With Cleaning Means Patents (Class 65/503)
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Publication number: 20120024012Abstract: An optical fiber preform manufacturing apparatus includes a booth, a reaction chamber disposed inside the booth, a target member disposed within the reaction chamber, a burner that deposits glass particles on the target member, a partition plate that partitions the internal space of the booth into a first space where the reaction chamber and the burner are disposed and a second space, and that has a plurality of through holes that allows the first space and the second space to communicate with each other, an air supply unit that supplies clean air into the first space; and an exhaust unit that discharges air within the second space.Type: ApplicationFiled: August 1, 2011Publication date: February 2, 2012Applicant: FUJIKURA LTD.Inventor: Naritoshi YAMADA
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Patent number: 8079234Abstract: Provided is a manufacturing apparatus for manufacturing a porous glass base material by depositing glass particles, which has a chamber having air inlets, and an air distribution container having air outlets from which clean air is supplied to the air inlets.Type: GrantFiled: November 21, 2007Date of Patent: December 20, 2011Assignee: Shin-Etsu Chemical Co., Ltd.Inventor: Makoto Yoshida
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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: 20100192636Abstract: The invention relates to a method of controlling the level of corrosivity of an aqueous solution recovered during a process for producing a blanket of mineral fibers, comprising in particular the fiberizing and the coating of said fibers with a binder comprising a polyacid typically of the acrylic type, said aqueous solution being at least partly recycled into a zone in which said resin is prepared and/or a scrubbing zone of the production plant, said method being characterized in that the pH of the solution in the recycling circuit is maintained between minimum and maximum values by injecting into said circuit an agent for modifying said pH, such as a base, the quantity injected or the flow rate of the pH-modifying agent being adjusted directly according to the quantity or the flow rate of acid binder injected during the fiberizing process. The invention also relates to the device for implementing the method.Type: ApplicationFiled: July 2, 2008Publication date: August 5, 2010Applicant: Saint-Gobain IsoverInventors: Remi Valero, Bernard Lericque, Alexis Ponnouradjou
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Publication number: 20080148781Abstract: Provided is a manufacturing apparatus for manufacturing a porous glass base material by depositing glass particles, which has a chamber having air inlets, and an air distribution container having air outlets from which clean air is supplied to the air inlets.Type: ApplicationFiled: November 21, 2007Publication date: June 26, 2008Applicant: SHIN-ETSU CHEMICAL CO., LTD.Inventor: Makoto Yoshida
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Publication number: 20070289337Abstract: A fiberizing device includes a housing, a receiving seat mounted on the housing, and a drawing device. The receiving seat includes a receiving groove having a discharge port. The receiving groove receives molten fluid formed by heating waste. A heating device is provided for heating the molten fluid in the receiving seat. The drawing device draws the molten fluid from the discharge port to form a solid fiber after the molten fluid comes in contact with cool air. The solid fiber possesses excellent fire-resistant properties and thus can be used as fire-resistant materials.Type: ApplicationFiled: June 16, 2006Publication date: December 20, 2007Inventor: Yao-Chung Hu
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Patent number: 7003985Abstract: In accordance with the invention, the polymeric coating is removed from a coated optical fiber by disposing the fiber within a non-oxidizing environment and applying sufficient heat to volatilize at least a portion of the polymeric coating. The result is that the coating material bursts from the fiber, yielding a clean glass surface virtually free of surface flaws. In a preferred embodiment the non-oxidizing environment is inert gas and the heat is provided by resistive filament heaters.Type: GrantFiled: October 1, 2001Date of Patent: February 28, 2006Inventors: Robert F. Swain, Andrew D. Yablon
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Patent number: 6964288Abstract: An automated fiber preparation system and method for automatically fabricating an optical fiber. One or more fabrication processes associated with fiber preparation may be performed on an optical fiber without requiring active user input. The fiber preparation system may be configured to automatically carry out each of the process steps for fabricating an optical fiber pigtail. The fiber preparation system may include a fiber preparation module that is configured to automatically prepare one or both ends of an optical fiber in anticipation of one or more subsequent manufacturing processes involving the fiber.Type: GrantFiled: July 6, 2001Date of Patent: November 15, 2005Assignee: kSARIA CorporationInventors: Anthony J. Christopher, Arthur W. Johnson, III, Dale A. Herman, Andre Sharon
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Publication number: 20040244428Abstract: A device for manufacturing a preform of glass material for optical fibres. A chemical deposition chamber, at least one burner mobile along a direction Z and adapted to deposit a chemical substance on at least an elongated element positioned along an axis Z-Z, at least one suction element mobile along the direction Z for collecting exhaust chemical substances, a collector tube associated with the at least one suction element and adapted to discharge the exhaust chemical substances outside the chemical deposition chamber through an exhaust opening formed on a wall of the chamber, and a coupling device between the collector tube and the wall at the exhaust opening, allowing sliding of the collector along the direction Z and along a direction X towards/away from the axis z-z.Type: ApplicationFiled: July 26, 2004Publication date: December 9, 2004Inventors: Giacomo Stefano Roba, Franco Veronelli
