With Fluid Assisting Means Patents (Class 65/538)
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Publication number: 20110289980Abstract: An optical fiber production system and method are provided for producing optical fiber. An optical fiber is drawn from a preform in a furnace and passes through a treatment device under a controlled reduced pressure or partial vacuum in the range of 0.01 to 0.8 atm. The treatment device cools the bare optical fiber as it cools to a temperature range of at least 1,600° C. to 1,300° C. A non-contact fiber centering device is located near an exit of the treatment device to provide linear centering of the optical fiber as it exits the treatment device.Type: ApplicationFiled: April 21, 2011Publication date: December 1, 2011Inventors: Andrey V. Filippov, Robert C. Moore, Bruce Warren Reding, David Andrew Tucker
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Patent number: 7937971Abstract: Methods for producing optical fibers along nonlinear paths include incorporating fluid bearings. An optical fiber is drawn from a preform along a first pathway, contacted with a region of fluid cushion of a fluid bearing, and redirected along a second pathway as the fiber is drawn across said region of fluid cushion.Type: GrantFiled: November 26, 2007Date of Patent: May 10, 2011Assignee: Corning IncorporatedInventors: John Joseph Costello, III, James Henry Faler, Andrey V Filippov, Steven Joseph Gregorski, Bruce Warren Reding, John Christopher Thomas
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Patent number: 7823419Abstract: A furnace for drawing an optical fiber includes a body having an upper and lower openings for supplying a preform and discharging a drawn optical fiber, a heating unit installed in the body for receiving and melting the preform, an atmosphere blocking tube installed to the lower opening for discharging the drawn optical fiber and blocking the optical fiber from the atmosphere, an upper introduction port formed at an upper portion of the body for introducing an inert gas toward the preform and partially discharged outside through a gap between the preform and the upper opening, a central and lower introduction ports formed at central and lower portions for introducing an inert gas into the body, a first flow guiding means for guiding the inert gas introduced through the central introduction port upward and then flowed down along a surface of the preform, and a second flow guiding means for guiding the inert gas introduced through the lower introduction port upward and then discharged outside through the atmospType: GrantFiled: February 3, 2009Date of Patent: November 2, 2010Assignee: LS Cable Ltd.Inventors: Sang-Joon Bae, Young-Il Kwon, Joon-Keun Lee, Chul-Min Kim, Myung-Ho Jang
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Patent number: 7814767Abstract: An induction furnace capable of drawing large diameter preforms of up to 130 mm is described. The induction furnace has top and bottom chimneys surrounding the entire preform during operation of the furnace with an inert conditioning gas which is introduced into the top chimney and flows downward through the furnace body and bottom chimney without significant turbulence. A distributor ring inside the top chimney redirects flow from a circumferential direction to a downward direction. The top chimney also includes a resilient seal to releasably hold the top of the preform. The bottom chimney has a smoothly decreasing cross-sectional area preventing turbulence at the furnace exit. The furnace insulation is preferably a rigid self-supporting graphite cylinder. A method of drawing large diameter preforms either to an optical fiber or to a preform of smaller diameter using such a furnace is also described.Type: GrantFiled: November 9, 2001Date of Patent: October 19, 2010Assignee: Prysmian Cavi E Sistemi Energia S.R.L.Inventors: Giacomo Stefano Roba, Massimo Nutini, Franco Veronelli
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Publication number: 20020174692Abstract: The drawing method of the present invention uses a drawing furnace comprising a furnace muffle tube, a furnace body and a heater. According to the method, an optical fiber preform is inserted from the inlet of the furnace muffle tube, the optical fiber preform is melted by means of a heater, under a specified gas atmosphere, and is drawn toward the outlet of the furnace muffle tube by means of a specified drawing tension.Type: ApplicationFiled: February 20, 2002Publication date: November 28, 2002Inventors: Kazuya Kuwahara, Katsuya Nagayama, Ichiro Tsuchiya, Masashi Onishi
