公开(公告)号：US20190202725A1

公开(公告)日：2019-07-04

申请号：US16297771

申请日：2019-03-11

Applicant: NIPPON ELECTRIC GLASS CO., LTD.

Inventor： Tomoko YAMADA ,  Fumio SATO

IPC: C03B5/235 ,  C03B19/10 ,  C03B23/00 ,  C03B40/04

CPC classification number: C03B5/235 ,  C03B19/063 ,  C03B19/1005 ,  C03B23/00 ,  C03B40/04

Abstract: Provided is a method that can manufacture a glass material having excellent homogeneity by containerless levitation. With a block (12) of glass raw material held levitated above a forming surface (10a) of a forming die (10) by jetting gas through a gas jet hole (10b) opening on the forming surface (10a), the block (12) of glass raw material is heated and melted by irradiation with laser beam, thus obtaining a molten glass, and the molten glass is then cooled to obtain a glass material. Control gas is jetted to the block (12) of glass raw material along a direction different from a direction of jetting of the levitation gas for use in levitating the block (12) of glass raw material or the molten glass.

公开(公告)号：US20180127301A1

公开(公告)日：2018-05-10

申请号：US15565471

申请日：2015-06-10

Applicant: NIPPON ELECTRIC GLASS CO., LTD. ,  The University of Tokyo

Inventor： Fumio SATO ,  Tomoko YAMADA ,  Hiroyuki INOUE ,  Atsunobu MASUNO

IPC: C03B40/04 ,  C03B5/235 ,  C03B19/10

CPC classification number: C03B40/04 ,  C03B5/235 ,  C03B19/063 ,  C03B19/1005

Abstract: The development of cracks or breakage in a glass material during production of the glass material by a containerless levitation technique is reduced. A glass material is obtained by heating a levitated block 12 of glass raw material to melting by irradiation of the block 12 of glass raw material with laser light to thus obtain a molten glass and then cooling the molten glass. A first irradiation step and a second irradiation step are performed. In the first irradiation step, the levitated block 12 of glass raw material is heated to melting by irradiating the block 12 of glass raw material with the laser light. In the second irradiation step, an intensity of the laser light being applied to the molten glass is reduced and irradiation with the laser light is then stopped.

公开(公告)号：US20150225279A1

公开(公告)日：2015-08-13

申请号：US14422462

申请日：2013-08-29

Applicant: Corning Incorporated

Inventor： Antoine Gaston Denis Bisson ,  Patrick Joseph Cimo ,  Thierry Luc Alain Dannoux ,  Ronan Tanguy

IPC: C03B23/07 ,  C03B33/06 ,  C03B23/045

CPC classification number: C03B23/07 ,  C03B17/04 ,  C03B23/045 ,  C03B23/0476 ,  C03B33/06 ,  C03B40/04 ,  Y10T428/131

Abstract: An apparatus (100) for making glass tubing (200) of a desired non-circular cross-sectional profile (cf FIG. 3) includes a mandrel (101) adapted for positioning proximate heat-softened tubing. The mandrel (101) has a nose (102) and a nozzle section (120) with a chosen profile that will define a final cross-sectional profile of the tubing. The nozzle section (120) has a feed chamber (140) for receiving a gas from a source (207) and a porous and/or foraminous circumferential surface (132,134) through which the gas can be discharged to an exterior of the mandrel. The gas discharges to the exterior of the mandrel, forming a film of pressurized gas in the gap (314, 318) between the porous circumferential surface (132,134) and the heat-softened tubing (200). A method of forming tubing having a non-circular cross-sectional profile using the apparatus is also provided. A glass sleeve made from the reshaped or formed tubing is also disclosed: a monolithic sleeve made of parallel, opposite, flat and smooth front and back covers for use in an electronic device (cf FIG. 13). Some glass-ceramic materials may also be suitable for the tubing, such as transparent beta spodumene.

