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公开(公告)号:US20100199720A1
公开(公告)日:2010-08-12
申请号:US12704022
申请日:2010-02-11
申请人: Hildegard Roemer , Stefan Schmitt , Wilfried Linz , Joachim Kuester , Guido Raeke , Frank-Thomas Lentes , Karin Naumann
发明人: Hildegard Roemer , Stefan Schmitt , Wilfried Linz , Joachim Kuester , Guido Raeke , Frank-Thomas Lentes , Karin Naumann
摘要: The apparatus (300) for feeding, homogenizing, and conditioning a high viscosity glass melt for manufacturing display glass has a stirring device (110, 406), an upstream connecting part (100, 400) that connects the stirring device (110, 406) to an upstream melting and/or refining unit, and a downstream connecting part (120, 420) that connects the stirring device (110, 406) to a downstream forming or shaping device. Wall material and base material of the first and connecting parts and the stirring device (110, 406) coming in contact with the glass melt are made from a zirconium-dioxide-containing fire-resistant material containing a large amount, preferably more than 85 wt. %, of zirconium dioxide. A method of operating the apparatus to make display glass is also described.
摘要翻译: 用于进行均匀化和调理用于制造显示玻璃的高粘度玻璃熔体的装置(300)具有搅拌装置(110,406),连接搅拌装置(110,406)的上游连接部(100,400) 以及将搅拌装置(110,406)连接到下游成型或成形装置的下游连接部分(120,420)。 与玻璃熔体接触的第一和连接部件和搅拌装置(110,406)的壁材料和基材由含有二氧化锆的耐火材料制成,所述耐二氧化锆的耐火材料含有大量,优选大于85重量% 。 %的二氧化锆。 还描述了操作制造显示器玻璃的装置的方法。
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公开(公告)号:US07530238B2
公开(公告)日:2009-05-12
申请号:US10536538
申请日:2003-11-27
申请人: Rainer Eichholz , Guido Raeke , Volker Ohmstede , Gunter Weidmann , Frank-Thomas Lentes , Thomas Stelle , Ernst-Walter Schaefer , Hildegard Roemer , Joerg Schollmayer , Holger Hunnius , Frank-Jurgen Druschke
发明人: Rainer Eichholz , Guido Raeke , Volker Ohmstede , Gunter Weidmann , Frank-Thomas Lentes , Thomas Stelle , Ernst-Walter Schaefer , Hildegard Roemer , Joerg Schollmayer , Holger Hunnius , Frank-Jurgen Druschke
IPC分类号: C03B9/38
摘要: A heating apparatus for the conductive heating of melts, in particular for the rapid melting-down, refining and/or conditioning of melts, is provided. The heating apparatus includes at least one electrode, as well as a first cooling system with a cooling power, which can be set and/or controlled variably.
摘要翻译: 提供了用于熔融物的导电加热的加热装置,特别是用于熔融物的快速熔化,精炼和/或调节。 加热装置包括至少一个电极,以及具有冷却功率的第一冷却系统,其可以可变地设定和/或控制。
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3.发明申请公开(公告)号:US20060137402A1
公开(公告)日:2006-06-29
申请号:US10536538
申请日:2003-11-27
申请人: Rainer Eichholz , Guido Raeke , Volker Ohmstede , Gunter Weidmann , Frank-Thomas Lentes , Thomas Stelle , Ernst-Walter Schaefer , Hildegard Roemer , Joerg Schollmayer , Holger Hunnius , Frank-Juergen Druschke
发明人: Rainer Eichholz , Guido Raeke , Volker Ohmstede , Gunter Weidmann , Frank-Thomas Lentes , Thomas Stelle , Ernst-Walter Schaefer , Hildegard Roemer , Joerg Schollmayer , Holger Hunnius , Frank-Juergen Druschke
摘要: A heating apparatus for the conductive heating of melts, in particular for the rapid melting-down, refining and/or conditioning of melts, is provided. The heating apparatus includes at least one electrode, as well as a first cooling system with a cooling power, which can be set and/or controlled variably.
摘要翻译: 提供了用于熔融物的导电加热的加热装置,特别是用于熔融物的快速熔化,精炼和/或调节。 加热装置包括至少一个电极,以及具有冷却功率的第一冷却系统,其可以可变地设定和/或控制。
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公开(公告)号:US08869564B2
公开(公告)日:2014-10-28
申请号:US12161502
申请日:2007-01-22
申请人: Andreas Gross , Hildegard Roemer , Norbert Greulich-Hickmann , Guido Raeke , Guenter Weidmann , Thomas Stelle , Volker Ohmstede , Wolfgang Jost
发明人: Andreas Gross , Hildegard Roemer , Norbert Greulich-Hickmann , Guido Raeke , Guenter Weidmann , Thomas Stelle , Volker Ohmstede , Wolfgang Jost
摘要: For permitting temperature manipulation of a melt even at a conductivity below 10−1 Ω−1 cm−1 and thus permitting refining of the melt at temperatures about 1700° C., the invention provides a method and a device for temperature manipulation of a melt (16), in particular in a refiner unit. The melt (16) is heated at least by ohmic resistance heating with at least two electrodes (4) that are arranged in the melt (16). At least a part of the melt (16) is cooled. The device (1) for temperature manipulation, refining, purification and homogenisation of a melt (16) comprises at least one arrangement for accommodating melt material (36, 16), defining an inner chamber, and at least two electrodes (4) for ohmic resistance heating of the melt (16). The electrodes (4) project into the inner chamber of the arrangement, in particular of a vessel (2).
