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    • 2. 发明授权
    • Process for modifying synthetic bicomponent fiber cross-sections
    • 改性合成双组分纤维截面的方法
    • US6153138A
    • 2000-11-28
    • US288185
    • 1999-04-08
    • Charles F. Helms, Jr.Otto M. IlgDiane R. KentMatthew B. HoytJohn A. Hodan
    • Charles F. Helms, Jr.Otto M. IlgDiane R. KentMatthew B. HoytJohn A. Hodan
    • D01D5/253D01F8/12B29D31/00D01D5/24D01D8/04D01D8/12
    • D01F8/12D01D5/253Y10T428/2929Y10T428/2931Y10T428/2973Y10T428/2975
    • Bicomponent fibers of different cross-sections may be formed without changing the geometry of the spinneret orifices. More specifically, at least two polymers are co-melt-spun through an orifice of fixed geometry so as to achieve a bicomponent fiber having a desired cross-section. In order to change to a bicomponent fiber having a cross-section which is different, therefore, at least one of (1) the differential relative viscosity, (2) the relative proportions of the first and/or second polymers, and (3) the cross-sectional bicomponent distribution of the first and second polymers, is changed. In such a manner, therefore, a wide variety of bicomponent fibers having different cross-sectional geometries may be produced without changing the fixed geometry orifice through which the polymers are co-melt-spun. Thus, bicomponent fiber cross-sections may be "engineered" to suit a variety of needs without necessarily shutting down production equipment in order to change spinnerets. The bicomponent fibers are most preferably multilobal (e.g., trilobal) in which the core component is generally triangularly shaped.
    • 可以在不改变喷丝孔的几何形状的情况下形成不同横截面的双组分纤维。 更具体地说,至少两种聚合物通过固定几何形状的孔进行共熔纺丝,以达到具有所需横截面的双组分纤维。 因此,为了改变具有不同截面的双组分纤维,因此,(1)差分相对粘度,(2)第一和/或第二聚合物的相对比例和(3)中的至少一个, 改变第一和第二聚合物的横截面双组分分布。 因此,以这种方式,可以生产具有不同横截面几何形状的各种各样的双组分纤维,而不改变聚合物共熔共纺的固定几何孔。 因此,双组分纤维横截面可以“工程化”以适应各种需要,而不必关闭生产设备以改变喷丝头。 双组分纤维最优选为多叶形(例如三叶形),其中芯部分通常为三角形。
    • 4. 发明授权
    • Plate-type sheath/core-switching device and method of use
    • 板式护套/铁芯开关装置及其使用方法
    • US5750063A
    • 1998-05-12
    • US872130
    • 1997-06-10
    • Matthew B. Hoyt
    • Matthew B. Hoyt
    • D01D5/34D01D4/06D01F8/04
    • D01D5/34
    • A sheath/core-switching device contains a first plate(s) having a first flow path and a second plate(s) having a second flow path. The first flow path contains a first chamber, a first central-port, and multiple first channels with multiple first outer-ports radially disposed around the first central-port. The second flow path contains a second chamber, multiple second channels having multiple second outer-ports, and multiple third channels having multiple second central-ports which are radially disposed around the second central-ports. The sheath and core phases of a sheath/core fluid stream can be switched by means of the device by directing the stream axially to the first chamber where the stream is split into a core-stream and multiple sheath-substreams. The core-stream flows through the first central-port to the second chamber. The sheath-substreams flow through the first channels and first outer-ports to the third channels. In the second chamber, the core-stream splits into multiple core-substreams which flow through the second channels and second outer-ports. The sheath-substreams flow through the third channels and second central-ports. The core-substreams exiting the second outer-ports and the sheath-substreams exiting the second central-ports are disposed in a sheath/core configuration, the sheath-substreams forming the core and the core-substreams forming the sheath.