Abstract translation: 用于制造具有期望的非圆形横截面轮廓（参见图3）的玻璃管（200）的设备（100）包括适于定位靠近热软管的心轴（101）。 心轴（101）具有鼻部（102）和具有选定轮廓的喷嘴部分（120），其将限定管道的最终横截面轮廓。 喷嘴部分（120）具有用于从源（207）和多孔和/或有孔圆周表面（132,134）接收气体的进料腔（140），气体可以通过该进料腔排出到心轴的外部。 气体排放到心轴的外部，在多孔圆周表面（132,134）和热软管（200）之间的间隙（314,318）中形成加压气体薄膜。 还提供了使用该装置形成具有非圆形横截面轮廓的管道的方法。 还公开了由重塑或形成的管制成的玻璃套管：由用于电子设备（参见图13）的由平行的，相对的，平坦且光滑的前盖和后盖制成的整体式套筒。 一些玻璃陶瓷材料也可能适用于管道，如透明β锂辉石。

公开(公告)号：US20150119228A1

公开(公告)日：2015-04-30

申请号：US14397326

申请日：2013-04-24

Applicant: Tomoaki Negishi ,  Yasuhiro Fujiwara

Inventor： Tomoaki Negishi ,  Yasuhiro Fujiwara

IPC: C03C3/253 ,  C03B23/00 ,  C03C3/068

CPC classification number: C03C3/253 ,  C03B7/12 ,  C03B11/08 ,  C03B11/122 ,  C03B11/16 ,  C03B23/0013 ,  C03B40/04 ,  C03B2215/63 ,  C03B2215/69 ,  C03C3/066 ,  C03C3/068 ,  C03C3/155 ,  Y02P40/57

Abstract: The optical glass is described that may be an oxide glass including, denoted as cation %, a total of 5 to 60% of B3+ and Si4+ (with 5 to 50% of B3+), a total of equal to or higher than 5% of Zn2+ and Mg2+, a total of 10 to 50% of La3+, Gd3+, Y3+, and Yb3+, and a total of 6 to 45% of Ti4+, Nb5+, Ta5+, W6+, and Bi3+ (a total content of Ti4+ and Ta5+ being higher than 0% and a content of W6+ being higher than 5%).

Abstract translation: 描述了可以是氧化物玻璃，其包括以阳离子％表示，总共为B3 +和Si4 +的5〜60％（具有5〜50％的B3 +），总计等于或高于5％〜5％的氧化物玻璃 Zn2 +和Mg2 +，总共为10〜50％的La3 +，Gd3 +，Y3 +和Yb3 +，总共为6〜45％的Ti4 +，Nb5 +，Ta5 +，W6 +和Bi3 +（Ti4 +和Ta5 +的总含量较高 0％以上，W6 +含量高于5％）。

公开(公告)号：US20140335322A1

公开(公告)日：2014-11-13

申请号：US14269424

申请日：2014-05-05

Applicant: CORNING INCORPORATED

Inventor： Weiwei Luo ,  Elias Panides ,  Rohit Rai ,  Irene Marjorie Slater ,  Ljerka Ukrainczyk ,  Srinivasa Rao Vaddiraju ,  Sam Samer Zoubi

IPC: C03B23/03 ,  H05K5/03

CPC classification number: C03B23/0307 ,  C03B23/0302 ,  C03B23/0305 ,  C03B23/035 ,  C03B40/04 ,  H05K5/03 ,  Y10T428/24653

Abstract: A process using a three-piece mold for making a three-dimensionally shaped glass article having a flat area and a curved/bend area is disclosed. The process includes placing a glass sheet on a mold having a shaping surface with a desired surface profile for the shaped glass article including a flat area and a bend area, moving a flat area plunger toward the glass sheet to compress the glass sheet, heating a portion of the glass sheet corresponding to an area above the bend area of the mold to a temperature above a forming temperature, and moving a bend area plunger toward the heated glass sheet to compress the heated glass sheet. A temperature of the glass sheet in the area above the bend area of the mold is higher than a temperature of the glass sheet in the area above the flat area of the mold when compressing the heated glass sheet with the bend area plunger.

Abstract translation: 公开了一种使用三件式模具制造具有平坦区域和弯曲/弯曲区域的三维形状的玻璃制品的方法。 该方法包括将玻璃板放置在具有成形表面的模具上，所述成形表面具有用于成形玻璃制品的所需表面轮廓，所述成形玻璃制品包括平坦区域和弯曲区域，将平坦区域柱塞朝向玻璃板移动以压缩玻璃板，加热 玻璃板的对应于模具的弯曲区域以上的区域的部分达到高于成形温度的温度，并且使弯曲区域柱塞向加热的玻璃板移动以压缩加热的玻璃板。 当用弯曲区域柱塞压缩加热的玻璃板时，在模具的弯曲区域之上的区域中的玻璃板的温度高于在模具的平坦区域之上的区域中的玻璃板的温度。

