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    • 1. 发明授权
    • Pressurized fluid distributing arrangement for a forming tool for
shaping thermoplastic material
    • 用于成形热塑性材料成形工具的加压流体分配装置
    • US4388099A
    • 1983-06-14
    • US312851
    • 1981-10-19
    • Helmut HermeningNorbert MondenLothar SchaarWilhelm SchneiderHans-Georg Seidel
    • Helmut HermeningNorbert MondenLothar SchaarWilhelm SchneiderHans-Georg Seidel
    • F28F13/00B29C49/00B29C49/48B29C49/58B29C49/64B29C65/00C03B9/38F28F27/00
    • C03B9/3875C03B9/3816
    • A distributing arrangement for a pressurized cooling fluid, especially air, for cooling a forming tool of a machine for forming thermoplastic material, especially molten glass, wherein the forming tool includes at least one split mold including mold segments which are respectively mounted on mold segment holders for movement therewith relative to one another and each of which is provided with a plurality of fluid channels for the flow of the pressurized of fluid channels for the flow of the pressurized cooling fluid therethrough, comprises a fluid distributing box including for each of the mold segments at least two branch channels individually communicating with at least one of the fluid channels when the distributing box is mounted on the mold segment holder. The branch conduits can either directly communicate with the fluid channels across an interface formed by juxtaposed connecting and opposing surfaces of the distributing box and the associated mold segment, or a connecting box including a plurality of connecting channels may be interposed between the distributing box and the respective mold segment, in which case the interface is provided between the distributing and connecting boxes. The connection at the interface is established by merely resting the connecting surface on the opposing surface which has a complementary configuration to the connecting surface.
    • 用于冷却用于形​​成热塑性材料,特别是熔融玻璃的机器的成形工具的加压冷却流体,特别是空气的分配装置,其中成形工具包括至少一个分开模具,其包括分别安装在模具段支架上的模具段 用于相对于彼此运动,并且每个流体通道设置有多个流体通道,用于加压流体通道的流动,用于加压冷却流体的流过,其包括流体分配箱,其包括用于每个模具段 当分配箱安装在模具段保持器上时,至少两个分支通道与至少一个流体通道单独连通。 分支管道可以通过跨接在分配箱和相关联的模具段的并置连接和相对表面形成的界面上的流体通道直接连通,或者包括多个连接通道的连接箱可以插在分配箱和 相应的模具段,在这种情况下,界面设置在分配盒和连接盒之间。 通过仅将连接表面放置在与连接表面具有互补构造的相对表面上来建立界面处的连接。
    • 2. 发明授权
    • Method of and apparatus for making a parison
    • 制造型坯的方法和设备
    • US4518409A
    • 1985-05-21
    • US526159
    • 1983-08-24
    • Norbert Monden
    • Norbert Monden
    • C03B9/197C03B9/193C03B9/347C03B11/10
    • C03B9/1936Y02P40/57
    • A parison is molded from a gob of molten glass by first increasing the volume of the interior of a cup-shaped main mold body by an extra volume. Then the molten-glass gob is inserted through an upper opening into the interior of the main mold body. A neck mold comprising a split neck ring is closed on the main mold body so that the neck mold and the main mold body together define a mold cavity partly formed by the interior of the main mold body. A plunger is inserted through the neck mold down into the gob in the mold cavity to displace molten glass and shape the gob into a parison. The extra volume of the interior of the main mold body is then decreased to zero at the latest until the time at which the parison is finished, so that the molten glass rises in the mold cavity up to a level above the top of the main mold body. Finally the parison thus formed is demolded. It is therefore possible to put a relatively large gob in the main mold body without any possibility of it overflowing, and the mold cavity can be shaped more like the finished hollow glass article, so that the resultant parison can be blown into a higher-quality product.
