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公开(公告)号:US09458044B2
公开(公告)日:2016-10-04
申请号:US14413625
申请日:2012-07-13
申请人: Antoine Gaston Denis Bisson , Olivier Fournel , Allan Mark Fredholm , Laurent Joubaud , Jean-Pierre Henri René Lereboullet , Xavier Tellier
发明人: Antoine Gaston Denis Bisson , Olivier Fournel , Allan Mark Fredholm , Laurent Joubaud , Jean-Pierre Henri René Lereboullet , Xavier Tellier
摘要: According to one embodiment, a method for forming a laminated glass sheet includes forming a multi-layer glass melt (300) from a molten core glass (106) and at least one molten cladding glass (126). The multi-layer glass melt (300) has a width Wm, a melt thickness Tm and a core to cladding thickness ratio TC:TCl. The multi-layer glass melt (300) is directed onto the surface of a molten metal bath (162) contained in a float tank (160). The width Wm of the multi-layer glass melt (300) is less than the width Wf of the float tank (160) prior to the multi-layer glass melt (300) entering the float tank (160). The multilayer glass melt (300) flows over the surface of the molten metal bath (162) such that the width Wm of the multi-layer glass melt (300) increases, the melt thickness Tm decreases, and the core to cladding thickness ratio TC:TCl remains constant as the multi-layer glass melt (300) solidifies into a laminated glass sheet. The invention also relates to the associated apparatus.
摘要翻译: 根据一个实施例,一种用于形成夹层玻璃板的方法包括从熔融芯玻璃(106)和至少一个熔融包层玻璃(126)形成多层玻璃熔体(300)。 多层玻璃熔体(300)具有宽度Wm,熔体厚度Tm和芯与包层厚度比TC:TCl。 多层玻璃熔体(300)被引导到包含在浮子罐(160)中的熔融金属浴(162)的表面上。 多层玻璃熔体(300)的宽度Wm小于多层玻璃熔体(300)进入浮子槽(160)之前的浮子槽(160)的宽度Wf。 多层玻璃熔体(300)流过熔融金属浴(162)的表面,使得多层玻璃熔体(300)的宽度Wm增加,熔体厚度Tm降低,芯与包层厚度比TC :多层玻璃熔体(300)凝固成夹层玻璃板时,TCl保持恒定。 本发明还涉及相关联的装置。
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公开(公告)号:US20150191387A1
公开(公告)日:2015-07-09
申请号:US14413625
申请日:2012-07-13
申请人: Antoine Gaston Denis Bisson , Olivier Fournel , Allan Mark Fredholm , Laurent Joubaud , Jean-Pierre Lereboullet , Xavier Tellier
发明人: Antoine Gaston Denis Bisson , Olivier Fournel , Allan Mark Fredholm , Laurent Joubaud , Jean-Pierre Lereboullet , Xavier Tellier
摘要: According to one embodiment, a method for forming a laminated glass sheet includes forming a multi-layer glass melt (300) from a molten core glass (106) and at least one molten cladding glass (126). The multi-layer glass melt (300) has a width Wm, a melt thickness Tm and a core to cladding thickness ratio TC:TCl. The multi-layer glass melt (300) is directed onto the surface of a molten metal bath (162) contained in a float tank (160). The width Wm of the multi-layer glass melt (300) is less than the width Wf of the float tank (160) prior to the multi-layer glass melt (300) entering the float tank (160). The multilayer glass melt (300) flows over the surface of the molten metal bath (162) such that the width Wm of the multi-layer glass melt (300) increases, the melt thickness Tm decreases, and the core to cladding thickness ratio TC:TCl remains constant as the multi-layer glass melt (300) solidifies into a laminated glass sheet. The invention also relates to the associated apparatus.
