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1. 发明申请

WO2012175565A9 CONDENSATE DISCHARGE DEVICE FOR COMPRESSED GAS SYSTEMS 审中-公开
标题翻译：压缩循环系统的冷凝排放
公开(公告)号：WO2012175565A9
公开(公告)日：2014-03-06
申请号：PCT/EP2012061858
申请日：2012-06-20
申请人： BEKO TECHNOLOGIES GMBH , SCHLENSKER HERBERT , SINSTEDTEN JOHANNES
发明人： SCHLENSKER HERBERT , SINSTEDTEN JOHANNES
IPC分类号： F16T1/14
CPC分类号： F16K51/00 , F16T1/00 , F16T1/14 , F16T1/38 , G05D9/12 , Y10T137/3052 , Y10T137/3077 , Y10T137/3105 , Y10T137/5907 , Y10T137/7306
摘要： The invention relates to a condensate discharge device for compressed gas systems, comprising a housing (21), which has a condensate collecting chamber (22) that can be connected to the compressed gas system by means of a condensate feed (23) and which has a condensate drain (24) that can be closed by means of valve assembly (25), and comprising a tubular body (32) protruding into the condensate collecting chamber (22) for accommodating at least one electronic filling level measuring device (31), by means of which the condensate filling level in the condensate collecting chamber (22) can be detected, wherein the housing (21) can be mounted in a first, vertical mounting position and a second, horizontal mounting position and the longitudinal axis of the tubular body (32) extends at an angle to the condensate feed direction (34).
摘要翻译：本发明涉及一种蒸汽疏水阀为压缩气体系统，包括：壳体（21），其包括经由冷凝物入口（23）连接到所述高压的气体系统冷凝液收集室（22）和阀装置的装置（25）可封闭的冷凝液排（24），其中一个在所述冷凝液收集室（22），用于接收至少一个电子电平表（31），借助该冷凝物中的冷凝物水平收集室（22）突出的管状体（32）是可检测的，其中，在第一垂直安装位置和第二壳体（21），水平安装位置安装与管状体（32）的纵向轴线倾斜于Kondensatzulaufrichtung（34）。

2. 发明申请

WO99034269A1 FLUIDIC LEVEL CONTROL SYSTEMS 审中-公开
标题翻译：流体液位控制系统
公开(公告)号：WO99034269A1
公开(公告)日：1999-07-08
申请号：PCT/GB1998/003801
申请日：1998-12-22
IPC分类号： B01D19/00 , E21B43/34 , F15C1/16 , G05D9/04 , G05D9/02 , G05D7/01
CPC分类号： F15C1/16 , B01D19/0063 , E21B43/34 , G05D9/04 , Y10T137/2098 , Y10T137/2104 , Y10T137/2109 , Y10T137/2115 , Y10T137/3052
摘要： A system for separating a liquid and a gas comprises a separation vessel (30) with an inlet (28) for the gas/liquid mixture. Outlets (40, 42) for the fluids are disposed at different heights in the vessel. The outlets are controlled by turn-up vortex amplifiers (fluidic valves - TuVAs) comprising a supply port (40, 42), a control port (36, 38) and an outlet port (48, 50). The control port is supplied from the vessel at a level intermediate the outlets, so that a change in level of the interface between the gas and liquid about said intermediate level results in a change of flow in said control port, thereby altering resistance to flow through the valve.
摘要翻译：用于分离液体和气体的系统包括具有用于气体/液体混合物的入口（28）的分离容器（30）。用于流体的出口（40,42）设置在容器中不同的高度处。出口由包括供应口（40,42），控制端口（36,38）和出口端口（48,50））的翻转涡流放大器（流体阀-TVV）控制。控制端口从容器中的出口处中间供应，使得围绕所述中间水平的气体和液体之间的界面水平的变化导致所述控制端口中的流动的变化，从而改变流过的阻力阀门。

