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    • 2. 发明申请
    • APPARATUS AND METHODS FOR COOLING MOLTEN _GLASS MATERIAL
    • 用于冷却胶体材料的装置和方法
    • WO2016168109A1
    • 2016-10-20
    • PCT/US2016/026901
    • 2016-04-11
    • CORNING INCORPORATED
    • HWANG, JaesooKIM, JaeyoungKOO, Bonhyoung
    • C03B5/16C03B5/167C03B5/23C03B7/06C03B5/04
    • C03B5/23C03B5/04C03B5/16C03B5/167C03B5/43C03B5/44C03B7/06C03B17/064
    • Methods of processing molten material comprising the step (I) of flowing molten material through an interior of a conduit (137) from a first station (131) to a second station (133) of a glass manufacturing apparatus and the step (II) of cooling the molten material within the interior of the conduit by passing a cooling fluid along an exterior of the conduit. The method further includes the step (III) of directing a travel path of the cooling fluid toward a vertical plane (319) passing through the conduit. In further examples, a glass manufacturing apparatus comprises a first station, a second station, and a conduit (137) configured to provide a travel path for molten material traveling from the first station to the second station. The glass manufacturing apparatus further comprises at least one baffle (323) configured to direct a travel path of cooling fluid toward a vertical plane (319) passing through the conduit.
    • 包括使熔融材料流过玻璃制造设备的第一工位(131)至第二工位(133)的导管(137)的内部的步骤(I)的熔融材料的处理方法,以及步骤 通过沿管道外部通过冷却流体来冷却管道内部的熔融材料。 该方法还包括将冷却流体的行进路径引向通过导管的垂直平面(319)的步骤(III)。 在另外的实施例中,玻璃制造设备包括第一工位,第二工位和配置成为从第一工位到第二工位行进的熔融材料提供行进路径的管道(137)。 玻璃制造设备还包括至少一个挡板(323),其构造成将冷却流体的行进路径引向通过导管的垂直平面(319)。
    • 3. 发明申请
    • GLASS MANUFACTURING APPARATUSES WITH PARTICULATE REMOVAL DEVICES AND METHODS OF USING THE SAME
    • 具有颗粒去除装置的玻璃制造装置及其使用方法
    • WO2012074974A3
    • 2012-08-02
    • PCT/US2011062337
    • 2011-11-29
    • CORNING INCDELIA ROBERTEL KAHLOUT AHDI
    • DELIA ROBERTEL KAHLOUT AHDI
    • C03B17/04C03B5/225C03B5/23
    • C03B17/068C03B17/064Y02P40/57
    • Glass manufacturing apparatuses with particulate removal devices and methods for using the same are disclosed. In one embodiment, a fusion draw machine for forming a glass web from molten glass includes an enclosure and a first pull roll and a second pull roll rotatably positioned in an interior of an enclosure. The first pull roll and the second pull roll cooperate to draw a glass web in a draw direction. A particulate removal device for removing particulate matter from the interior of the enclosure is fluidly coupled to the enclosure and includes a vacuum nozzle disposed in the interior of the enclosure and fluidly coupled to a vacuum source with a vacuum line. A particulate filter is fluidly coupled to the vacuum nozzle and the vacuum source and traps particulate matter exhausted from the interior of the enclosure through the vacuum nozzle.
    • 公开了具有微粒去除装置的玻璃制造装置及其使用方法。 在一个实施例中,用于从熔融玻璃形成玻璃纤维网的熔融拉伸机包括外壳和可旋转地定位在外壳内部的第一拉辊和第二拉辊。 第一牵引辊和第二牵引辊协同在牵引方向上拉制玻璃纤维网。 用于从壳体内部去除颗粒物质的颗粒去除装置流体地联接到外壳,并且包括设置在外壳内部并通过真空管线流体耦合到真空源的真空喷嘴。 微粒过滤器流体耦合到真空喷嘴和真空源并捕集通过真空喷嘴从壳体内部排出的颗粒物质。
    • 4. 发明申请
    • SCHMELZEINRICHTUNG FÜR DIE ERZEUGUNG EINER GLASSCHMELZE
    • 熔化设备用于熔融玻璃的生产
    • WO2010086121A1
    • 2010-08-05
    • PCT/EP2010/000364
    • 2010-01-22
    • BETEILIGUNGEN SORG GMBH & CO. KGLINDIG, MatthiasSORG, HelmutSORG, Alexander
    • LINDIG, MatthiasSORG, HelmutSORG, Alexander
    • C03B5/04C03B5/225C03B5/23
    • C03B5/2257C03B5/04C03B5/20C03B5/23
    • Die Erfindung befasst sich mit der Erzeugung einer Glasschmelze (9) in einer Reihenanordnung aus mindestens einer Beschickungsöffnung (7) für Glasrohstoffe, einem Schmelzbereich (2), einem Läuterbereich (3), einer Einschnürung (4), einem Konditionierbereich (5) und aus einem Überlauf (8) zu einer Verarbeitungseinrichtung. Um dabei die Schmelze von Fehlern zu befreien, die im Endprodukt sichtbar bleiben, wird erfindungsgemäss vorgeschlagen: a) zwischen dem Schmelzbereich (2) und am Anfang des Läuterbereichs (3) eine Läuterbank (19) anzuordnen, b) zwischen der Beschickungsöffnung (7) und der Läuterbank (19) Seitenbrenner (15, 17) und Abzugsöffnungen (16, 18) für Rauchgase anzuordnen, c) die Einschnürung (4) an beiden Enden durch Stirnwände (12, 13) zu begrenzen, die oberhalb der Glasschmelze (9) enge Strömungsquerschnitte für Rauchgase freilassen, und d) innerhalb der Einschnürung (4) Kühlmittel für die Glasschmelze (9) anzuordnen. Die Erfindung ist besonders geeignet für die Herstellung von Flachglas und von Tafeln für Solarelemente. Dabei können auch die Oxidantien für die Brennstoffe vorgewärmt werden.