公开(公告)号：US08424344B2

公开(公告)日：2013-04-23

申请号：US12865574

申请日：2009-01-22

Applicant: Xuelu Zou ,  Yunoshin Kanayama ,  Tomoaki Negishi

Inventor： Xuelu Zou ,  Yunoshin Kanayama ,  Tomoaki Negishi

IPC: C03C19/00 ,  C03C3/066 ,  C03B17/00

CPC classification number: C03C3/068 ,  C03B17/062 ,  C03B40/02 ,  C03B40/04

Abstract: An optical glass comprising, by mol %, 0.1 to 40% of SiO2, 10 to 50% of B2O3, 0 to 10% of total of Li2O, Na2O and K2O, 0 to 10% of total of MgO, CaO, SrO and BaO, 0.5 to 22% of ZnO, 5 to 50% of La2O3, 0.1 to 25% of Gd2O3, 0.1 to 20% of Y2O3, 0 to 20% of Yb2O3, 0 to 25% of ZrO2, 0 to 25% of TiO2, 0 to 20% of Nb2O5, 0 to 10% of Ta2O5, over 0.1% but not more than 20% of WO3, 0 to less than 3% of GeO2, 0 to 10% of Bi2O3, and 0 to 10% of Al2O3, the mass ratio of the content of SiO2 to the content of B2O3, SiO2/B2O3, being 1 or less, the optical glass having a refractive index nd of 1.86 to 1.95 and an Abbe's number νd of (2.36−nd)/0.014 or more but less than 38.

Abstract translation: 一种光学玻璃，其中，SiO 2为0.1〜40％，B 2 O为10〜50％，Li 2 O，Na 2 O，K 2 O为0〜10％，MgO，CaO，SrO和BaO为0〜10％ ，0.5〜22％的ZnO，5〜50％的La2O3，0.1〜25％的Gd2O3，0.1〜20％的Y2O3，0〜20％的Yb2O3，0〜25％的ZrO2，0〜25％的TiO2， 0〜20％的Nb 2 O 5，0〜10％的Ta 2 O 5，超过0.1％但不超过20％的WO 3，0〜小于3％的GeO 2，0〜10％的Bi 2 O 3，0〜10的Al 2 O 3， SiO 2含量与B 2 O 3，SiO 2 / B 2 O 3的含量的质量比为1以下，折射率nd为1.86〜1.95的光学玻璃和（2.36-nd）/ 0.014以上的阿贝数nud 但不到38。

公开(公告)号：US20120011890A1

公开(公告)日：2012-01-19

申请号：US13240940

申请日：2011-09-22

Applicant: Ryousuke Sakai ,  Tadanao Shinozaki ,  Shinobu Aoe

Inventor： Ryousuke Sakai ,  Tadanao Shinozaki ,  Shinobu Aoe

IPC: C03B7/01 ,  C03B11/00

CPC classification number: C03B7/14 ,  C03B19/02 ,  C03B40/04

Abstract: A preform production apparatus for precision press molding, which is downsized but can produce preforms at a lower cost, and a production method thereof using the apparatus are provided. The production method of a preform for precision press molding includes forming a molten glass body C by way of receiving and cutting molten glass A, being flowed continuously from a discharge nozzle 2, by a support member 1 or by way of allowing molten glass to fall in drops from a discharge nozzle 2 and receiving thereof by a support member 1, and transferring the molten glass body C from the support member 1 to a mold 5 by way of displacing the support member to near the mold 5, disposed not to be beneath the discharge nozzle 2, while increasing the viscosity of the molten glass body C on the support member 1.

Abstract translation: 提供了一种用于精密压制成型的预成型件制造装置，其小型化，但是可以以较低成本制造预成型件及其使用该装置的制造方法。 用于精密加压成型的预成型体的制造方法包括：通过接收和切割熔融玻璃A形成熔融玻璃体C，熔融玻璃A通过支撑部件1从排出喷嘴2连续流动或者通过使熔融玻璃落下 从喷嘴2滴下并通过支撑构件1接收，并且将熔融玻璃体C从支撑构件1转移到模具5，通过将支撑构件移动到模具5附近，设置在不在下面 同时增加熔融玻璃体C在支撑构件1上的粘度。

