会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明公开
    • METHODS AND APPARATUS FOR FORMING A GLASS RIBBON
    • VERFAHREN UND VORRICHTUNG ZUM FORMEN EINES GLASBANDES
    • EP3024785A1
    • 2016-06-01
    • EP14748385.3
    • 2014-07-17
    • Corning Incorporated
    • FREDHOLM, Allan Mark
    • C03B13/16C03B13/04
    • C03B13/04C03B13/16
    • A roll forming apparatus includes at least one forming roll being spaced from a forming body to define a gap. The forming roll includes a working zone portion having a working zone surface with a length extending along a rotation axis of the forming roll and a thermal resistance boundary extending at an acute angle relative to the rotation axis. In further examples, methods include the step of feeding a stream of molten glass through the gap to form a glass ribbon including a formed thickness. The thermal resistance boundary facilitates substantial uniform radial expansion of the working zone surface relative to the rotation axis across the length of the working zone surface in response to heating of the working zone portion by the molten glass.
    • 辊成形装置包括至少一个成形辊,其与成形体间隔开以限定间隙。 成型辊包括具有工作区域表面的工作区域部分,工作区域表面具有沿成形辊的旋转轴线延伸的长度和相对于旋转轴线以锐角延伸的热阻边界。 在另外的实例中,方法包括通过间隙供给熔融玻璃流以形成包括成形厚度的玻璃带的步骤。 热阻边界响应于工作区部分由熔融玻璃的加热,促使工作区表面相对于旋转轴在工作区表面的长度上的大致均匀的径向膨胀。
    • 3. 发明公开
    • Method for making crystallized glass by rolling and heat treating and apparatus
    • 通过轧制和热处理制造结晶玻璃的方法和设备
    • EP2524901A3
    • 2013-04-24
    • EP12001849.4
    • 2012-03-19
    • Huzhou Ta Hsiang Glass Products Co., Ltd.Ta Hsiang Containers Ind.Co., Ltd
    • Hsu, Kuo-ChuanJiang, Yan-BinQu, Chao
    • C03B13/04C03B25/08C03B32/02C03B5/24C03B5/26C03C10/12
    • C03B25/08C03B5/245C03B5/265C03B13/04C03B32/02C03C3/097C03C10/0027Y02P40/57
    • A consecutive molding method for crystallized glass comprises: a melting process to obtain molten glass by melting glass raw materials; a molding process to obtain a band-shaped plate glass by roll forming the molten glass to become band-shaped; a crystallization process to obtain a band-shaped crystallized glass plate by conducting thermal treatment on the band-shaped plate glass to crystallize it; and a cutting process to cut the band-shaped crystallized glass plate, wherein the crystallization process includes: a crystal nucleus-formation process to form crystal nuclei in the band-shaped plate glass obtained in the molding process by disposing the band-shaped plate glass in the atmosphere of a crystal nucleus-formation temperature and retaining it at the temperature; a temperature-raising process to raise the temperature of the band-shaped plate glass where crystal nuclei have been formed to a crystal-growth temperature; a crystal-growth process to retain the band-shaped plate glass where crystal nuclei have been formed at the crystal-growth temperature such that the glass is crystallized to produce a band-shaped crystallized glass plate; and a slow-cooling process to slowly cool down the band-shaped crystallized glass plate.
    • 一种用于结晶玻璃的连续模制方法包括:通过熔化玻璃原料来获得熔融玻璃的熔融过程; 通过将所述熔融玻璃辊成形为带状来获得带状平板玻璃的成型工艺; 通过对所述带状平板玻璃进行热处理使其结晶而获得带状结晶玻璃板的结晶工艺; 以及切断工序,切断所述带状结晶化玻璃板,所述结晶化工序包括:在所述成型工序中得到的带状平板玻璃中,通过配置所述带状平板玻璃而形成晶核的晶核形成工序 在晶核形成温度的气氛中并保持在该温度下; 将形成晶核的带状平板玻璃的温度升高至晶体生长温度的升温过程; 在结晶生长温度下保持形成晶核的带状平板玻璃的晶体生长工艺,使得玻璃结晶以产生带状结晶玻璃板; 以及缓慢冷却带状结晶玻璃板的过程。
    • 7. 发明公开
    • Precision forming of sheet glass and sheet rolling apparatus
    • Präzisionsformungvon Flachglas und Flachglasrollvorrichtung
    • EP2738143A1
    • 2014-06-04
    • EP12306484.2
    • 2012-11-29
    • Corning Incorporated
    • POISSY, Stéphane
    • C03B13/00C03B13/04C03B13/08C03B13/16C03B17/06
    • C03B13/16C03B13/04C03B17/06
    • An apparatus (10) for forming sheet glass includes a pair of rollers (12a, 12b) arranged in opposing relation to form a nip gap (38). At least one of the rollers (12a, 12b) is translatable to adjust a width (39) of the nip gap (38). A pair of spacer belts (34, 36) passes in between the pair of rollers (12a, 12b). The spacer belts (34, 36) are spaced apart along a length of the pair of rollers (12a, 12b) and have a thickness to set the width (39) of the nip gap (38). At least one actuator (42a, 42b) is coupled to at least one of the rollers (12a, 12b) and operable to adjust a width (39) of the nip gap (38) until the pair of spacer belts (34, 36) is gripped by the pair of rollers (12a, 12b) and the thickness of the pair of spacer belts (34, 36) sets the width (39) of the nip gap (38).