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Patent number: 6666984Abstract: An apparatus for forming a loop in a filament comprising a first wall having a first guide slot formed therein and a second wall having a second guide slot formed therein coplanar and parallel to the first guide slot. The first wall is opposite the second wall and each of the guide slots has opposing ends. A first gripper holds a filament at a first location. The first gripper is mounted from the first wall to the second wall at an end of each of the first guide slot and the second guide slot. The apparatus also includes a movable gripper to hold the filament at a second location. The movable gripper has a separation from the first gripper and is mounted from the first wall to the second wall adjacent to the other end of each of the first guide slot and the second guide slot for movement towards the first gripper to reduce the separation between them. This produces a loop of filament between the first gripper and the moveable gripper.Type: GrantFiled: December 10, 2002Date of Patent: December 23, 2003Inventors: Anthony William Gatica, Peter Henry Bruhn
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Publication number: 20030221457Abstract: A neutralization system for controlling the pH of the washwater used to clean and maintain polyacrylic bound glass forming equipment. The neutralization system introduces a base solution to a washwater solution when the pH of the washwater solution contained in a closed loop washwater recovery system falls below approximately 8.0, thereby substantially reducing the corrosion rate of the components of the equipment associated with acidic polyacrylic acid binder and washwater solution. A closed-loop hoodwall washwater recovery system may also be introduced in addition to the neutralization system that allows for the recovery and reuse of polyacrylic acid binder with a minimal amount of base solution, thereby minimizing degradation of insulation properties of polyacylic acid bound glass fiber products.Type: ApplicationFiled: May 31, 2002Publication date: December 4, 2003Inventors: Harry B. Cline, William E. Downey, Liang Chen, William R. Cooper
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Publication number: 20030221458Abstract: A neutralization system for controlling the pH of the washwater used to clean and maintain polyacrylic bound glass forming equipment. The neutralization system introduces a base solution to a washwater solution when the pH of the washwater solution contained in a closed loop washwater recovery system falls below about 8.5, thereby substantially reducing the corrosion rate of the components of the equipment associated with acidic polyacrylic acid binder, maleic acid cobinder or maleic anhydride cobinder and washwater solution. A closed-loop hoodwall washwater recovery system may also be introduced in addition to the neutralization system that allows for the recovery and reuse of polyacrylic acid binder and maleic acid cobinder or maleic anhydride cobinder with a minimal amount of base solution, thereby minimizing degradation of insulation properties of polyacylic acid bound glass fiber products.Type: ApplicationFiled: December 31, 2002Publication date: December 4, 2003Inventors: Harry B. Cline, William E. Downey, Liang Chen, Kathleen M. Bullock, Kevin S. Guigley, Yadollah Delaviz, William R. Cooper, Bobby R. Gibson, Michael P. Lewis, Michael V. Mager
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Patent number: 6647747Abstract: The invention discloses a multifunctional apparatus and method to manufacture mineral (basalt) fibers to be drawn/attenuated into a continuous strand made from natural rock basalts with and without supplemental minerals. More specifically this invention discloses apparatus designed to manufacture a high quality continuous amorphous mineral (basalt) fibers with flexible/ductile properties from 7 &mgr;m to 100 &mgr;m in diameter without traces of crystalline phases which are suitable for a variety of industrial applications.Type: GrantFiled: October 10, 2000Date of Patent: November 18, 2003Inventor: Vladimir B. Brik
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Patent number: 6547920Abstract: An apparatus for forming a loop in a filament comprising a first wall having a first guide slot formed therein and a second wall having a second guide slot formed therein coplanar and parallel to the first guide slot. The first wall is opposite the second wall and each of the guide slots has opposing ends. A first gripper holds a filament at a first location. The first gripper is mounted from the first wall to the second wall at an end of each of the first guide slot and the second guide slot. The apparatus also includes a movable gripper to hold the filament at a second location. The movable gripper has a separation from the first gripper and is mounted from the first wall to the second wall adjacent to the other end of each of the first guide slot and the second guide slot for movement towards the first gripper to reduce the separation between them. This produces a loop of filament between the first gripper and the moveable gripper.Type: GrantFiled: March 13, 2001Date of Patent: April 15, 2003Assignee: 3M Innovative PropertiesInventors: Anthony William Gatica, Peter Henry Bruhn
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Publication number: 20030000257Abstract: A method of optical fiber preparation includes concurrently processing a plurality of optical fibers which have a substantially vertical orientation, and the concurrent processing is substantially automated.Type: ApplicationFiled: June 29, 2001Publication date: January 2, 2003Inventors: Chester Hann Huei Chang, Scott Winfield Deming, Lewis Kirk Klingensmith, Woody Brian Swan, Patrick Aaron Parks, Thomas Shawn Moag, Michael Albert Joseph