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Patent number: 6474109Abstract: The invention relates to a device for drawing optical fibers from a preform, comprising: a furnace comprising a tube for heating one end of said preform to the drawing temperature thereof, which tube comprises: i) a central tube, ii) an upper extension tube connected to the lower part of said central tube so as to obtain a gas tight seal against an ambient atmosphere exterior said furnace, wherein the upper extension tube comprises an inlet for an inert gas in the top region of the upper extension tube, as a result of which the preform and the fiber to be drawn therefrom are surrounded by an inert gas, iii) a lower extension tube connected to said upper extension tube in such a manner that a gas tight seal against an ambient atmosphere exterior said furnace is obtained, iv) a tube outlet connected to said lower extension tube, means for drawing the fiber, means for supporting the preform in the furnace.Type: GrantFiled: November 13, 2000Date of Patent: November 5, 2002Assignee: Plasma Optical Fibre, B.V.Inventors: Marinus Jacob deFouw, Antonius Henricus Elisabeth Breuls
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Publication number: 20020088253Abstract: An induction furnace capable of drawing large diameter preforms of up to 130 mm is described. The induction furnace has top and bottom chimneys surrounding the entire preform during operation of the furnace with an inert conditioning gas which is introduced into the top chimney and flows downward through the furnace body and bottom chimney without significant turbulence. A distributor ring inside the top chimney redirects flow from a circumferential direction to a downward direction. The top chimney also includes a resilient seal to releasably hold the top of the preform. The bottom chimney has a smoothly decreasing cross-sectional area preventing turbulence at the furnace exit. The furnace insulation is preferably a rigid self-supporting graphite cylinder. A method of drawing large diameter preforms either to an optical fiber or to a preform of smaller diameter using such a furnace is also described.Type: ApplicationFiled: November 9, 2001Publication date: July 11, 2002Inventors: Giacomo Stefano Roba, Massimo Nutini, Franco Veronelli
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Publication number: 20010037663Abstract: The invention is directed to the production of optical fibers from optical fiber preforms using flow physics. The present methods provide for the “drawing” of an optical fiber preform using focusing of the preform by a surrounding fluid, e.g. a heated gas.Type: ApplicationFiled: March 9, 2001Publication date: November 8, 2001Inventors: Alfonso M. Ganan-Calvo, Dianna L. DeVore
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Patent number: 5987928Abstract: The present invention furnishes a device for fiberizing molten mineral materials in order to produce mineral fiber products by means of a spinner (2) having a multiplicity of orifices (6; 8) provided in the peripheral wall (4) thereof, for centrifuging molten mineral materials (10; 12) supplied to the spinner (2), with the spinner (2) comprising on the inside (14) of the peripheral wall (4) compartments (18; 20) arranged in sections and delimited by baffles (16) for separately feeding and separately receiving a respective molten material (10; 12) to at least one associated orifice (6; 8), with the orifices (6; 8) extending at least approximately in a radial direction through the peripheral wall (4). In the present invention a method for producing this device is moreover proposed.Type: GrantFiled: April 10, 1997Date of Patent: November 23, 1999Assignee: Isover Saint-GobainInventors: Jean-Luc Bernard, Guy Berthier, Jean Antoine Battigelli, Alain Giboult, Dominique Plantard
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Patent number: 5897681Abstract: To draw an optical fiber (10) from one end of a glass preform (9) which is heated to above the glass softening temperature at least in that area, a gas (21) flows around the preform (9) into a furnace space (16) during the drawing process and subsequent feeding of the preform. During the feeding, the areas that are adjacent to the drawing end of the preform (9) pass through gas zones in which the helium content of the furnace gas increases in the drawing direction.Type: GrantFiled: November 18, 1997Date of Patent: April 27, 1999Assignee: AlcatelInventors: Hans-Jurgen Lysson, Anne Dieumegard, Arnaud Mairesse
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Patent number: 5545246Abstract: A method for manufacturing an optical fiber (11), wherein the fiber (11) is drawn from one end of a preform (9) which is heated to above the glass softening temperature. The preform (9) is surronded by a protective gas (14) whose flow direction corresponds to the fiber drawing direction. The flow of the gas surrounding the preform (9) in the drawing area (10) is stabilized by an additional flushing gas (16).Type: GrantFiled: November 8, 1994Date of Patent: August 13, 1996Assignee: Kabel Rheydt AktiengesellschaftInventors: Hans-J urgen Lysson, Frank Lisse, Manuela Hahn, Hans-Detlef Leppert, Philippe Darbon