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    • 1. 发明授权
    • Method for elongating a cylinder of silica glass
    • 二氧化硅玻璃圆筒伸长方法
    • US06938442B1
    • 2005-09-06
    • US09958245
    • 2000-03-22
    • Clemens SchmittKarsten BräuerUwe ChristiansenRainer KöpplerHeinz Fabian
    • Clemens SchmittKarsten BräuerUwe ChristiansenRainer KöpplerHeinz Fabian
    • G02B6/00C03B20/00C03B23/045C03B23/047C03B37/012C03B37/025
    • C03B37/025C03B23/045C03B23/047
    • According to a prior art method for producing a cylindrical component comprised of silica glass, a cylinder comprised of a softened silica glass mass is drawn in a predetermined drawing direction along a drawing axis by means of a drawing device which acts upon said cylinder. The aim of the invention is to provide a method which prevents, to the greatest possible extent, warping of the drawn cylinder and other deviations from the ideal cylinder dimensions and to prevent, to the greatest possible extent, the outer surface of the drawn cylinder from being touched. To these ends, the invention provides that the drawing device comprises a plurality of guide elements which are arranged one behind the other along the drawing axis, and which can be displaced independently of one another in a drawing direction and in a direction opposite thereto. At least two of said guide elements which maintain an engaging distance from one another are simultaneously displaced, in a frictionally engaged manner, on the cylinder in a drawing direction and with an identical drawing speed. A device suited for carrying out the inventive method comprises a feed device, a heating zone and a drawing device by means of which a cylinder is drawn along a drawing axis and in a predetermined drawing direction with a controlled drawing speed. The drawing device comprises a number of drawing elements which are arranged one behind the other along the drawing axis and which can be displaced independently of one another in a drawing direction and in a direction opposite thereto.
    • 根据用于制造由石英玻璃构成的圆柱形部件的现有技术方法,由软化石英玻璃组成的圆筒通过作用在所述圆筒上的拉伸装置沿着拉伸轴线沿预定的拉伸方向拉伸。 本发明的目的是提供一种方法,其最大可能地防止拉伸圆柱体的翘曲和其它偏离理想圆柱体尺寸的偏差,并且在最大可能程度上防止拉拔圆柱体的外表面从 被触动 为此,本发明提供了一种拉伸装置,其包括多个引导元件,该引导元件沿着牵引轴线一个接一个地布置,并且可沿着与拉伸方向相反的方向彼此独立地移位。 保持彼此接合距离的至少两个所述引导元件在摩擦接合的方式上同时沿拉伸方向和相同的拉拔速度移动。 适于实施本发明的方法的装置包括进料装置,加热区和拉伸装置,借助于该装置,以受控的拉伸速度沿着拉伸轴和预定的拉伸方向拉伸圆筒。 拉伸装置包括多个沿着拉伸轴线彼此排列的拉伸元件,并且可以沿着拉伸方向和与其相反的方向彼此独立地移位。
    • 3. 发明授权
    • Method for the production of a blank mold for optical fibers
    • 用于生产光纤空白模具的方法
    • US07716952B2
    • 2010-05-18
    • US10552539
    • 2004-04-06
    • Gerhard SchötzKarsten BräuerHeinz FabianNorbert Treber
    • Gerhard SchötzKarsten BräuerHeinz FabianNorbert Treber
    • C03B37/075C03B37/07C03B37/018C03C13/00C03C25/00G02B6/00G01N23/00
    • C03B37/01291C03B37/01211C03B37/01426C03B37/01466C03B2201/12Y02P40/57
    • In a known method for the production of a blank mold for optical fibers, a fluorine-doped SiO2 enveloping glass is produced on a core glass cylinder that rotates about its longitudinal axis, wherein a silicon-containing starting substance is fed to a plasma burner, said substance is then oxidized in a plasma flame assigned to the plasma burner to obtain SiO2 particles, the SiO2 particles are deposited by layers on the enveloping surface of the cylinder of the core glass cylinder in the presence of fluorine and sintered into the enveloping glass. The invention aims at providing an economical method, which builds upon the above-mentioned method, in order to produce a blank mold from which optical multi-mode fibers (52) can be obtained. In comparison with fibers (51) produced according to standard methods, said optical multi-mode fibers are characterized by high initial transmission in the UV wavelength range and good resistance with respect to brief UV radiation, more particularly in the 210-300 nm wavelength range. According to the invention, a plasma flame that irradiates an ultraviolet light having a wavelength of 214 nm with an intensity of at least 0.9 ?W—determined on the basis of plasma flame intensity measurement—is used for the formation and deposition of the SiO2 particles on the core glass.