摘要翻译: 根据一个实施例,一种用于形成夹层玻璃板的方法包括从熔融芯玻璃(106)和至少一个熔融包层玻璃(126)形成多层玻璃熔体(300)。 多层玻璃熔体(300)具有宽度Wm,熔体厚度Tm和芯与包层厚度比TC:TCl。 多层玻璃熔体(300)被引导到包含在浮子罐(160)中的熔融金属浴(162)的表面上。 多层玻璃熔体(300)的宽度Wm小于多层玻璃熔体(300)进入浮子槽(160)之前的浮子槽(160)的宽度Wf。 多层玻璃熔体(300)流过熔融金属浴(162)的表面,使得多层玻璃熔体(300)的宽度Wm增加,熔体厚度Tm降低,芯与包层厚度比TC :多层玻璃熔体(300)凝固成夹层玻璃板时,TCl保持恒定。 本发明还涉及相关联的装置。
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公开(公告)号:US09580347B2
公开(公告)日:2017-02-28
申请号:US13814822
申请日:2011-05-26
摘要: A glass forming system (200) and a method are described herein for forming a glass sheet (230). In one example, the glass forming system and method can use a glass composition with a liquidus viscosity less than 1000 poises to continuously form a glass sheet.
摘要翻译: 这里描述了用于形成玻璃板(230)的玻璃成形系统(200)和方法。 在一个实例中,玻璃形成系统和方法可以使用具有小于1000泊的液相线粘度的玻璃组合物以连续地形成玻璃板。
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公开(公告)号:US20130319051A1
公开(公告)日:2013-12-05
申请号:US13814822
申请日:2011-05-26
IPC分类号: C03B18/16
摘要: A glass forming system (200) and a method are described herein for forming a glass sheet (230). In one example, the glass forming system and method can use a glass composition with a liquidus viscosity less than 1000 poises to continuously form a glass sheet.
摘要翻译: 这里描述了用于形成玻璃板(230)的玻璃成形系统(200)和方法。 在一个实例中,玻璃形成系统和方法可以使用具有小于1000泊的液相线粘度的玻璃组合物以连续地形成玻璃板。
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公开(公告)号:US20130086948A1
公开(公告)日:2013-04-11
申请号:US13647043
申请日:2012-10-08
申请人: Antoine Gaston Denis Bisson , Curtis Richard Cowles , Laurent Joubaud , David John McEnroe , Aniello Mario Palumbo
发明人: Antoine Gaston Denis Bisson , Curtis Richard Cowles , Laurent Joubaud , David John McEnroe , Aniello Mario Palumbo
IPC分类号: C03B23/023
CPC分类号: C03B23/0258 , Y02P40/57
摘要: An apparatus and methods for bending sheet glass are disclosed. The present invention improves on the state-of-the-art by providing apparatus and methods that prevent unwanted distortion of the glass sheet. The apparatus and methods utilize localized heating at the bend to allow for overall glass sheet temperatures to be reduced, along with optional mechanical devices for improved bend quality.
摘要翻译: 公开了一种用于弯曲玻璃板的设备和方法。 本发明通过提供防止玻璃板不希望的变形的装置和方法来改进现有技术。 该设备和方法利用弯曲处的局部加热,以允许整体玻璃板温度以及用于改善弯曲质量的可选的机械装置。
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公开(公告)号:US09061934B2
公开(公告)日:2015-06-23
申请号:US13647043
申请日:2012-10-08
申请人: Antoine Gaston Denis Bisson , Curtis Richard Cowles , Laurent Joubaud , David John McEnroe , Aniello Mario Palumbo
发明人: Antoine Gaston Denis Bisson , Curtis Richard Cowles , Laurent Joubaud , David John McEnroe , Aniello Mario Palumbo
IPC分类号: C03B23/025
CPC分类号: C03B23/0258 , Y02P40/57
摘要: An apparatus and methods for bending sheet glass are disclosed. The present invention improves on the state-of-the-art by providing apparatus and methods that prevent unwanted distortion of the glass sheet. The apparatus and methods utilize localized heating at the bend to allow for overall glass sheet temperatures to be reduced, along with optional mechanical devices for improved bend quality.
