Apparatus for shaping glass tubes

Glass manufacturing – With signal – indicator – inspection means – register – or recorder

Reexamination Certificate

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Details

C065S160000, C065S276000, C065S278000, C065S279000, C065S280000

Reexamination Certificate

active

06568218

ABSTRACT:

This invention relates to apparatus and methods for shaping tubes and, in particular, to shaping glass tubes intended for use in the manufacture of optic fibers and for doing so semi-automatically or automatically.
One process for the manufacture of optical fibers is referred to as the modified chemical vapor deposition (MCVD) process in which the internal wall of a glass cylinder (also referred to herein as the “starter tube” or “preform tube”) is coated with uniform layers of reactants and gas vapors to form the optic fibers. To ensure the proper and uniform flow of gases within the starter tube, it is desirable to join, or fuse, the starter tube to an exhaust tube prior to initiating the actual fiber optic manufacturing process.
For optimum results the exhaust tube should provide smooth, continuous flow for the gases escaping from the starter tube to, and through, the exhaust tube. To accomplish this result, the exhaust tube must generally have a larger diameter than the starter tube. However, at their interface and mating ends the exhaust tube must mesh smoothly and continuously with the starter tube and must have a profile which aids in the smooth flow of gases out of the starter tube.
It is also noted that each exhaust tube is intended to be joined (or fused) to a starter tube and that the two “combined” tubes are then operated as a unit. Typically, the combined tubes are mounted in an apparatus in which they are made to rotate for many hours while gases and reactants are being injected into the starter tube under intense heat conditions, for forming uniform layers of optic fibers. To ensure the formation of even and uniform layers, it is important that the two tubes be aligned very accurately; (i.e., have a common center line) throughout the process.
In presently known systems the end of an exhaust tube designed to mate with a starter tube is shaped manually using a graphite forming tool, or like manual equipment. This process is an “art” dependent on the skills and techniques of the artisan shaping the mating end and interface of the exhaust tube. This is undesirable and problematic because tubes shaped manually have little uniformity and dimensional reproducibility. As a result, numerous defective exhaust tubes are produced. Equally problematic is that, even when an exhaust tube is not defective, the mating of an exhaust tube with a starter tube is subject to alignment problems.
Thus, there is a dual problem of uniformly shaping and contouring the end of an exhaust tube so that the starter tube (at its mating output) meshes smoothly with the exhaust tube at their common interface and of aligning the two tubes accurately. Clearly, the requirements placed on the manufacture of fiber optics is very demanding and very costly. It may take many (six or more) hours to produce a fiber optic “preform”. Even very small defects, because of their cumulative effect, may result in the loss of much material, energy and time, at great cost to the manufacturer.
Another problem is that in accordance with the prior art when the starter and exhaust tubes are to be joined or fused together, they are cantilevered from spindle chucks. An operator must support the cantilevered tubes by manual means or through the use of a “jack” device and raise or lower the rotating starter and exhaust tubes to achieve co-axial alignment with the end of the exhaust tube. Heat is applied at the support point of the starter tube to stress relieve the starter tube as the operator applies a relocating force to the starter and exhaust tubes. The quality of the co-axiality between the two tubes in this butt-splice technique is a function of the operator's skill.
SUMMARY OF THE INVENTION
Applicants' invention is aimed at reducing the problems associated with the shaping of a first tube (e.g., an exhaust tube) which must interface and mate with a second tube (e.g., a starter tube) and ensuring the proper alignment of the two tubes.
In contrast to the prior art method of manually shaping an exhaust tube, one aspect of the invention is directed to apparatus and methods for semi-automatically, and/or automatically, applying a mold to a selected end of the exhaust tube for shaping its end region and the opening of the tube. The apparatus includes: a support means for firmly holding the tube, at a point other than the selected end, and for rotating the tube in a controlled manner; a heat source adapted to supply sufficient heat to the selected end region of the tube to render it malleable; and an actuatable mechanical holding means for holding a multi piece mold and for selectively applying the mold to the selected end region of the tube, when the tube is rendered malleable, for imparting an oblate, cone-like shape to the selected end region of the tube and for controlling the inner diameter of the tube and the shape of its rim at its selected end.
In one embodiment of the invention, sensing means control the intensity of the heat source, the application and retraction of the heat source to and from a tube to be molded and the application and retraction of the mold to the tube.
A method for shaping the exhaust tube includes sensing the temperature and/or the state of the selected end region of the tube and generating a signal for applying a mold to the exhaust tube.
One aspect of applicants' invention includes an apparatus and a method for applying a particular mold to a selected end region of a first, hollow, generally cylindrical tube to enable a second tube, of smaller diameter than the first tube, to be inserted “snuggly” a first distance within the selected end of the first tube. The mold includes two, complementary elongated side pieces having inner surfaces for, when joined, encircling the periphery of the tube along the length of its end region at its selected end; and an end cap with a cylindrical stub for insertion within the opening of the tube at the selected end. The two elongated side pieces and the end cap stub are applied to the tube when the tube is in a malleable state.
In still other embodiments of the invention, the exhaust tube formed in accordance with the invention is readily aligned with a starter tube and the two tubes are fused at their interface to form a unitary article (i.e., a “preform”) useful in the fabrication of optic fibers.
In contrast to the prior art technique, the exhaust and starter tubes have a self centering profile, or “nesting” feature. The two tubes are positioned by physical contact with features formed into the tubes themselves. These features are formed on the contact (mating) faces of the tubes. In one embodiment, the ends of the exhaust tube are molded and shaped to assume a certain configuration, such as a lip, whereby the starter tube “locks” onto the exhaust tube.


REFERENCES:
patent: 3179508 (1965-04-01), Stapel
patent: 3368588 (1968-02-01), Meyer
patent: 5695539 (1997-12-01), Dichter

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