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    • 1. 发明授权
    • Setting plate arrangement
    • 设置板布置
    • US08667815B2
    • 2014-03-11
    • US12364792
    • 2009-02-03
    • Siegfried Schwarzer
    • Siegfried Schwarzer
    • C03B27/00
    • C03B9/4535Y02P40/57
    • In order to permit more effective cooling in comparison to the prior art, in particular in its floor area, of a hollow glass article (1) standing upright on the base (2) of a setting plate (4) provided with transcurrent orifices (9, 9′, 9″) forming a cavity (8) between a base (2) and the facing surface of the setting plate (4) of the standing surface (2″), it is proposed to utilize a part of the orifices (9) situated inside the standing surface (2″) for the supply of cooling air into the cavity (8), and to utilize the remaining orifices (9′) inside the standing surface (2″) only for the extraction of cooling air from the cavity (8). By configuring the orifices (9, 9′) that are utilized in each case for the supply and extraction of cooling air into and out of the cavity (8) so that they are at least approximately cross-sectionally identical, a throughput of cooling air through the cavity (8) and thus the available cooling performance can be varied within broad limits, but in the absence of an adverse effect on the stability of the hollow glass article (1) or a resulting risk of uncontrolled positional displacements on the setting plate (4).
    • 与现有技术(特别是在其地板区域)相比,为了允许更为有效的冷却,该中空玻璃制品(1)直立放置在设置有经流孔(9)的固定板(4)的基座(2)上 ,9',9“),在基座(2)和立面(2”)的固定板(4)的相对表面之间形成空腔(8),建议利用 位于站立面(2“)内的用于将冷却空气供应到空腔(8)中的孔口(9),并且仅在立式表面(2”)内部利用剩余的孔(9')用于提取 的冷却空气(8)。 通过配置在每种情况下使用的用于将冷却空气供入和抽出空腔(8)的孔(9,9'),使得它们至少大致横截面相同,冷却空气的通过量 通过空腔(8),因此,可用的冷却性能可以在宽范围内变化,但是不会对中空玻璃制品(1)的稳定性产生不利影响,或由此导致设置板上不受控制的位置位移的风险 (4)。
    • 2. 发明授权
    • Method and device for pressing a gob
    • 压榨料滴的方法和装置
    • US06698241B1
    • 2004-03-02
    • US09786668
    • 2001-03-08
    • Siegfried Schwarzer
    • Siegfried Schwarzer
    • C03B1106
    • C03B9/1936C03B9/1932C03B9/32
    • Method and apparatus for pressing a parison. A parison mold is composed of neck tool halves and parison mold halves. A gob of molten glass had first been introduced through an upper loading orifice into a cavity of the parison mold, while a pressing plunger was located in a lower loading position. An assembly consisting of a pressing element, a guide sleeve and a piston-cylinder unit was introduced into the loading orifice. Subsequently the pressing plunger was raised from its loading position into the illustrated upper end operating position until its annular end face had moved into position against a stop surface of the neck tool. Following the preliminary pressing process a neck chamber in the cavity is still free from molten glass. It is only at this point that the pressing element exerts pressure on a base of the parison which is being produced. The molten glass is also pressed into the hitherto still free neck chamber of the cavity. The finish-pressing process of the parison is thus completed and the parison mold can be opened for the purpose of transferring the parison into a finish-forming station.