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Publication number: 20020194879Abstract: An apparatus for manufacturing a glass base material, which is a base material of an optical fiber, the glass base material having a core rod as a central axis, comprises a holding unit having a plurality of scroll chucks connected in series along the core rod for holding an end of the core rod; and a burner that hydrolyzes a gas material, which is abase material of the glass base material, into glass particles and accumulates the glass particles around the core rod to form the glass base material.Type: ApplicationFiled: May 8, 2002Publication date: December 26, 2002Inventors: Junichiro Takei, Yuji Tobisaka, Hiroshi Machida, Hiroyuki Kume, Tadakatsu Shimada, Kiyoshi Yokokawa
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Patent number: 6463764Abstract: The invention relates to a method and apparatus for a glass manufacturing facility. The apparatus includes a glass production system providing an exhaust stream entrained with particulate material including germanium—containing particulate. The apparatus further includes an exhaust filtration system including a PTFE fabric material. The exhaust filtration system is connected to the production system to receive the exhaust stream an capture the particulate material. A collection system is connected to the exhaust system to collect the captured particulate material from the exhaust system. The particulate material collected contains at least about 2% by weight germanium. The invention further includes incorporating the aforementioned apparatus into the operation of a glass manufacturing facility.Type: GrantFiled: June 6, 2000Date of Patent: October 15, 2002Assignee: Corning IncorporatedInventors: Steven A. Dunwoody, Eric C. Hilton, Richard D. Pace
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Patent number: 6449986Abstract: In a method of manufacturing a porous glass preform for an optical fiber which preform is formed as a deposit of fine glass particles by using a burner, a method to prevent the contamination of any glass particles having failed to be properly deposited so that the generation of voids may be minimized in a transparent glass preform which is produced by heating the porous glass preform. An inert gas is caused to flow through the burner at a rate of at least 25 m/s before fine glass particles are formed by the hydrolysis and/or oxidation of a glass material in a flame produced by the burner supplied with a mixture of a gas of the glass material and a gas for combustion and are deposited on a rotating starting member. It is desirable to elevate the pressure of the inert gas above the atmospheric pressure by a device connected to the burner by a pipeline, and cause it to flow rapidly through the burner.Type: GrantFiled: November 5, 1999Date of Patent: September 17, 2002Assignee: Sumitomo Electric Industries, Ltd.Inventors: Takashi Sugiyama, Masahiko Matsui, Nobuyuki Hirano, Naoyuki Fukushima, Takao Kabaya
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Publication number: 20010037662Abstract: The present invention improves a tensile strength of an optical fiber obtained by heating to melt and drawing a preform and thereby realizes an extension of the surviving length of an optical fiber in a screening test. For this purpose, an optical fiber preform before the drawing step, that is, a preform (51), is stored while exposed to an ionized gas, that is, air (G), in a storage apparatus, and this stored preform (51) is conveyed while exposed to the ionized air (G) in the process of conveying this to a drawing use heating furnace, whereby deposition of foreign substances to the preform (51) is suppressed and a reduction of the tensile strength of the optical fiber due to the foreign substances can be prevented.Type: ApplicationFiled: January 24, 2001Publication date: November 8, 2001Applicant: The Furukawa Electric CO., LTDInventors: Yukio Kohmura, Yasuhiro Naka
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Patent number: 6260386Abstract: Glass preforms are cleaned by contacting each preform (11) with supercritical carbon dioxide which dissolves residual index-matching oil on the preform. The liquefied carbon dioxide is then converted to gaseous carbon dioxide which conveniently separates the index-matching oil so that it can be recovered and reused. The gaseous carbon dioxide is likewise recycled for use in cleaning other preforms, and so there is substantially no waste.Type: GrantFiled: March 10, 1994Date of Patent: July 17, 2001Assignee: Lucent Technologies Inc.Inventors: Jeffrey Jonathan Evans, Siu-Ping Hong, Urmi Ray, Trudy Murrell Thiele
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Patent number: 5931984Abstract: A device for drawing down an optical fiber preform (2) connected at one end to a feed rod (3) having an equal or smaller diameter. A chamber (11) in which the preform is drawn has an upper part (11A) with an opening (12). The opening engages the preform to seal the chamber. An enclosure (5) has a seal (6) at its upper part (5A) for sealing around the feed rod. A lower part (5B) of the enclosure contacts the upper part of the chamber to seal the chamber while the feed rod is passing through the opening.Type: GrantFiled: April 22, 1997Date of Patent: August 3, 1999Assignee: Alcatel Fibres OptiquesInventors: Alain Drouart, Max Matau, Pascal Mazabraud
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Patent number: 5597398Abstract: A process for producing a porous glass preform for optical fiber by depositing fine glass particles on an outer surface of a glass material while moving the glass material, including the steps of: preheating a portion of the glass material for not less than 5 minutes to clean the portion of the glass material in an apparatus for depositing fine glass particles; and depositing fine glass particles on the portion of the glass material cleaned by the preheating, in the apparatus for depositing fine glass particles.Type: GrantFiled: June 15, 1994Date of Patent: January 28, 1997Assignee: Sumitomo Electric Industries, Ltd.Inventors: Shinji Ishikawa, Yoshiki Chigusa, Motonori Nakamura, Yoshinori Makio, Morio Watanabe