3. 发明申请

WO01034940A2 METHOD AND SYSTEM FOR SUPPRESSING AND CONTROLLING SLUG FLOW IN A MULTI-PHASE FLUID STREAM 审中-公开
标题翻译：用于在多相流体流中抑制和控制SLUG流的方法和系统
公开(公告)号：WO01034940A2
公开(公告)日：2001-05-17
申请号：PCT/EP2000/011034
申请日：2000-11-07
IPC分类号： B01D19/00 , E21B43/01 , E21B43/34 , E21B43/36 , F17D1/00
CPC分类号： B01D19/0063 , E21B43/01 , E21B43/34 , E21B43/36 , F17D1/005 , Y10T137/0324 , Y10T137/3052
摘要： A method and system for suppressing and controlling liquid slugs and gas surges in a multiphase fluid flow line make use of a gas liquid separator (9) and a gas valve (16) in the gas outlet (14) and a liquid valve (15) in the liquid outlet (13) of said separators, which valves (15, 16) are adjusted automatically in response to variations of one of more selected control variables, such as QGAS, QLiquid, QLiquid+Qgas, Lliquid, P, and the control variable is changed automatically from time to time if one or more selected control variables reaches a pre-set threshold value.
摘要翻译：用于抑制和控制多相流体流动管线中的液体块塞和气体浪涌的方法和系统利用气体出口（14）中的气液分离器（9）和气阀（16）和液体阀（15）在所述分离器的液体出口（13）中，响应于诸如QGAS，Q液体，Q液体+ Q气体，液体，P和控制的多个选择的控制变量之一的变化，哪个阀（15,16）被自动调节如果一个或多个选定的控制变量达到预设的阈值，则变量会不时自动更改。

4. 发明申请

WO98045641A1 DEVICE AND METHOD FOR REMOVING CONDENSATE FROM GAS PRESSURE SYSTEMS 审中-公开
标题翻译： DEVICE AND METHOD FOR排放冷凝的高压气体系统
公开(公告)号：WO98045641A1
公开(公告)日：1998-10-15
申请号：PCT/DE1998/000020
申请日：1998-01-07
IPC分类号： F16T1/00 , G05D9/12
CPC分类号： F16T1/00 , G05D9/12 , Y10T137/3052 , Y10T137/7306
摘要： The present invention relates to a device for removing condensate from gas pressure systems (22), especially dry-pipe systems having a condensate collector (24) in which condensate accumulates when the gas pressure system (22) is in operation, said collector being provided with an outlet (26, 34). The collector also has a gauge containing a tubular body (32) which is sized in relation to its outlet and designed to be secured thereto (26, 34) and which, when mounted, is located inside the collector (24) and comprises an electronic sensor (36), preferably a capacitive one, a) which is supported by the tubular body (32) and b) of which at least one element (preamplifier (62)) is located therein (32) and borne thereby (32), and is intended as a control for an external valve system (30).
摘要翻译：本发明涉及一种用于从加压气体系统（22），尤其是气动系统排放冷凝物，包括用于冷凝物的收集空间（24），其中，（22）的加压气体系统的操作过程中收集冷凝物和至少一个出口（26， 34）。此外，它具有的尺寸对应于所述出口的料位计，其包括管状主体（32），紧固定在所述出口（26，34）是收集空间（24）和电子内预先对准并在安装状态下，优选电容式传感器（36）中，（a）或者从管状体32）被支持，以及b）（与电子56，52），它们是该收集空间（24的任一外）或至少一部分的（是在管内的前置放大器62）和由所述主体（32）和承载（用于控制被提供的外部阀装置30）。

5. 发明申请

WO01059355A1 AUTO-DRAIN UNIT 审中-公开
标题翻译：自动排水单元
公开(公告)号：WO01059355A1
公开(公告)日：2001-08-16
申请号：PCT/GB2001/000521
申请日：2001-02-09
IPC分类号： F16T1/14
CPC分类号： F16T1/14 , Y10T137/3052 , Y10T137/3056
摘要： An auto-drain unit for a compressed gas supply system, comprising: a first, main chamber (24) including a liquid collection reservoir (27); a second, reference chamber (25); a discharge valve (35) actuatable to discharge collected liquid from the liquid collection reservoir (27); a trigger mechanism (37) for actuating the discharge valve (35); a diaphragm (23) at least in part defining the liquid collection reservoir (27) and the reference chamber (25), the diaphragm (23) being configured to be movable under the weight of liquid collected in the liquid collection reservoir (27) and operate trigger mechanism (37) when the weight of collected liquid exceeds a predetermined threshold; and a fluid conduit (41) fluidly connecting the reference chamber (25) to a location in the main chamber (24) above the maximum possible liquid level therein.
摘要翻译：一种用于压缩气体供应系统的自动排水单元，包括：包括液体收集容器（27）的第一主室（24）; 第二参考室（25）; 排出阀（35），其可致动以从所述液体收集容器（27）排出收集的液体; 用于致动排放阀（35）的触发机构（37）; 至少部分地限定所述液体收集容器（27）和所述参考室（25）的隔膜（23），所述隔膜（23）构造成可在液体收集容器（27）内收集的液体的重量下移动;以及当所收集的液体的重量超过预定阈值时，操作触发机构（37）; 以及将参考室（25）流体连接到主室（24）中高于其中最大可能液位的位置的流体导管（41）。