    • 在用于生产光纤空白模具的已知方法中,在围绕其纵向轴线旋转的芯玻璃圆筒上产生氟掺杂的SiO 2包封玻璃,其中含硅原料被供给到等离子体燃烧器, 然后将所述物质在分配给等离子体燃烧器的等离子体火焰中氧化以获得SiO 2颗粒,SiO 2颗粒在氟存在下通过层沉积在芯玻璃圆筒的圆筒的包络表面上并烧结到包封玻璃中。 本发明的目的在于提供一种以上述方法为基础的经济的方法,以便制造可得到光学多模光纤(52)的坯模。 与根据标准方法生产的纤维(51)相比,所述光学多模光纤的特征在于在UV波长范围内的初始透射率高,并且对于短暂的UV辐射具有良好的电阻,更特别地在210-300nm波长范围 。 根据本发明,使用基于等离子体火焰强度测量来测定波长为214nm的强度至少为0.9≤W的紫外光的等离子体火焰,用于SiO 2颗粒的形成和沉积 在核心玻璃上。
    • 4. 发明授权
    • Process and apparatus for the production of a cylindrical component of glass
    • 用于生产玻璃的圆柱形部件的方法和设备
    • US06715317B1
    • 2004-04-06
    • US08897713
    • 1997-07-21
    • Karsten BräuerFrank GänsickeHelmut FriedrichHeinz Fabian
    • Karsten BräuerFrank GänsickeHelmut FriedrichHeinz Fabian
    • C03B23047
    • C03B23/047C03B23/043
    • A glass composition to be softened is fed to a heating zone and is shaped continuously into a cylindrical component in a deformation zone, and the cross-sectional geometry of the component is determined. A feed device, a heating device, and a take-off device are provided, and a glass composition is supplied continuously by the feed device to the heating device, where it is softened, the component being formed from the softened glass composition by means of the take-off device under formation of a deformation zone. To produce a component with only slight deviations from the desired cross-sectional geometry and to provide a flexible apparatus suitable for this purpose, the glass composition is locally heated or cooled in at least one deformation area, which extends over only a part of the circumference of the deformation zone, as a function of a determined deviation of the cross-sectional geometry from a nominal geometry. Heating or cooling are provided, which act locally on at least one deformation area, which extends over only a part of the circumference of the deformation zone.
    • 将要软化的玻璃组合物供给到加热区,并且在变形区域中连续成形为圆柱形部件,并且确定部件的横截面几何形状。 提供进料装置,加热装置和取出装置,并且通过进料装置将玻璃组合物连续供给到加热装置,在该加热装置中软化,由软化玻璃组合物形成的部件借助于 起飞装置形成一个变形区。 为了产生仅与所需横截面几何形状稍微偏离的部件,并提供适合于此目的的柔性装置,玻璃组合物在至少一个变形区域中被局部加热或冷却,该变形区域仅在圆周的一部分上延伸 的变形区域,作为横截面几何形状与标称几何形状的确定偏差的函数。 提供加热或冷却,其在至少一个仅在变形区的圆周的一部分延伸的变形区域上起作用。
    • 5. 发明授权
    • Method and device for producing a blank mold from synthetic quartz glass by using a plasma-assisted deposition method
    • 通过使用等离子体辅助沉积法从合成石英玻璃制造空白模具的方法和装置
    • US08336337B2
    • 2012-12-25
    • US10519016
    • 2003-07-07
    • Richard SchmidtKarsten Bräuer
    • Richard SchmidtKarsten Bräuer
    • C03B37/018
    • H05H1/30C03B37/01426C03B2201/04C03B2201/075C03B2201/12
    • The invention relates to a method for producing a blank mold from synthetic quartz glass by using a plasma-assisted deposition method, according to which a hydrogen-free media flow containing a glass starting material and a carrier gas is fed to a multi-nozzle deposition burner. The glass starting material is introduced into a plasma zone by the deposition burner and is oxidized therein while forming SiO2 particles, and the SiO2 particles are deposited on a deposition surface while being directly vitrified. In order to increase the deposition efficiency, the invention provides that the deposition burner (1) focuses the media flow toward the plasma zone (4) by. A multi-nozzle plasma burner, which is suited for carrying out the method and which is provided with a media nozzle for feeding a media flow to the plasma zone, is characterized in that the media nozzle (7) is designed so that it is focussed toward the plasma zone (4). The focussing is effected by a tapering (6) of the media nozzle (7).