    • 鞘/芯开关装置包含具有第一流路的第一板和具有第二流路的第二板。 第一流路包括第一腔室,第一中心口和多个第一通道,多个第一外口径向设置在第一中心口周围。 第二流路包括第二室,具有多个第二外端口的多个第二通道,以及具有多个第二中心端口的多个第三通道,所述多个第二中心端口围绕第二中心端口径向设置。 鞘/芯流体流的鞘层和芯层可以通过将流体轴向引导到第一室,其中流被分成芯流和多个鞘 - 子流的方式来切换。 核心流通过第一中心端口流到第二室。 护套子流流过第一通道和第一外部端口流到第三通道。 在第二室中,核心流分离成多个流经第二通道和第二外部端口的核心子流。 护套子流流过第三通道和第二中心端口。 离开第二外部端口的核心子流和离开第二中心端口的鞘子流以鞘/核心构型设置,鞘 - 子流形成核心,核 - 子流形成鞘。
    • 5. 发明授权
    • Process for melt mixing and spinning synthetic polymer
    • 熔融混合和纺丝合成聚合物的方法
    • US5651928A
    • 1997-07-29
    • US624211
    • 1996-03-29
    • John A. HodanMatthew B. HoytOtto M. Ilg
    • John A. HodanMatthew B. HoytOtto M. Ilg
    • D01D5/28D01D4/06D01F8/04
    • D01D5/28B29B7/88Y10T137/2076Y10T137/212Y10T137/2147Y10T137/2158Y10T137/2218
    • Synthetic polymers are melt-mixed and spun from a mixture of respective first and second polymer melt flows. Specifically, the mixture of first and second polymer melt flows are mixed at a fluidic mixing device having a mixing intersection which receives the first and second polymer melt flows and discharges the mixture thereof respectively into at least one or another of multiple discharge ports fluid-connected with a respective spinning nozzle. The mixed flow of first and second polymer melt flows is controlled by diverting the first polymer melt so that it (i) entirely flows along a first flow path to responsively merge with the second polymer melt flow at the mixing intersection of the mixing device and thereby cause the mixed polymer flow to be discharged through the one discharge port, or (ii) entirely flow along a second flow path to responsively merge with the second polymer melt at the mixing intersection of the mixing device and thereby cause the mixed polymer flow to be discharged through the other discharge port. The mixed polymer flow thereby diverted is thus spun by one or another of the spinning nozzles, respectively.
    • 将合成聚合物熔融混合并从各自的第一和第二聚合物熔体流的混合物纺丝。 具体地说,第一和第二聚合物熔体流动的混合物在具有接收第一和第二聚合物熔体流动的混合交叉点的流体混合装置中混合,并将其混合物分别排放到流体连接的多个排放口中的至少一个或另一个 与相应的纺丝喷嘴。 通过转移第一聚合物熔体来控制第一和第二聚合物熔体流的混合流,使得其(i)完全沿着第一流动路径流动以在混合装置的混合交叉处与第二聚合物熔体流反应地合并,从而 导致混合聚合物流通过一个排出口排出,或(ii)沿着第二流动路径全部流动,以在混合装置的混合交叉处与第二聚合物熔体反应地合并,从而使混合的聚合物流为 通过另一个排放口排出。 由此分流的混合聚合物流分别由一个或另一个纺丝喷嘴纺出。
    • 10. 发明授权
    • Apparatus for melt mixing synthetic polymers
    • 熔融混合合成聚合物的装置
    • US5697402A
    • 1997-12-16
    • US623952
    • 1996-03-29
    • John A. HodanMatthew B. HoytOtto M. Ilg
    • John A. HodanMatthew B. HoytOtto M. Ilg
    • D01D5/28F04F5/00
    • D01D5/28B29B7/88Y10T137/2076Y10T137/212Y10T137/2147Y10T137/2158Y10T137/2218
    • A system for mixing first and second polymer melt flows and directing a mixed polymer melt flow to one and another downstream locations includes a control valve having an inlet port for receiving the first polymer melt flow, and a pair of outlet ports, and a fluidic valve for forming the mixed flow of the first and second polymer melt flows and directing the mixed flow to one of a plurality of downstream locations. The fluidic valve is provided with a primary supply port for receiving the second polymer melt flow, a pair of secondary supply ports which are fluid-connected with the primary supply port at a mixing intersection, and a plurality of discharge ports extending from the mixing intersection. Each discharge port directs the mixed flow of the first and second polymer melt flows to a respective downstream location. A pair of branch conduits is provided which fluid-connect one of the pair of outlet ports of the control valve to a respective one of the secondary supply ports of the fluidic valve.
    • 用于混合第一和第二聚合物熔体流动并将混合的聚合物熔体流引导到一个和另一个下游位置的系统包括具有用于接收第一聚合物熔体流的入口端口的控制阀和一对出口以及流体阀 用于形成第一和第二聚合物熔体流的混合流,并将混合流引导到多个下游位置之一。 流体阀设置有用于接收第二聚合物熔体流的主供应端口,在混合交叉口处与主供应端口流体连接的一对二次供应端口和从混合交叉口延伸的多个排出端口 。 每个排出口将第一和第二聚合物熔体流的混合流引导到相应的下游位置。 提供了一对分支管道,其将控制阀的一对出口端口中的一个流体连接到流体阀的相应的一个二次供应端口。