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    • 1. 发明授权
    • Injection molding method
    • 注塑法
    • US4548773A
    • 1985-10-22
    • US386618
    • 1982-06-09
    • Nam P. SuhJames R. Rinderle
    • Nam P. SuhJames R. Rinderle
    • B29C45/73B29F1/08
    • B29C45/7331B29C2045/7343
    • A novel method and device for precision injection molding is disclosed providing controlled cooling of a portion of the mold cavity surface during the molding cycle, or several such portions independently, and also, in the preferred embodiment controlled heating of a portion of the mold cavity surface during the molding cycle or several such portions independently, whereby high quality, high precision parts having close dimensional tolerances may be produced. Another aspect of the invention, a volume-controlled variable conductance heat pipe is disclosed, which novel heat pipe comprises housing means forming a sealed chamber, fluid, such as water or ammonia, within the chamber, wicking means and control means for controlling the thermal conductance of the heat pipe comprising means for controlling the volume of fluid in the liquid phase in the chamber. Preferably, the novel injection mold comprises a thin mold face supported at least in part by a foundation means which either incorporates, or is itself, a novel volume controlled variable conductance heat pipe as disclosed.
    • 公开了一种用于精密注射成型的新型方法和装置,其在模制循环期间提供模腔表面的一部分的受控冷却,或者几个这样的部分独立地控制冷却,并且在优选实施例中控制加热模腔表面的一部分 在成型周期或几个这样的部分独立地,由此可以产生具有紧密尺寸公差的高质量,高精度的部件。 本发明的另一方面,公开了一种容积控制的可变电导热管,其中新型热管包括形成密封室的壳体装置,腔室内的流体,例如水或氨,芯吸装置和用于控制热量的控制装置 热管的电导率包括用于控制腔室中的液相中的流体体积的装置。 优选地,新颖的注射模具包括薄的模具面,其至少部分地由基础装置支撑,该基础装置包括或本身是新的容积控制的可变电导热管,如所公开的。
    • 2. 发明授权
    • Injection molding device and method
    • 注射成型装置及方法
    • US4338068A
    • 1982-07-06
    • US152493
    • 1980-05-22
    • Nam P. SuhJames R. Rinderle
    • Nam P. SuhJames R. Rinderle
    • B29C45/73B29F1/08
    • B29C45/7331
    • A novel method and device for precision injection molding is disclosed providing controlled cooling of a portion of the mold cavity surface during the molding cycle, or several such portions independently, and also, in the preferred embodiment controlled heating of a portion of the mold cavity surface during the molding cycle or several such portions independently, whereby high quality, high precision parts having close dimensional tolerances may be produced. Another aspect of the invention, a volume-controlled variable conductance heat pipe is disclosed, which novel heat pipe comprises housing means forming a sealed chamber, fluid, such as water or ammonia, within the chamber, wicking means and control means for controlling the thermal conductance of the heat pipe comprising means for controlling the volume of fluid in the liquid phase in the chamber. Preferably, the novel injection mold comprises a thin mold face supported at least in part by a foundation means which either incorporates, or is itself, a novel volume controlled variable conductance heat pipe as disclosed.
    • 公开了一种用于精密注射成型的新型方法和装置,其在模制循环期间提供模腔表面的一部分的受控冷却,或者几个这样的部分独立地控制冷却,并且在优选实施例中控制加热模腔表面的一部分 在成型周期或几个这样的部分独立地,由此可以产生具有紧密尺寸公差的高质量,高精度的部件。 本发明的另一方面,公开了一种容积控制的可变电导热管,其中新型热管包括形成密封室的壳体装置,腔室内的流体,例如水或氨,芯吸装置和用于控制热量的控制装置 热管的电导率包括用于控制腔室中的液相中的流体体积的装置。 优选地,新颖的注射模具包括薄的模具面,其至少部分地由基础装置支撑,该基础装置包括或本身是新的容积控制的可变电导热管,如所公开的。
    • 5. 发明授权
    • Woven multiple-contact connector
    • 编织多点接头
    • US06942496B2
    • 2005-09-13
    • US10273241
    • 2002-10-17
    • Matthew SweetlandNam P. Suh
    • Matthew SweetlandNam P. Suh
    • H01R11/01H01R3/00H01R12/71H01R13/15H01R13/24H01R13/46H01R12/00
    • H01R13/2407H01R12/714H01R13/2492
    • A multiple-contact woven connector including a weave arranged to provide a plurality of tensioned fibers and a conductor woven with the plurality of tensioned fibers so as to form a plurality of peaks and valleys along a length of the conductor. The conductor has a plurality of contact points positioned along the length of the conductor, such that when the conductor engages a conductor of a mating connector element, at least some of the plurality of contact points provide an electrical connection between the conductor of the multiple-contact woven connector and the conductor of the mating connector element. The tensioned fibers of the weave provide a predetermined contact force between the at least some of the plurality of contact points of the conductor of the multiple-contact woven connector and the conductor of the mating connector element.
    • 一种多接触编织连接器,包括布置成提供多根张紧纤维的编织物和与所述多根张紧纤维编织的导体,以沿着所述导体的长度形成多个峰和谷。 导体具有沿着导体的长度定位的多个接触点,使得当导体接合配对连接器元件的导体时,多个接触点中的至少一些提供多重接触元件的导体之间的电连接, 接触编织连接器和配合连接器元件的导体。 织物的张紧纤维在多接触编织连接器的导体的多个接触点中的至少一些与配合连接器元件的导体之间提供预定的接触力。
    • 10. 发明授权
    • Method and apparatus for mixing particles
    • 颗粒混合的方法和装置
    • US4034966A
    • 1977-07-12
    • US628966
    • 1975-11-05
    • Nam P. SuhCharles L. Tucker, III
    • Nam P. SuhCharles L. Tucker, III
    • B01F3/18B01F5/00B01F13/00B01F15/00
    • B01F3/18B01F13/0001
    • A method and apparatus for forming a mixture of solid particles of two different types wherein the particles of one type are electrically charged with a charge of one polarity, e.g., a positive polarity, and the particles of the other type are electrically charged with a charge of the opposite polarity,e.g., a negative polarity. The charged particles are combined over a selected time period during which they retain their mobility so that at the end of such time period they form a mixture the characteristic of which is better than a random mixture, i.e., the ratio of the number of particles of one type to the number of particles of the other type in each of a plurality of samples thereof tends to be the same as the ratio of the number of particles of said one type to the number of particles of the other type in the overall mixture.
    • 一种用于形成两种不同类型的固体颗粒混合物的方法和装置,其中一种类型的颗粒用一种极性的电荷(例如,正极性)充电,另一种类型的颗粒用电荷 具有相反的极性,例如负极性。 带电粒子在选定的时间段内合并,在此期间它们保持其迁移率,使得在该时间段结束时,它们形成混合物,其特性优于无规混合物,即,随机混合物的颗粒数 与多个样品中的每一个样品中的其他类型的颗粒数量的一种类型倾向于与所述一种混合物中所述一种类型的颗粒数与另一种类型的颗粒数的比率相同。