    • 本发明涉及一种通过使用等离子体辅助沉积方法从合成石英玻璃制造空白模具的方法,根据该方法,将含有玻璃原料和载气的无氢介质流进料到多喷嘴沉积 刻录机。 玻璃原料通过沉积燃烧器引入等离子体区域,并在其中被氧化,同时形成SiO 2颗粒,并且SiO 2颗粒沉积在沉积表面上同时被直接玻璃化。 为了提高沉积效率,本发明提供了沉积燃烧器(1)将介质流聚焦到等离子体区(4)。 适用于执行该方法并且具有用于将介质流供给到等离子体区域的介质喷嘴的多喷嘴等离子燃烧器的特征在于,介质喷嘴(7)被设计成使其聚焦 朝向等离子体区(4)。 聚焦由介质喷嘴(7)的锥形(6)实现。
    • 6. 发明申请
    • METHOD FOR THE PRODUCTION OF A BLANK MOLD FOR OPTICAL FIBERS
    • 用于生产用于光纤的空白模具的方法
    • US20100186453A1
    • 2010-07-29
    • US12730784
    • 2010-03-24
    • Gerhard SchötzKarsten BräuerMichael HünermannRichard SchmidtHeinz FabianNorbert Treber
    • Gerhard SchötzKarsten BräuerMichael HünermannRichard SchmidtHeinz FabianNorbert Treber
    • C03B37/018
    • C03B37/01291C03B37/01211C03B37/01426C03B37/01466C03B2201/12Y02P40/57
    • In a known method for the production of a blank mold for optical fibers, a fluorine-doped SiO2 enveloping glass is produced on a core glass cylinder that rotates about its longitudinal axis, wherein a silicon-containing starting substance is fed to a plasma burner, said substance is then oxidized in a plasma flame assigned to the plasma burner to obtain SiO2 particles, the SiO2 particles are deposited by layers on the enveloping surface of the cylinder of the core glass cylinder in the presence of fluorine and sintered into the enveloping glass. The invention aims at providing an economical method, which builds upon the above-mentioned method, in order to produce a blank mold from which optical multi-mode fibers (52) can be obtained. In comparison with fibers (51) produced according to standard methods, said optical multi-mode fibers are characterized by high initial transmission in the UV wavelength range and good resistance with respect to brief UV radiation, more particularly in the 210-300 nm wavelength range. According to the invention, a plasma flame that irradiates an ultraviolet light having a wavelength of 214 nm with an intensity of at least 0.9 μW—determined on the basis of plasma flame intensity measurement—is used for the formation and deposition of the SiO2 particles on the core glass.
    • 在用于生产光纤空白模具的已知方法中,在围绕其纵向轴线旋转的芯玻璃圆筒上产生氟掺杂的SiO 2包封玻璃,其中含硅原料被供给到等离子体燃烧器, 然后将所述物质在分配给等离子体燃烧器的等离子体火焰中氧化以获得SiO 2颗粒,SiO 2颗粒在氟存在下通过层沉积在芯玻璃圆筒的圆筒的包络表面上并烧结到包封玻璃中。 本发明的目的在于提供一种以上述方法为基础的经济的方法,以便制造可得到光学多模光纤(52)的坯模。 与根据标准方法生产的纤维(51)相比,所述光学多模光纤的特征在于在UV波长范围内的初始透射率高,并且对于短暂的UV辐射具有良好的电阻,更特别地在210-300nm波长范围 。 根据本发明,使用基于等离子体火焰强度测量来测量具有至少0.9μW的强度的波长为214nm的紫外光的等离子体火焰,用于SiO 2颗粒的形成和沉积 核心玻璃。