公开(公告)号：US08056364B2

公开(公告)日：2011-11-15

申请号：US12289328

申请日：2008-10-24

Applicant: Ryousuke Sakai ,  Tadanao Shinozaki ,  Shinobu Aoe

Inventor： Ryousuke Sakai ,  Tadanao Shinozaki ,  Shinobu Aoe

IPC: C03B9/00 ,  C03B5/26

CPC classification number: C03B7/14 ,  C03B19/02 ,  C03B40/04

Abstract: A preform production apparatus for precision press molding, which is downsized but can produce preforms at a lower cost, and a production method thereof using the apparatus are provided. The production method of a preform for precision press molding includes forming a molten glass body C by way of receiving and cutting molten glass A, being flowed continuously from a discharge nozzle 2, by a support member 1 or by way of allowing molten glass to fall in drops from a discharge nozzle 2 and receiving thereof by a support member 1, and transferring the molten glass body C from the support member 1 to a mold 5 by way of displacing the support member to near the mold 5, disposed not to be beneath the discharge nozzle 2, while increasing the viscosity of the molten glass body C on the support member 1.

Abstract translation: 提供了一种用于精密压制成型的预成型件制造装置，其小型化，但是可以以较低成本制造预成型件及其使用该装置的制造方法。 用于精密加压成型的预成型体的制造方法包括：通过接收和切割熔融玻璃A形成熔融玻璃体C，熔融玻璃A通过支撑部件1从排出喷嘴2连续流动或者通过使熔融玻璃落下 从喷嘴2滴下并通过支撑构件1接收，并且将熔融玻璃体C从支撑构件1转移到模具5，通过将支撑构件移动到模具5附近，设置在不在下面 同时增加熔融玻璃体C在支撑构件1上的粘度。

公开(公告)号：US20100281921A1

公开(公告)日：2010-11-11

申请号：US12742347

申请日：2008-11-20

Applicant: Antoine Bisson ,  Allan Mark Fredholm

Inventor： Antoine Bisson ,  Allan Mark Fredholm

IPC: C03B13/00

CPC classification number: C03B17/06 ,  C03B17/02 ,  C03B17/064 ,  C03B17/067 ,  C03B17/068 ,  C03B35/246 ,  C03B40/04

Abstract: A method is disclosed for producing sheet glass having two faces, at least one of which has a high surface quality, the method comprising a treatment step wherein a stream of glass is contacted with a forming tool, and wherein a reversible adhesion force exists between the stream of glass and the forming tool after contacting. An apparatus is also disclosed for producing sheet glass according to the disclosed and various other methods of sheet glass manufacture, the apparatus comprising a forming tool having a means for controlling the temperature of at least a portion of the surface thereof.

Abstract translation: 公开了一种用于生产具有两个表面的玻璃板的方法，其中至少一个具有高的表面质量，该方法包括处理步骤，其中玻璃流与成形工具接触，并且其中存在可逆粘合力 接触后的玻璃流和成型工具。 还公开了根据所公开的各种其它玻璃制造方法来生产玻璃板的装置，该装置包括具有用于控制其表面的至少一部分的温度的装置的成形工具。

公开(公告)号：US07743628B2

公开(公告)日：2010-06-29

申请号：US10491351

申请日：2002-10-02

Applicant: Andreas Langsdorf ,  Norbert Greulich-Hickmann ,  Jörg Adler ,  Michael Piwonski

Inventor： Andreas Langsdorf ,  Norbert Greulich-Hickmann ,  Jörg Adler ,  Michael Piwonski

IPC: C03B35/00 ,  C03B40/04

CPC classification number: C03B40/04

Abstract: The invention relates to a method and device for non-contact molding of fused glass or glass ceramic gobs by means of gas levitation, comprising the following method steps: a pre-form is generated, the pre-form is brought close to a molding tool, which may be connected to a compressed gas source on the open-pored region thereof facing the pre-form in order to generate a gas cushion between the molding tool and the pre-form and the molding tool is directly heated at least during a part of the molding phase.

Abstract translation: 本发明涉及一种通过气体悬浮非接触模压熔融玻璃或玻璃陶瓷料滴的方法和装置，包括以下方法步骤：产生预成型件，使预成型件靠近成型工具 ，其可以连接到面向预成型件的开口区域上的压缩气体源，以便在模制工具和预成型件之间产生气垫，并且模制工具至少在部件 的成型阶段。