The invention relates to apparatus for coating filaments, preferably optical fibres.
BACKGROUND
In producing optical fibres the aim is to provide the fibre with a coating as soon as possible after drawing. This coating usually being of silicon rubber is used for increasing the fibre strength, so that it can be handled without risk of breakage during reeling and during a following cable manufacture. Immediately after the glass fibre has been drawn from a so-called preform, or from a crucible, and it has had time to cool somewhat, it is passed through a bath of curable silicon rubber. The silicon rubber layer which adheres to the glass fibre during passage through the bath is heat cured, after which the filament can be wound on a reel. As long as the glass fibre passes through the bath at a rate of about 0.4 m/sec this coating method functions well, and the fibre is coated with a uniform layer of silicon rubber.
SUMMARY OF THE INVENTION
If it is attempted to increase the production rate during fibre drawing, which is quite possible, problems occur with the coating. At a certain critical speed which is about 0.4 m/sec for the silicon rubber used, the coating becomes uneven and can break down so that it will consist of ununiformly distributed lumps.
If the surface where the glass fibre passes into the silicon rubber bath is studied, it is found that at low speeds there is a funnel-like concavity in the surface around the filament. At the critical speed of about 0.4 m/sec, it has been found that this concavity disappears simultaneously as the coating begins to become uneven, and there is an unambiguous relationship between a stable concavity and uniform coating.
In accordance with the invention the speed for which the concavity disappears and for which an uneven coating is risked can be increased considerably.
BRIEF DESCRIPTION OF DRAWING
The invention will now be described in detail while referring to the appended drawing, where FIG. 1 schematically illustrates equipment for drawing and coating optical fibres.
MODE FOR CARRYING OUT THE INVENTION
In FIG. 1, numeral 10 denotes a crucible for glass, in this case a so-called double crucible of the kind described in the article "Optical Fibres" in the Ericsson Review No. 3, 1980 pages 12 and 13. It is primarily intended for producing optical fibres of the so-called "step-index" type, but can also be used in the production of graded index fibres. It includes an inner crucible 11 containing a glass melt 13 with a high refractive index intended to form the core in the glass fibre, and an outer crucible 12 with a glass melt 14 having a low refractive index and intended to form the sheath or casing of the fibre. The glass melt 13 from the inner crucible runs slowly out through the nozzle 15 in the inner crucible 11, passing through the outer crucible and out through the outer nozzle 16. When it passes the nozzle 16, the core is surrounded by glass from the outer crucible. When the glass melt has passed the outer nozzle 16 a meniscus 17 is formed, and from this the glass is drawn out into a thin fibre 18 by means of a capstan 26. The drawn fibre will have a core of the glass 13 and a cladding of the glass 14.
The fibre diameter is dependent on the drawing rate of the capstan and the outflow rate through the nozzles 15 and 16. The diameter is measured by a thickness meter 19, and with the aid of suitable control equipment this meter then controls the drawing speed of the capstan.
After drawing, the fibre 18 is sensitive to scratches and contaminations and must therefore be provided with a protective coating as soon as possible.
This is effected by passing the fibre through a receptacle 20 containing a suitable liquid coating material 21, usually silicon rubber. Other material of elastomeric, thermoplastic or curable types with suitable mechanical, electrical and optical properties can naturally be employed such as UV-curing epoxy acrylate, or KYNAR. The coating can also be a layer of an easily fusible metal such as aluminum. When the fi
REFERENCES:
patent: 2989942 (1961-06-01), Freeman
patent: 3022802 (1962-02-01), Lewis
patent: 3210843 (1965-10-01), Seul et al.
Lindborg Ulf H.
Vacha Lubos J. B.
McIntosh John P.
Telefonaktiebolaget LM Ericsson
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