    • 本发明涉及制造玻璃的熔融(9)中至少一个充电开口(7),用于玻璃原料,熔融区(2),澄清区(3),一个收缩部(4),一个调节区域(5)和从的串联布置 溢出(8)的处理装置。 以释放其在最终产品中保持可见的错误的熔体,根据本发明,提出了:(a)所述熔化区2)和(在Läuterbereichs的开始之间3)安排精炼银行(19),(b)该进料口7之间) 和精炼银行(19)侧的燃烧器(15,17)和排出开口(16,18),以用于烟道气安排,c)该收缩部(4)在由端壁(12两端,限制13)(玻璃化之上熔融9) 释放窄流的横截面为烟道气,以及d)安排所述玻璃熔体(9)收缩(4)内的制冷剂。 本发明特别适用于生产平板玻璃和用于太阳能元件板。 在这里,氧化剂可以预热燃料。
    • 8. 发明申请
    • GLASS MANUFACTURING APPARATUSES WITH PARTICULATE REMOVAL DEVICES AND METHODS OF USING THE SAME
    • 具有微粒去除装置的玻璃制造装置及其使用方法
    • WO2012074974A2
    • 2012-06-07
    • PCT/US2011/062337
    • 2011-11-29
    • CORNING INCORPORATEDDELIA, RobertEL KAHLOUT, Ahdi
    • DELIA, RobertEL KAHLOUT, Ahdi
    • C03B17/04C03B5/225C03B5/23
    • C03B17/068C03B17/064Y02P40/57
    • Glass manufacturing apparatuses with particulate removal devices and methods for using the same are disclosed. In one embodiment, a fusion draw machine for forming a glass web from molten glass includes an enclosure and a first pull roll and a second pull roll rotatably positioned in an interior of an enclosure. The first pull roll and the second pull roll cooperate to draw a glass web in a draw direction. A particulate removal device for removing particulate matter from the interior of the enclosure is fluidly coupled to the enclosure and includes a vacuum nozzle disposed in the interior of the enclosure and fluidly coupled to a vacuum source with a vacuum line. A particulate filter is fluidly coupled to the vacuum nozzle and the vacuum source and traps particulate matter exhausted from the interior of the enclosure through the vacuum nozzle.
    • 公开了具有微粒去除装置的玻璃制造装置及其使用方法。 在一个实施例中,用于由熔融玻璃形成玻璃幅的熔融拉伸机包括外壳和可旋转地定位在外壳内部的第一牵拉辊和第二牵拉辊。 第一牵拉辊和第二牵拉辊配合以沿拉伸方向拉伸玻璃幅。 用于从外壳内部除去颗粒物质的微粒去除装置流体连接到外壳,并包括设置在外壳内部的真空喷嘴,并利用真空管线流体连接到真空源。 微粒过滤器流体连接到真空喷嘴和真空源,并捕集通过真空喷嘴从外壳内部排出的微粒物质。
    • 10. 发明申请
    • GLASS-MELTING TANK FURNACE
    • 玻璃熔炼锅炉
    • WO2003086994A1
    • 2003-10-23
    • PCT/RU2002/000181
    • 2002-04-17
    • C03B5/23
    • C03B5/23
    • The invention relates to the building materials industry, in particular to devices for continuous glass production. The aim of said invention is to ensure symmetrical repartition of batch piles on the sides of a glass-melting furnace and a required degree of cooling. The invention makes it possible to improve the quality of produced molten glass and the products manufactured therefrom and to prolong the service life of the glass-melting furnace by reducing the corrosion of the lateral walls thereof. The inventive glass-melting tank furnace comprises a batch charger, a doghouse, melting and working tanks, a main water-cooled tubular element embodied in such a way that it is possible to adjust the degree of extension thereof into the melting tank and the degree of deepening into molten glass. Said tubular element is embodied in the form of Z and arranged horizontally along the doghouse and the melting area of the furnace, and vertically with respect to the end wall of the doghouse between the batch chargers. The novelty of the invention lies in the additional water-cooled element, which is embodied in such a way that it is floating and whose degree of extension into a melting tank which is arranged above the main water-cooled element can be adjusted, said additional element having a configuration equal to the configuration of the main element.
    • 本发明涉及建筑材料工业,特别涉及用于连续玻璃生产的装置。 所述发明的目的是确保在玻璃熔炉的侧面上的批次对称重新分配和所需的冷却程度。 本发明使得可以提高生产的熔融玻璃及其制造的产品的质量,并且通过减少其侧壁的腐蚀来延长玻璃熔化炉的使用寿命。 本发明的玻璃熔炉炉包括批量充电器,狗屋,熔化槽和工作罐,主要的水冷管状元件,其特征在于可以将其延伸到熔池中的程度和程度 深化成熔融玻璃。 所述管状元件以Z的形式实施,并且沿着仓室和炉的熔化区域水平布置,并且在批量充电器之间相对于仓室的端壁垂直地布置。 本发明的新颖性在于另外的水冷元件,其以浮动的方式实施,并且其可调节设置在主水冷元件上方的熔池的延伸程度,所述附加 元件具有与主元件的构造相等的构造。