摘要翻译: 公开了一种用于弯曲玻璃板的设备和方法。 本发明通过提供防止玻璃板不希望的变形的装置和方法来改进现有技术。 该设备和方法利用弯曲处的局部加热,以允许整体玻璃板温度以及用于改善弯曲质量的可选的机械装置。
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公开(公告)号:US20120288417A1
公开(公告)日:2012-11-15
申请号:US13522388
申请日:2011-01-28
IPC分类号: B01J19/00
CPC分类号: B81C1/00119 , B01J19/0093 , B01J2219/00783 , B01J2219/00824 , B01J2219/00831 , B01J2219/0086 , B01J2219/00873 , B81B2201/058 , B81C2201/019
摘要: A microfluidic device (100) made from glass, ceramic or vitroceramic, comprises an upper layer (122), a lower layer (124) and an intermediate layer (114), the intermediate layer (114) comprising an upper face (114b) and a lower face (114a), the lower face (114a) comprising a first open structured surface defining a first microfluidic channel (126) and the upper face (114b) comprising a second open structured surface defining a second microfluidic channel (112); the lower surface of the intermediate layer (114) cooperating with a first planar layer closing the first microchannel (126); the upper face (114b) of the intermediate layer (114) cooperating with a second planar layer (130), closing the second microfluidic channel (112) in a sealed manner, and the second planar layer constituting an intermediate layer (130) which cooperates, on its face opposite the intermediate layer (114), with another layer (122) comprising on its inner face (122a) a structured surface defining a third microfluidic channel (128).
摘要翻译: 由玻璃,陶瓷或陶瓷制成的微流体装置(100)包括上层(122),下层(124)和中间层(114),中间层(114)包括上表面(114b)和 下表面(114a),所述下表面(114a)包括限定第一微流体通道(126)的第一开放结构化表面,并且所述上表面(114b)包括限定第二微流体通道(112)的第二开放结构化表面; 中间层(114)的下表面与闭合第一微通道(126)的第一平面层协作; 所述中间层(114)的上表面(114b)与第二平面层(130)配合,密封地封闭所述第二微流体通道(112),所述第二平面层构成中间层(130),所述中间层 在其与中间层(114)相对的表面上,另一层(122)在其内表面(122a)上包括限定第三微流体通道(128)的结构化表面。
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公开(公告)号:US09573803B2
公开(公告)日:2017-02-21
申请号:US13522388
申请日:2011-01-28
CPC分类号: B81C1/00119 , B01J19/0093 , B01J2219/00783 , B01J2219/00824 , B01J2219/00831 , B01J2219/0086 , B01J2219/00873 , B81B2201/058 , B81C2201/019
摘要: A microfluidic device (100) made from glass, ceramic or vitroceramic, comprises an upper layer (122), a lower layer (124) and an intermediate layer (114), the intermediate layer (114) comprising an upper face (114b) and a lower face (114a), the lower face (114a) comprising a first open structured surface defining a first microfluidic channel (126) and the upper face (114b) comprising a second open structured surface defining a second microfluidic channel (112); the lower surface of the intermediate layer (114) cooperating with a first planar layer closing the first microchannel (126); the upper face (114b) of the intermediate layer (114) cooperating with a second planar layer (130), closing the second microfluidic channel (112) in a sealed manner, and the second planar layer constituting an intermediate layer (130) which cooperates, on its face opposite the intermediate layer (114), with another layer (122) comprising on its inner face (122a) a structured surface defining a third microfluidic channel (128).
摘要翻译: 由玻璃,陶瓷或陶瓷制成的微流体装置(100)包括上层(122),下层(124)和中间层(114),中间层(114)包括上表面(114b)和 下表面(114a),所述下表面(114a)包括限定第一微流体通道(126)的第一开放结构化表面,并且所述上表面(114b)包括限定第二微流体通道(112)的第二开放结构化表面; 中间层(114)的下表面与闭合第一微通道(126)的第一平面层协作; 所述中间层(114)的上表面(114b)与第二平面层(130)配合,密封地封闭所述第二微流体通道(112),所述第二平面层构成中间层(130),所述中间层 在其与中间层(114)相对的表面上,另一层(122)在其内表面(122a)上包括限定第三微流体通道(128)的结构化表面。
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