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    • 8. 发明申请
    • Programmable Controller
    • 可编程控制器
    • US20080082212A1
    • 2008-04-03
    • US11658612
    • 2005-07-22
    • Satoshi KatoTsutomu Araki
    • Satoshi KatoTsutomu Araki
    • G06F19/00
    • G05B9/03G05B19/058G05B2219/1184G05B2219/1186G05B2219/1189G05B2219/1195G05B2219/14007G05B2219/14054G05B2219/14116G05B2219/14126G05B2219/24173G05B2219/24184G05B2219/24186G05B2219/24196
    • While a microcomputer 100A is executing a self-diagnosis (A), second diagnosis pulse output means 110B of a B-system microcomputer 100B is not used utterly. Further, during this time, the B-system microcomputer 100B does not execute a processing relating to at least the self-diagnosis (A) utterly. By shifting the timings for the A-system and the B-system to output the diagnosis pulses, independencies can be secured between respective diagnosis processing (self-diagnoses (A) and (B)). Thus, the independencies between the A-system and the B-system can be verified briefly by the self-diagnosis (A) on the A-system side. Further, first diagnosis pulse group are outputted parallel and simultaneously from first diagnosis pulse output means 110A. Thus, since cyclic control is not required for respective external input devices, it can be done to verify the independencies between the A-system and the B-system within a short period of time.
    • 在微型计算机100A执行自诊断(A)的情况下,不完全使用B系统微计算机100B的第二诊断脉冲输出单元110B。 此外,在此期间,B系统微计算机100B完全不执行与至少自诊断(A)有关的处理。 通过移动A系统和B系统的定时输出诊断脉冲,可以在各自的诊断处理(自诊断(A)和(B))之间确保独立性。 因此,A系统和B系统之间的独立性可以通过A系统侧的自我诊断(A)进行简单的验证。 此外,第一诊断脉冲组从第一诊断脉冲输出装置110A并行输出。因此,由于对于各个外部输入装置不需要循环控制,因此可以进行A系统和B系统之间的独立性的验证 系统在短时间内。
    • 10. 发明授权
    • Separation module and bundle unit of hollow thread-type porous membrane
elements and methods of producing same
    • 中空螺纹多孔膜元件的分离模块和束单元及其制造方法
    • US5885454A
    • 1999-03-23
    • US647776
    • 1996-05-15
    • Tamotsu YagihashiTsutomu ArakiKazuyoshi Tukamoto
    • Tamotsu YagihashiTsutomu ArakiKazuyoshi Tukamoto
    • B01D63/00B01D53/22B01D63/02B01D3/00
    • B01D53/22B01D63/02B01D63/021B01D63/024B01D63/026B01D63/10B01D2319/04Y10S264/48Y10T428/2935
    • A separation module to be used for separation and filtration of micro-substances. The separation module comprises a bundled configuration of a plurality of hollow thread-type porous membrane elements made of high polymer material. The bundled configuration is sealingly disposed in a casing, in which the thread-type porous membrane elements are bound each other by means of molten thermoplastic resin. Such a separation module is produced by arranging the hollow thread-type porous membrane elements in a planar state; putting at least one of opposite end sections of the planar state porous membrane elements between first and second elongate thermoplastic resin films to form a sheet-like configuration; heating the sheet-like configuration to weld the films to each other and/or to the porous membrane elements; rolling up the welded sheet-like configuration in a longitudinal direction of the first and second thermoplastic films to form a rolled-up configuration in which two layers of the porous membrane elements are spirally wound, each layer being planar and including the parallelly arranged porous membrane elements; inserting the rolled-up configuration into the casing; and melting the first and second thermoplastic resin films to bind the end sections of the porous membrane elements to each other and to an inner wall of the casing.
    • 用于微量物质分离和过滤的分离模块。 分离模块包括由高分子材料制成的多个中空螺纹型多孔膜元件的捆扎构造。 捆扎构造密封地设置在壳体中,其中螺纹型多孔膜元件通过熔融热塑性树脂彼此结合。 这样的分离模块通过将中空螺纹型多孔膜元件布置成平面状态来制造; 将平面状多孔膜元件的相对端部中的至少一个放置在第一和第二细长热塑性树脂膜之间以形成片状构造; 加热片状构造以将膜彼此和/或多孔膜元件焊接; 在第一和第二热塑性薄膜的长度方向上卷起焊接的薄片状构造,以形成两层多孔膜元件螺旋卷绕的卷起构造,每层是平面的,并且包括平行布置的多孔膜 元素 将卷起的构造插入壳体中; 并且熔化第一和第二热塑性树脂膜以将多孔膜元件的端部彼此连接到壳体的内壁。