摘要翻译: 为了允许即使在低于10-1&OHgr -1 -1cm -1的电导率下的熔体的温度操纵,并且因此允许在约1700℃的温度下对熔体进行精炼,本发明提供了一种用于温度操纵的方法和装置 熔化(16),特别是在精磨机中。 至少通过布置在熔体(16)中的至少两个电极(4),通过欧姆电阻加热将熔体(16)加热。 至少一部分熔体(16)被冷却。 用于熔体(16)的温度调节,精炼,纯化和均化的装置(1)包括至少一个用于容纳限定内室的熔化材料(36,16)和用于欧姆的至少两个电极(4)的装置 熔体(16)的电阻加热。 电极(4)突出到装置的内腔中,特别是容器(2)的内腔。
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公开(公告)号:US20100218558A1
公开(公告)日:2010-09-02
申请号:US12161502
申请日:2007-01-22
申请人: Andreas Gross , Hildegard Roemer , Norbert Greulich-Hickmann , Guido Raeke , Guenter Weidmann , Thomas Stelle , Volker Ohmstede , Wolfgang Jost
发明人: Andreas Gross , Hildegard Roemer , Norbert Greulich-Hickmann , Guido Raeke , Guenter Weidmann , Thomas Stelle , Volker Ohmstede , Wolfgang Jost
摘要: For permitting temperature manipulation of a melt even at a conductivity below 10−1 Ω−1 cm−1 and thus permitting refining of the melt at temperatures about 1700° C., the invention provides a method and a device for temperature manipulation of a melt (16), in particular in a refiner unit. The melt (16) is heated at least by ohmic resistance heating with at least two electrodes (4) that are arranged in the melt (16). At least a part of the melt (16) is cooled. The device (1) for temperature manipulation, refining, purification and homogenisation of a melt (16) comprises at least one arrangement for accommodating melt material (36, 16), defining an inner chamber, and at least two electrodes (4) for ohmic resistance heating of the melt (16). The electrodes (4) project into the inner chamber of the arrangement, in particular of a vessel (2).
摘要翻译: 为了允许即使在低于10-1&OHgr -1 -1cm -1的电导率下的熔体的温度操纵,并且因此允许在约1700℃的温度下对熔体进行精炼,本发明提供了一种用于温度操纵的方法和装置 熔化(16),特别是在精磨机中。 至少通过布置在熔体(16)中的至少两个电极(4),通过欧姆电阻加热将熔体(16)加热。 至少一部分熔体(16)被冷却。 用于熔体(16)的温度调节,精炼,纯化和均化的装置(1)包括至少一个用于容纳限定内室的熔化材料(36,16)和用于欧姆的至少两个电极(4)的装置 熔体(16)的电阻加热。 电极(4)突出到装置的内腔中,特别是容器(2)的内腔。
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公开(公告)号:US06912874B2
公开(公告)日:2005-07-05
申请号:US09943739
申请日:2001-09-04
申请人: Christian Kunert , Werner Kiefer , Hildegard Roemer , Uwe Kolberg
发明人: Christian Kunert , Werner Kiefer , Hildegard Roemer , Uwe Kolberg
CPC分类号: B01J4/002 , B01F3/04248 , B01F15/066 , B01F2003/04964 , B01F2015/061 , B01J4/001 , B01J10/005 , B01J2219/00119 , C03B5/193 , Y10T137/6579 , Y10T137/7036
摘要: This invention relates to a device and a process for introducing gases into a hot medium, whereby device (1) contains a pipe (2) for introducing gas and a cooling jacket (3) that encases pipe (2).
摘要翻译: 本发明涉及一种用于将气体引入热介质的装置和方法,由此装置(1)包含用于引入气体的管道(2)和包围管道(2)的冷却套管(3)。
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公开(公告)号:US06417124B1
公开(公告)日:2002-07-09
申请号:US09642561
申请日:2000-08-21
申请人: Ulrich Peuchert , Thomas Pfeiffer , Peter Brix , Hildegard Roemer
发明人: Ulrich Peuchert , Thomas Pfeiffer , Peter Brix , Hildegard Roemer
IPC分类号: C03C3091
摘要: The invention relates a alkali-free aluminoborosilicate glasses having the following composition (in % by weight, based on oxide): SiO2 50-70, B2O3 0.5-15, Al2O3 10-25, MgO 0-10, CaO 0-12, SrO 0-12, BaO 0-15, with MgO+CaO+SrO+BaO 8-26, ZnO 0-10, ZrO2 0-5, TiO2 0-5, SnO2 0-2, MoO3 0.05-2. The glasses are particularly suitable as substract glasses for display and photovoltaic applications.
摘要翻译: 本发明涉及具有以下组成(以重量%计,基于氧化物)的无碱铝硼硅酸盐玻璃:SiO 2 50-70,B 2 O 3 0.5-15,Al 2 O 3 10-25,MgO 0-10,CaO 0-12,SrO 0-12,BaO 0-15,MgO + CaO + SrO + BaO 8-26,ZnO 0-10,ZrO 2 0-5,TiO 2 0-5,SnO 2 0-2,MoO 3 0.05-2。 眼镜特别适用于显示器和光伏应用的减光眼镜。
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