6. 发明申请

WO01044712A1 METHOD FOR DRAINING A CONDENSATE AND A CONDENSATE DRAIN 审中-公开
标题翻译：转移漏极和漏极方法
公开(公告)号：WO01044712A1
公开(公告)日：2001-06-21
申请号：PCT/DE2000/004435
申请日：2000-12-13
IPC分类号： F04B39/16 , F04B49/06 , F16T1/00
CPC分类号： F16T1/00 , Y10T137/0324 , Y10T137/3024 , Y10T137/3052
摘要： The invention relates to a method for draining a condensate from a collection chamber (6.1) which is connected to a separator (4.1) via a drain line (5.1). The collection chamber (6.1) is subjected to a gas pressure p(collection chamber) which can be below or above atmospheric pressure p(air). The method comprises the following steps: a) collection of condensate in the collection chamber (6.1) b) detection of the fill level using a fill level meter (21) c) provision of a control pressure p(control) which lies above the pressure p(collection chamber) and atmospheric pressure p(air) in all operational states of the compressed gas system c) controlled supply of a pressure p(inlet) to a control line inlet (241) of an outlet valve (24) which is allocated to the collection chamber (6.1). Said valve is designed to drain accumulated condensate from the collection chamber (6.1).
摘要翻译：本发明涉及从一个收集室（6.1），这是通过与分离器（4.1）的排出管线（5.1），连接排放冷凝物的方法。所述收集腔室（6.1）是由气体压力P（收集室）采取行动，在大气压（空气）或高于大气压力P（空气）的p可以是。该方法包括以下步骤：在贮液器（6.1）a）收集冷凝物，b）通过一个液位计（21）来检测的填充水平，c）提供控制压力p（对照），在压缩气体系统中的压力P的上方的所有操作条件下（Sammelraumund高于大气压力p（空气）的位置，c）中，在与排气阀（24），其目的是相关联的收集室（6.1）的控制信号线输入（241）可控制地提供一压力p（输入），在收集腔室（6.1）积聚的冷凝物派生。

7. 发明申请

WO1997028400A1 METHOD AND DEVICE FOR DRAWING CONDENSATE OFF FROM COMPRESSED-GAS SYSTEMS 审中-公开
标题翻译：方法和装置排出的冷凝压力气体系统
公开(公告)号：WO1997028400A1
公开(公告)日：1997-08-07
申请号：PCT/DE1996002118
申请日：1996-11-07
申请人： KOCH, Berthold
IPC分类号： F16T01/00
CPC分类号： F16T1/00 , G05D9/12 , Y10T137/3052 , Y10T137/3105
摘要： The invention concerns a method of drawing condensate off from compressed-gas, e.g. compressed-air, systems, the method calling for: 1) a trap (20) in which condensate collects during operation of the system, the trap (20) having an outlet (22) through which the condensate which collects can be drawn off; 2) a purging device (24) which is connected to the outlet (22) and which has (a) a sensor intended to detect the presence of condensate in the purging device, (b) control electronics (28) connected to the sensor (26) and including a timer circuit (30) and (c) a valve controlled by the control electronics (28) and which, influenced by the sensor (26), either shuts the purging device (24) so that no condensate can escape through it or opens it each time the condensate level rises and the sensor (26) switches over from indicating "no condensate" to indicating "condensate present", thus starting the timer circuit (30). On expiry of the time defined by the circuit, the valve is opened until the sensor (26) indicates "no condensate" again, when the valve closes the purging device (24) again.
摘要翻译：本发明描述了用于从加压气体系统，例如排放冷凝物的方法压缩空气系统，其中，1）一个收集室（20）被设置用于冷凝物，其中可在压缩气体系统的操作过程中积聚的冷凝物，该收集室（20）的出口（22），可采取在积聚的冷凝物和2）与所述出口（22）的放电装置（24）被连接到）的传感器（26），是在其冷凝的befindliches检测的，b）包括一个（所连接的传感器26）控制电子装置（28），以属于时间延迟电路（30），和c）（这些控制电子器件的28）控制的阀装置，其由传感器（26）的影响，无论是排水装置（24）关闭，从而没有冷凝物可以通过它或释放它逸出，每当冷凝物水平上升，从“无凝”的状态开始，所述传感器（26）是现在的“凝本”的状态下，指示开始的时间延迟电路（30）和一个后当再次的时间，直到在所述传感器（26）该规定期间内的有“不冷凝物”可检测的状态和阀装置，所述放电装置（24）再次关闭阀装置被打开。

