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    • 2. 发明申请
    • METHOD AND DEVICE FOR HOMOGENIZING GLASS MELT
    • 用于均质玻璃熔体的方法和装置
    • US20110083474A1
    • 2011-04-14
    • US12969693
    • 2010-12-16
    • Christoph BerndhaeuserFrank-Thomas LentesKarin NaumannHans DuerolfHolger Hunnius
    • Christoph BerndhaeuserFrank-Thomas LentesKarin NaumannHans DuerolfHolger Hunnius
    • C03B5/187
    • C03B5/1875B01F7/00125B01F7/00141B01F7/00258B01F7/00425B01F7/00908B01F7/00975B01F13/1013B01F13/1016B01F13/1022Y02P40/57
    • The invention relates to a method and to a device for homogenizing a glass melt in a melt receptacle, wherein at least one stirring device (10, 11) is disposed in the melt receptacle, which comprises a stirrer shaft (10) and a plurality of stirrer blades (11), and wherein a gap (16) is formed between a wall region of the melt receptacle (2) and the stirrer blades (11).According to the invention, the respective stirring device causes an axial feed action in an inner stirring region (12) between the stirrer shaft (10) and the stirrer blades (11) in order to feed the melt in the stirring region along the stirrer shaft (10). A melt flow brought about by the axial feed action seals the gap (16) against direct passage of the melt.According to the invention, a very high gap width can be achieved, thus preventing the abrasion of materials in the region of the marginal gap. This also reduces the complexity required for adjusting the device. According to the invention, a high level of homogenization can be achieved regardless of the entry point of the inhomogeneities.
    • 本发明涉及一种用于使熔体容器中的玻璃熔体均质化的方法和装置,其中至少一个搅拌装置(10,11)设置在熔体容器中,该搅拌装置包括搅拌轴(10)和多个 搅拌器叶片(11),并且其中在熔体容器(2)的壁区域和搅拌器叶片(11)之间形成间隙(16)。 根据本发明,相应的搅拌装置在搅拌器轴(10)和搅拌器叶片(11)之间的内部搅拌区域(12)中引起轴向进给,以便沿着搅拌器轴 (10)。 通过轴向进给动作引起的熔体流动密封间隙(16)以防止熔体直接通过。 根据本发明,可以实现非常高的间隙宽度,从而防止边缘间隙区域内材料的磨损。 这也降低了调整设备所需的复杂性。 根据本发明,可以实现高均匀化水平,而不考虑不均匀性的切入点。
    • 6. 发明申请
    • METHOD AND DEVICE FOR HOMOGENIZING GLASS MELT
    • 用于均质玻璃熔体的方法和装置
    • US20080148780A1
    • 2008-06-26
    • US11957727
    • 2007-12-17
    • Christoph BerndhaeuserFrank-Thomas LentesKarin NaumannHans DuerolfHolger Hunnius
    • Christoph BerndhaeuserFrank-Thomas LentesKarin NaumannHans DuerolfHolger Hunnius
    • C03B5/187
    • C03B5/1875B01F7/00125B01F7/00141B01F7/00258B01F7/00425B01F7/00908B01F7/00975B01F13/1013B01F13/1016B01F13/1022Y02P40/57
    • The invention relates to a method and to a device for homogenizing a glass melt in a melt receptacle, wherein at least one stirring device (10, 11) is disposed in the melt receptacle, which comprises a stirrer shaft (10) and a plurality of stirrer blades (11), and wherein a gap (16) is formed between a wall region of the melt receptacle (2) and the stirrer blades (11).According to the invention, the respective stirring device causes an axial feed action in an inner stirring region (12) between the stirrer shaft (10) and the stirrer blades (11) in order to feed the melt in the stirring region along the stirrer shaft (10). A melt flow brought about by the axial feed action seals the gap (16) against direct passage of the melt.According to the invention, a very high gap width can be achieved, thus preventing the abrasion of materials in the region of the marginal gap. This also reduces the complexity required for adjusting the device. According to the invention, a high level of homogenization can be achieved regardless of the entry point of the inhomogeneities.
    • 本发明涉及一种用于使熔体容器中的玻璃熔体均质化的方法和装置,其中至少一个搅拌装置(10,11)设置在熔体容器中,该搅拌装置包括搅拌轴(10)和多个 搅拌器叶片(11),并且其中在熔体容器(2)的壁区域和搅拌器叶片(11)之间形成间隙(16)。 根据本发明,相应的搅拌装置在搅拌器轴(10)和搅拌器叶片(11)之间的内部搅拌区域(12)中引起轴向进给,以便沿着搅拌器轴 (10)。 通过轴向进给动作引起的熔体流动密封间隙(16)以防止熔体直接通过。 根据本发明,可以实现非常高的间隙宽度,从而防止边缘间隙区域内材料的磨损。 这也降低了调整设备所需的复杂性。 根据本发明,可以实现高均匀化水平,而不考虑不均匀性的切入点。
    • 9. 发明授权
    • Glass with high proportion of zirconium-oxide and its uses
    • 具有高比例氧化锆的玻璃及其用途
    • US06630420B1
    • 2003-10-07
    • US09913424
    • 2002-01-16
    • Karin NaumannNorbert Greulich-HickmannUwe KolbergWerner KieferSimone Ritter
    • Karin NaumannNorbert Greulich-HickmannUwe KolbergWerner KieferSimone Ritter
    • C03C3087
    • C03C3/087C03C13/002
    • The silicate glass has a composition (in % by weight, based on oxide) of SiO2, 54-72; Al2O3, 0.5-7; ZrO2, 10-20; B2O3, 0- 5-24; La2O3, 0-5; and TiO2, 0-4. The glass also contains at least 0.6 percent by weight of La2O3 or at least 0.1 percent by weight TiO2. The glass has a hydrolytic resistance in hydrolytic glass 1, an acid resistance in acid class 3 or better, preferably acid class 1, a caustic lye resistance in lye class 1, a glass transition temperature (Tg) of at least 650° C., a thermal expansion coefficient (&agr;20/300) of 4.1×10−6 to 7.4×10−6/K, a refractive index (nd) of 1.53 to 1.63, an Abbé number (&ngr;d) of 48 to 58 and a negative anomalous partial dispersion in a blue spectral region (&Dgr;Pg,F) of up to −0.0130.
    • 硅酸盐玻璃具有SiO 2,54-72的组成(按重量计,基于氧化物); Al2O3,0.5-7; ZrO2,10-20; B2O3,0- <5; Na2O,3-8; K2O,0-5; 与Na2O + K2O,2- <8; CaO,3-11; MgO,0-10; SrO,0-8; BaO,0α10; CaO + MgO + SrO + BaO> 5〜24; La2O3,0-5; 和TiO2,0-4。 该玻璃还含有至少0.6重量%的La 2 O 3或至少0.1重量%的TiO 2。 该玻璃在水解玻璃1中具有耐水解性,酸3级或更好,优选酸1级,碱液碱度1的耐碱碱液,玻璃化转变温度(Tg)至少为650℃, 4.1×10 -6至7.4×10 -6 / K的热膨胀系数(α20/ 300),折射率(nd)为1.53至1.63,Abbé数(nud)为48至58,负的 蓝色光谱区域中的异常部分色散(DeltaPg,F)高达-0.0130。