    • 一种用于形成片状玻璃的装置(10)包括一对以相对的关系布置的辊(12a,12b),以形成压合间隙(38)。 至少一个辊(12a,12b)可平移以调节压区间隙(38)的宽度(39)。 一对隔离带(34,36)穿过该对辊(12a,12b)之间。 间隔带(34,36)沿着一对辊(12a,12b)的长度间隔开,并且具有设定压区间隙(38)的宽度(39)的厚度。 至少一个致动器(42a,42b)联接到至少一个辊(12a,12b)并且可操作以调节压合间隙(38)的宽度(39),直到所述一对间隔带(34,36) 被所述一对辊(12a,12b)夹住,并且所述一对间隔带(34,36)的厚度设定所述夹持间隙(38)的宽度(39)。
    • 10. 发明公开
    • METHOD AND APPARATUS FOR MANUFACTURING PLATE GLASS BY ROLL FORMING, AND PLATE GLASS PRODUCT
    • VERFAHREN UND VORRICHTUNG ZUR HERSTELLUNG VON FLACHGLAS DURCH WALZFORMEN UND FLACHGLASPRODUKT
    • EP2022764A1
    • 2009-02-11
    • EP07743262.3
    • 2007-05-14
    • National Institute of Advanced Industrial Science and Technology
    • KOJIMA, GenYOKOYAMA, Hiroshi
    • C03B17/06C03B13/04C03B13/16
    • C03B13/04C03B13/16C03B17/062C03B40/04
    • High quality plate glass free from surface defects, and excellent in macro thickness uniformity, flatness, and the like is manufactured by minimizing the part to be wasted. To that end, glass melt 4 from a melting furnace 1 is supplied between a gas ejection / discharge rotary roll 5 and a gas ejection / discharge concave support 6. The gas ejection / discharge rotary roll 5 has a large number of gas ejection holes each including a flow path having fluid resistance (e.g., vortex flow resistance) in the inside for supplying compression air, and a large number of gas decompression discharge holes each including the same flow path. The gas ejection / discharge concave support 6 has a large number of gas ejection holes for supplying compression air, each including the same flow path, and gas ordinary pressure discharge holes each communicated with the ordinary pressure release space. The glass melt 4 introduced between the roll surface and the concave body surface does not come in contact with the roll and the concave body, and moves in conjunction with the roll by the suspension adsorption holding force resulting from the dynamic pressure equilibrium of a gas. Thus, the glass melt 4 is appropriately applied with a stress parallel with or vertical to the direction of plane of glass to be formed. Thus, prescribed plate glass is formed by a first roll 13 and a second roll 14.
    • 通过使要浪费的部件最小化来制造不含表面缺陷的高品质平板玻璃,并且宏观厚度均匀性,平坦度等优异。 为此,来自熔化炉1的玻璃熔体4被供给在气体喷射/排出旋转辊5和气体喷出/排出凹形支撑件6之间。气体喷射/排出旋转辊5各自具有大量气体喷射孔 包括在内部具有用于供给压缩空气的流体阻力(例如,涡流阻力)的流路,以及包括相同流路的大量气体减压排出孔。 气体喷射/排出凹形支撑件6具有大量用于供给各自包括相同流路的压缩空气的气体喷射孔和与普通压力释放空间连通的气体普通压力排出孔。 引导在辊表面和凹体表面之间的玻璃熔体4不会与辊和凹体接触,并且通过由气体的动态压力平衡引起的悬浮吸附保持力与辊一起移动。 因此,玻璃熔体4适当地施加与待形成的玻璃的平面方向平行或垂直的应力。 因此,规定的平板玻璃由第一辊13和第二辊14形成。