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    • 3. 发明公开
    • ADAPTER ZUM VERBINDEN VON FLUIDLEITUNGEN SOWIE DAMIT GEBILDETES FLUIDLEITUNGSSYSTEM
    • EP3371504A1
    • 2018-09-12
    • EP16784820.9
    • 2016-10-12
    • Endress+Hauser Flowtec AG
    • BERNHARD, HolgerLAMBRIGGER, MichaelGSCHWEND, GebhardMATT, Christian
    • F16L41/02G01F15/18
    • F16L41/023F16L23/02G01F15/185
    • The adapter (10) according to the invention comprises an attachment connector (11), an attachment connector (12) and an attachment connector (13). A respective free connector end (11+, 12+ or 13+ respectively) of each of the attachment connectors (11, 12, 13) is designed for being connected to a line end of in each case one (other) fluid line. Furthermore, the adapter (10) has two mutually separate, tubular flow ducts (10-I, 10-II) which are designed in each case for guiding fluid flowing in and flowing out again, of which flow ducts one flow duct (10-I) extends from a flow opening (12a) located in the free connector end (12+) of the attachment connector (12) to a flow opening (11a) located in the free connector end (11+) of the attachment connector (11), and one flow duct (10-II) extends from a flow opening (13a) located in the free connector end (13+) of the attachment connector (13) to a flow opening (11b) located in the free connector end (11+). Furthermore, the adapter (10) comprises a projection (14) which adjoins a region, located between the flow openings (11a, 11b), of the free connector end (11+) and which extends from same connector ends (11+) with a length (l
      14 ) to a free projection end (14+) remote therefrom. A fluid line system formed by means of the adapter (10) furthermore comprises a fluid line (100) with a lumen encased by a wall, which lumen extends from a flow opening (100a) located in a line end (100+) of the fluid line (100) both to a flow opening (100b) located in a line end (100#) of same fluid line (100) and to a flow opening (100c) located, spaced apart from same flow opening (100b), in the line end (100#). The fluid line (100) may be connected by means of its line end (100+) to the attachment connector (11) of the adapter (10) in such a way that the projection (14) projects into the lumen of the fluid line (100) so as to form two tubular chambers of the fluid line (100), which tubular chambers are separated from one another by the projection (14) and are each designed for guiding fluid flowing through.
    • 6. 发明公开
    • DURCHFLUSSMESSGERÄT MIT FEHLERERKENNUNG
    • 流量计错误识别
    • EP3222978A1
    • 2017-09-27
    • EP16168263.8
    • 2016-05-04
    • Elster GmbH
    • TEMME, Guido, HerrMATTER, Daniel, HerrSABBATTINI, Bruno, Herr
    • G01F15/18G01F5/00G01F25/00
    • G01F15/185G01F1/66G01F1/6847G01F5/00G01F25/0007
    • Eine Messvorrichtung zur Erfassung eines Fluidflusses durch ein Hauptströmungsrohr (1) mit einer Bypass-Anordnung (7; 20; 30; 40, 41; 52).
      Flussbegrenzungsmittel (2; 10a, 10b; 32a, 32b; 50, 51), sind zwischen einem primären Zustrom-Abgriff (7a; 20a; 30a; 40a; 52a) und einem primären Abstrom-Abgriff (7b; 20b; 30b; 40b; 52b) der Bypass-Anordnung (7; 20; 30; 40, 41; 52) im Hauptströmungsrohr (1) angeordnet.
      Die Bypass-Anordnung (7; 20; 30; 40, 41; 52) hat einen ersten sekundären Abgriff (7c; 20c; 30c; 41a;) zwischen dem primären Zustrom-Abgriff (7a; 20a; 30a; 40a; 52a) und dem primären Abstrom-Abgriff (7b; 20b; 30b; 40b; 52b) im Bereich der Flussbegrenzungsmittel (2; 10a, 10b; 32a, 32b; 50, 51).