    • 按压型坯的方法和装置。 型坯模具由颈部半模和型坯半模组成。 首先将熔融玻璃料滴通过上部装载孔引入型坯模腔的空腔中,同时按压柱塞位于下部装载位置。 将由按压元件,导向套筒和活塞 - 缸单元构成的组件引入到装载孔中。 随后,按压柱塞从其装载位置升高到所示的上端操作位置,直到其环形端面已经相对于颈部工具的止动表面移动到位。 在预压过程之后,空腔中的颈腔仍然没有熔融玻璃。 只有在这一点上,按压元件对正在生产的型坯的基座施加压力。 熔融玻璃也被挤压到空腔的迄今尚未释放的颈部腔中。 因此,型坯的精加工过程完成,并且可以打开型坯模具,以将型坯转移到精加工成型工位中。
    • 3. 发明授权
    • Arrangement for adjusting the mass of thermoplastic gobs for a molding
machine
    • US4369053A
    • 1983-01-18
    • US312852
    • 1981-10-19
    • Kurt BeckerGerhard GeiselSiegfried SchwarzerHans-Georg Seidel
    • Kurt BeckerGerhard GeiselSiegfried SchwarzerHans-Georg Seidel
    • C03B7/08B29B9/00B29C31/00B29C31/06C03B7/084C03B9/193C03B9/41C03B11/16G05B11/00C03B7/14
    • C03B9/1936C03B11/16C03B7/084C03B9/1932C03B9/41
    • An arrangement for adjusting the mass of gobs of thermoplastic material, especially molten glass, which are deformed in a positive manner in the mold of a molding machine by means of a pressing member which penetrates into the gobs. A distance transducer mechanically detects the maximum depth of penetration reached by the pressing member during each molding-machine operating cycle. The distance transducer is connected with a metallic actuating element for a differential transducer, at whose output is produced an electrical signal proportional to the maximum penetration depth reached, this signal being applied to an automatic regulating circuit which adjusts the setting of a dosing structure which controls the mass of the gobs. The regulating circuit includes, at the output of the differential transformer and connected one after the next, a measurement transducer, a maximum-value storage, a sample-and-hold circuit, a summing junction, a PI- or PID-regulator and an adjusting motor which drives an adjusting member for the dosing structure, as well as a feedback transducer. The feedback transducer is connected to the PI- or PID-regulator via a rotary-angle-to-voltage converter. A control and display panel is connected to a control logic circuit, the latter connected to the maximum-value storage and to the sample-and-hold circuit, the control logic circuit receiving a machine synchronization signal once per machine operating cycle. A desired-value potentiometer furnishes a desired-value voltage representing the optimum penetration depth for the pressing member, this voltage being applied to the summing junction. A weighting circuit can be provided to take into account the different maximum diameters of different pressing members which may from time to time be used. The feedback transducer is automatically returned to a middle angular setting thereof. The distance transducer can be constructed in several different ways, disclosed.
    • 4. 发明授权
    • Multi-station glass-forming machine
    • 多工位玻璃成型机
    • US4203752A
    • 1980-05-20
    • US947185
    • 1978-09-29
    • Kurt BeckerHermann BuogertSiegfried SchwarzerHans-Georg Seidel
    • Kurt BeckerHermann BuogertSiegfried SchwarzerHans-Georg Seidel
    • C03B35/08C03B9/41C03B9/453C03B9/44C03B35/00
    • C03B9/41C03B9/453
    • Each station has a push-off unit which transfers glass articles produced at such station onto a common outfeed conveyor. Each push-off unit comprises a cylinder-piston unit mounted for swinging movement on a vertical swing shaft, the piston thereof carrying a push-off arm. The push-off arm extends and engages the articles to be transferred, the cylinder swings towards the belt transferring the article, and the push-off arm retracts and the cylinder swings back. The push-off units of the plural stations are activated sequentially, in correspondence to the sequence in which glass gobs are fed into the respective machine stations. Plural electric motors are provided, one per station, and the swing motion of the push-off unit is generated by the respective electric motor. The rotation of each electric motor is controllable, by open- or closed-loop control, independently of the other electric motors. The operator selects the sequence in which the electric motors are to be activated. A common or shared desired-rpm voltage is applied to all electric motors, sequentially. The electric motors drive the push-off units through respective crank and rocker mechanisms.