    • 首先通过额外的体积增加杯形主模体的内部体积,从熔融玻璃料滴模制型坯。 然后将熔融玻璃料滴通过上部开口插入到主模具的内部。 包括分割颈环的颈部模具在主模体上封闭,使得颈模和主模体一起限定由主模体的内部部分地形成的模腔。 柱塞通过颈部模具插入到模腔中的料滴中以置换熔融玻璃并将料滴成形为型坯。 然后将最终的模具内部的额外体积最终减小到零,直到型坯完成时间为止,使熔融玻璃在模腔中升高到主模顶部的高度 身体。 最后,形成的型坯脱模。 因此,可以将较大的料滴放置在主模具体中,而没有任何溢出的可能性,并且模腔可以像成品的中空玻璃制品更加成型,使得所得到的型坯可以吹制成更高质量 产品。
    • 3. 发明授权
    • Pressing plunger mechanism for a glassware forming machine
    • 按压玻璃器皿成型机的柱塞机构
    • US07340923B2
    • 2008-03-11
    • US10523350
    • 2003-05-03
    • Hermann BögertWaldemar KässnerNorbert Monden
    • Hermann BögertWaldemar KässnerNorbert Monden
    • C03B11/06
    • C03B9/41C03B9/1936C03B9/1938C03B9/40C03B9/403C03B9/406
    • A pressing plunger mechanism for a glassware forming machine has at least one pressing plunger which in normal operation can be moved axially in a reciprocating manner together with a pressing plunger receiver between an inoperative position and a pressing position. A piston rod of a piston is fastened to each pressing plunger receiver, which piston can be displaced in a cylinder of a pressing plunger holder. The pressing plunger holder can be moved axially in a reciprocating manner by a first drive and is connected in a non-rotatable manner to a threaded spindle. A nut which can be rotationally driven by the first drive is engaged with the threaded spindle and is coupled to a driven shaft of an angular gear. An input shaft of the angular gear can be rotationally driven by an electric servo motor of the first drive.
    • 用于玻璃器皿成型机的按压柱塞机构具有至少一个按压柱塞,其在正常操作中可以与挤压柱塞接收器一起以往复方式轴向移动在不操作位置和按压位置之间。 活塞的活塞杆紧固到每个按压柱塞接收器,该活塞可以在压力柱塞保持器的气缸中移位。 按压柱塞保持器可以通过第一驱动器以往复方式轴向移动,并且以不可旋转的方式连接到螺纹主轴。 可以由第一驱动器旋转驱动的螺母与螺纹主轴接合并且联接到角齿轮的从动轴。 角齿轮的输入轴可以由第一驱动器的电动伺服电动机旋转驱动。
    • 4. 发明申请
    • Patrix mechanism of a glass-molding machine
    • 帕特里克机械玻璃成型机
    • US20050252245A1
    • 2005-11-17
    • US10523350
    • 2003-05-03
    • Hermann BogertWaldemar KassnerNorbert Monden
    • Hermann BogertWaldemar KassnerNorbert Monden
    • C03B9/193C03B9/40C03B11/06
    • C03B9/41C03B9/1936C03B9/1938C03B9/40C03B9/403C03B9/406
    • The pressing plunger mechanism (1) has at least one pressing plunger (72) which in normal operation can be moved axially in a reciprocating manner together with a pressing plunger receiver (71) between an inoperative position and a pressing position. A piston rod (60; 61) of a piston (58; 59) is fastened to each pressing plunger receiver (71), which piston can be displaced in a cylinder (56; 57) of a pressing plunger holder (45; 46). A piston surface (74) facing away from the pressing plunger (72) is acted upon by a compressed fluid (83). The pressing plunger holder (45; 46) can be moved axially in a reciprocating manner by a first drive (9) and is connected in a non-rotatable manner to a threaded spindle (17). A nut (21) which can be rotationally driven by the first drive (9) is engaged with the threaded spindle (17) and is coupled (19) to a driven shaft (15) of an angular gear (14). An input shaft (13) of the angular gear (14) can be rotationally driven by an electric servo motor (10) of the first drive (9).
    • 按压柱塞机构(1)具有至少一个按压柱塞(72),其在正常操作中可以与在不工作位置和按压位置之间的按压柱塞接收器(71)以往复方式轴向移动。 活塞(58; 59)的活塞杆(60; 61)紧固到每个按压柱塞接收器(71)上,活塞可以在压力柱塞保持器(45; 46)的气缸(56; 57) 。 背向压力柱塞(72)的活塞表面(74)被压缩流体(83)作用。 按压柱塞保持器(45; 46)可以通过第一驱动器(9)以往复方式轴向移动,并且以不可旋转的方式连接到螺纹轴(17)。 可以由第一驱动器(9)旋转驱动的螺母(21)与螺纹主轴(17)接合并且联接(19)到角齿轮(14)的从动轴(15)。 角齿轮(14)的输入轴(13)可以由第一驱动器(9)的电动伺服马达(10)旋转驱动。