      Ein erster (4) und ein zweiter (6) Durchflusssensor sind derart zwischen den primären Abgriffen und dem wenigstens einen ersten sekundären Abgriff (7c; 20c; 30c; 41a;) mit der Bypass-Anordnung (7; 20; 30; 40, 41; 52) gekoppelt, dass sich die am nächsten liegenden Abgriffe zu jedem der Durchflusssensoren (4, 6, 27) in wenigstens einem der Abgriffe von den am nächsten liegenden Abgriffen jedes anderen Durchflusssensors unterscheiden.
    • 一种用于检测通过具有旁路装置(7; 20; 30; 40,41; 52)的主流管(1)的流体流量的测量装置。 流动限制装置(2; 10A,10B; 32A,32B; 50,51)是一个主流动抽头之间(7A; 20A; 30A; 40A; 52A)和主流出物抽头(7B; 20B; 30B; 40B; 所述旁路装置(7; 20; 30; 40,41; 52)的所述第一端(52a,52b)布置在所述主流管(1)中。 (7C; 20C; 30C; 41A),所述旁路装置(7; 20; 30 ;; 40,41 52)具有主流动抽头之间的第一次级抽头(7A; 20A; 30A; 40A; 52A)和 在流量限制装置(2; 10a,10b; 32a,32b; 50,51)的区域中的主要流出物抽头(7b; 20b; 30b; 40b; 52b)。 第一(4)和第二(6)流动传感器被布置在初级抽头之间,和所述至少一个第一次级抽头(7C; 20C; 30C; 41A)(与旁路装置7; 20; 30; 40,41 52)中,至少一个抽头中与每个流量传感器(4,6,27)最接近的抽头不同于每个其他流量传感器的最近抽头。
    • 8. 发明公开
    • FLOW SENSOR ASSEMBLY WITH INTEGRAL BYPASS CHANNEL
    • DURCHFLUSSSENSORANORDNUNG MIT INTEGRALEM UMGEHUNGSKANAL
    • EP3136062A1
    • 2017-03-01
    • EP16189717.8
    • 2012-01-31
    • Honeywell International Inc.
    • SPELDRICH, JamieRICKS, Lamar FloydBECKE, Craig ScottWEICHAO, Feng
    • G01F5/00G01F15/18G01F1/684
    • G01F1/68G01F1/6842G01F1/6845G01F5/00G01F15/185
    • Flow sensor assemblies (38) having increased flow range capabilities are disclosed. In one illustrative embodiment, a flow sensor assembly (38) includes a housing (40) with an inlet (88) flow port, an outlet flow port, a fluid channel (12) extending between the inlet flow port (88) and the outlet flow port (90), and a bypass channel (62) having a pair of taps (64) fluidly connected to the fluid channel (12) at separate locations. A flow sensor (10) for sensing a measure related to a flow rate of a fluid flowing through the fluid channel (12) can positioned in the bypass channel (62). A pressure differential between the two taps (64) of the bypass channel (62) can drive a fraction of a fluid flowing through the fluid channel (12) through the bypass channel (62). The flow sensor assembly (38) may be configured to achieve, control, and/or balance a desired fraction of fluid flow (14) through the bypass channel (62) and past the flow sensor (10).
    • 公开了具有增加的流量范围能力的流量传感器组件(38)。 在一个说明性实施例中,流量传感器组件(38)包括具有入口(88)流动端口,出口流动端口,在入口流动端口(88)和出口(88)之间延伸的流体通道 流动端口(90)和旁路通道(62),其具有在分开的位置处流体地连接到流体通道(12)的一对抽头(64)。 用于感测与流过流体通道(12)的流体的流量相关的测量的流量传感器(10)可以位于旁路通道(62)中。 旁路通道(62)的两个抽头(64)之间的压力差可以驱动通过旁通通道(62)流过流体通道(12)的流体的一部分。 流量传感器组件(38)可以被配置成实现,控制和/或平衡通过旁路通道(62)并经过流量传感器(10)的流体流(14)的期望分数。