    • 每个车站都有一个推出单元,将在这种车站生产的玻璃制品转移到公共的出料输送机上。 每个推出单元包括一个气缸 - 活塞单元,其安装成用于在垂直摆动轴上摆动,其活塞承载推出臂。 推出臂延伸并接合待传送的物品,汽缸朝向传送物品的带摆动,并且推出臂缩回并且汽缸向后摆动。 对应于将玻璃料滴送入相应的机器站的顺序,多个站的按压单元依次被激活。 提供多个电动机,每个站一个,并且推动单元的摆动由相应的电动机产生。 每个电动机的旋转可以通过开环或闭环控制来控制,而与其他电动机无关。 操作员选择要启动电动机的顺序。 共同或共享的期望转速电压依次施加到所有电动机。 电动马达通过相应的曲柄和摇臂机构驱动推动单元。
    • 5. 发明申请
    • Setting Plate Arrangement
    • 设置板布置
    • US20090199596A1
    • 2009-08-13
    • US12364792
    • 2009-02-03
    • Siegfried Schwarzer
    • Siegfried Schwarzer
    • C03B27/06
    • C03B9/4535Y02P40/57
    • In order to permit more effective cooling in comparison to the prior art, in particular in its floor area, of a hollow glass article (1) standing upright on the base (2) of a setting plate (4) provided with transcurrent orifices (9, 9′, 9″) forming a cavity (8) between a base (2) and the facing surface of the setting plate (4) of the standing surface (2″), it is proposed to utilize a part of the orifices (9) situated inside the standing surface (2″) for the supply of cooling air into the cavity (8), and to utilize the remaining orifices (9′) inside the standing surface (2″) only for the extraction of cooling air from the cavity (8). By configuring the orifices (9, 9′) that are utilized in each case for the supply and extraction of cooling air into and out of the cavity (8) so that they are at least approximately cross-sectionally identical, a throughput of cooling air through the cavity (8) and thus the available cooling performance can be varied within broad limits, but in the absence of an adverse effect on the stability of the hollow glass article (1) or a resulting risk of uncontrolled positional displacements on the setting plate (4).
    • 与现有技术(特别是在其地板区域)相比,为了允许更为有效的冷却,该中空玻璃制品(1)直立放置在设置有经流孔(9)的固定板(4)的基座(2)上 ,9',9“),在基座(2)和立面(2”)的固定板(4)的相对表面之间形成空腔(8),建议利用 位于站立面(2“)内的用于将冷却空气供应到空腔(8)中的孔口(9),并且仅在立式表面(2”)内部利用剩余的孔(9')用于提取 的冷却空气(8)。 通过配置在每种情况下使用的用于将冷却空气供入和抽出空腔(8)的孔(9,9'),使得它们至少大致横截面相同,冷却空气的通过量 通过空腔(8),因此,可用的冷却性能可以在宽范围内变化,但是不会对中空玻璃制品(1)的稳定性产生不利影响,或由此导致设置板上不受控制的位置位移的风险 (4)。
    • 9. 发明申请
    • Device for transferring hollow glass objects from a glass-forming machine onto a conveyor belt
    • 用于将中空玻璃物体从玻璃成型机转移到传送带上的装置
    • US20050199011A1
    • 2005-09-15
    • US11074225
    • 2005-03-07
    • Michael HoffmannSiegfried SchwarzerDirk WinkelhakeHermann Bogert
    • Michael HoffmannSiegfried SchwarzerDirk WinkelhakeHermann Bogert
    • C03B9/453C03B9/44
    • C03B9/453
    • A for horizontally transferring at least one hollow glass object from a dead plate of each section of an I.S. (Individual Section) glass-forming machine to a conveyor belt which is common to all sections is characterised by a transfer device (30) which is connected via a carrying bar (42) to a guide piece (35) which can be displaced along two guide rods (36) which are disposed in a housing (13) in parallel with each other at a mutually spaced disposition and extending in a horizontal manner. A freely rotatable roller (32) which is disposed on one end of a crank (28) engages in a groove (34) of the guide piece which extends in a perpendicular manner with respect to the two guide rods (36), wherein the crank (28) can rotate about an axis (8) which extends in parallel with the axis of the roller (32). The housing (13) is mounted for this purpose via a hollow shaft (9) which extends coaxially with respect to the axis (8) and inside which hollow shaft is mounted in turn a shaft (11) which drives the crank (28) and is operatively connected to a drive unit (22). The drive unit 22) thus serves to displace the transfer device (30) via the crank (28) and the guide piece (35) in the longitudinal direction of the carrying bar (42), whereas a further drive unit (14) which is drive-connected to the hollow shaft (9) is intended to rotate the transfer device (30) about the axis (8). The device requires an extraordinarily small volume of installation space and is characterised by a structurally simple construction.
    • A用于从I.S.的每个部分的死板水平地转移至少一个中空玻璃物体。 (单个部分)玻璃成型机到所有部分共同的传送带,其特征在于一个传送装置(30),其经由传送杆(42)连接到导向件(35),导向件可沿两个 导向杆(36),其以相互间隔的配置并且以水平方式延伸设置在壳体(13)中,彼此平行。 设置在曲柄(28)的一端的可自由转动的滚轮(32)与导向件的凹槽(34)接合,该凹槽相对于两个导杆(36)以垂直方式延伸,其中曲柄 (28)可以围绕与辊(32)的轴线平行延伸的轴线(8)旋转。 壳体(13)通过相对于轴线(8)同轴延伸的中空轴(9)而安装在该目的上,并且空心轴依次安装在驱动曲柄(28)的轴(11)和 可操作地连接到驱动单元(22)。 因此,驱动单元22)用于沿着传送杆(42)的纵向方向经由曲柄(28)和引导件(35)移动传送装置(30),而另外的驱动单元(14) 驱动连接到中空轴(9)的目的是使转移装置(30)围绕轴线(8)旋转。 该装置需要非常小的安装空间,其特征在于结构简单的结构。
    • 10. 发明授权
    • Routing apparatus for a train of containers of glass or the like
    • 用于玻璃容器等的列车装置
    • US5501316A
    • 1996-03-26
    • US256008
    • 1994-06-17
    • Heinz HermeningSiegfried SchwarzerHans-Georg Seidel
    • Heinz HermeningSiegfried SchwarzerHans-Georg Seidel
    • B65G47/84C03B35/04C03B35/06B65G47/26
    • B65G47/846B65G47/841C03B35/04C03B35/062B65G2201/0244
    • Containers (2) arrive on a first conveyor belt (3) at comparatively large initial spacings (8) from one another and at comparatively high speed in a first direction of movement (4). The containers (2) are routed on a continuously curved path (11) into a second direction of movement (5) onto a second conveyor belt (6). Between the conveyor belts (3, 6) is arranged an intermediate belt (14) whose upper run (15) is driven in a third direction of movement (16) with a lower speed than the first conveyor belt (3). The second conveyor belt (6) likewise runs at lower speed than the first conveyor belt (3), so that finally a comparatively small second gap (7) results between the containers (2). A drive member (10) carries on the one hand transportation fingers (9) which engage between successive containers (2), and on the other hand stopping members (13) of a support device (12) with which the containers ( 2) are kept in continuous contact up to their delivery on to the second conveyor belt (6). A working section (31) of the drive member (10) is automatically guided in accordance with the continuously curved path (11).
    • PCT No.PCT / EP93 / 02434 371日期:1994年6月17日 102(e)日期1994年6月17日PCT 1993年9月9日PCT公布。 出版物WO94 / 08879 日期1994年4月28日。容器(2)以相对较大的初始间隔(8)以第一移动方向(4)的较高速度到达第一传送带(3)。 容器(2)在连续弯曲的路径(11)上被引导到第二传送带(6)上的第二移动方向(5)上。 在输送带(3,6)之间布置有中间带(14),其上游(15)以比第一输送带(3)更低的速度在第三运动方向(16)上被驱动。 第二输送带(6)同样地以比第一输送带(3)更低的速度运行,使得最终在容器(2)之间产生相对较小的第二间隙(7)。 驱动构件(10)一方面承载在相继的容器(2)之间接合的运送指状物(9),另一方面承载容器(2)与支撑装置(12)的止动构件(13) 保持与第二输送带(6)的输送持续接触。 驱动构件(10)的工作部分(31)根据连续弯曲的路径(11)被自动地引导。