8. 发明申请

WO2013034673A3 IMPROVED METHOD FOR THE AUTOMATED DISCHARGE OF CONDENSATE FROM A PRESSURIZED GAS SYSTEM 审中-公开
标题翻译：对于自动排放冷凝水的改进方法从气体压力系统
公开(公告)号：WO2013034673A3
公开(公告)日：2014-04-24
申请号：PCT/EP2012067487
申请日：2012-09-07
申请人： BEKO TECHNOLOGIES GMBH , FELTGEN MARTIN
发明人： FELTGEN MARTIN
IPC分类号： F16T1/48 , F04B39/16
CPC分类号： F16T1/38 , F04B39/16 , F16T1/48 , Y10T137/0318 , Y10T137/3052
摘要： The invention relates to a method for the automated discharge of condensate from a pressurized gas system by means of a condensate drainage means, wherein the condensate drainage means has a collecting region for the condensate, a sensor for detecting condensate in the collecting region, and an actuable drainage valve for the discharge of the condensate from the collecting region, wherein the method has, in chronological, repeating sequence: a collecting step (S1, S2, S3, S4) in which condensate is collected over a predefined collecting duration; a detection step (D1, D2, D3, D4) which at least terminates the collecting step (S1, S2, S3, S4) and which serves for the detection of condensate in the collecting region by means of the sensor; a discharge step (A1, A2, A4) in which, over a predefined discharge duration, condensate is discharged if condensate is detected in the collecting region in the detection step; characterized in that, in the event of condensate being detected for the first time or at the latest repeatedly in the detection step (D1, D2, D3, D4), the collecting duration of at least one of the subsequent collecting steps, preferably of the next collecting step, is shortened and/or the discharge duration of at least one of the following discharge steps, preferably of the next discharge step, is lengthened in terms of time and/or a degree of opening of the drainage valve in at least one of the following discharge steps, preferably of the next discharge step, is increased, and in that, in the event of no condensate being detected in the collecting region for the first time or repeatedly, the collecting duration of at least one of the following collecting steps, preferably of the next collecting step, is lengthened and/or the discharge duration of at least one of the following discharge steps, preferably of the next discharge step, is shortened in terms of time and/or a degree of opening of the drainage valve in at least one of the following discharge steps, preferably of the next discharge step, is decreased.
摘要翻译：本发明涉及一种方法，用于通过一个凝汽阀的手段从加压气体系统自动地排出冷凝水，具有用于冷凝水收集区域，用于在收集区域中的检测冷凝物的传感器，和用于从所述收集区域排出冷凝液的可控排出阀的凝汽阀，其特征在于，所述在定时，重复序列的方法，包括：收集步骤（S1，S2，S3，S4），被收集在冷凝物收集预定的持续时间; 一个收集步骤（S1，S2，S3，S4）至少一种用于检测所述收集区域中的传感器的冷凝物的装置的最终检测步骤（D1，D2，D3，D4）; 排出步骤（A1，A2，A4），其中排出超过预定的持续时间漏极冷凝，冷凝物在检测步骤中检测的收集区域设置; 其特征在于，在所述事件在所述第一时间或反复最迟在所述检测步骤中检测到（D1，D2，D3，D4）的冷凝物，下一收集步骤的下面收集步骤的至少一个的收集周期，缩短和/或排气期间优选至少一种下面漏极步骤，优选地，下一个漏极步骤的，延伸在时间和/或一定程度的排水阀的下面漏极步骤中的至少一个，优选的下一个漏极步骤的，增加，并且开口的，在其中在收集区中检测到用于在所述第一时间或反复没有冷凝物的情况下有下列收集步骤中的至少一个，优选的下一个采集步骤，扩展和/或以下漏极步骤中的至少一个，的排气持续时间的优选的下一个漏极步骤的时间缩短和/或一定程度的排水阀的打开的收集时段下列步骤中的至少一个漏极，优选的下一个排水行程的被降低。

9. 发明申请

WO2012175565A3 CONDENSATE DISCHARGE DEVICE FOR COMPRESSED GAS SYSTEMS 审中-公开
标题翻译：陷阱气体压力系统
公开(公告)号：WO2012175565A3
公开(公告)日：2014-04-24
申请号：PCT/EP2012061858
申请日：2012-06-20
申请人： BEKO TECHNOLOGIES GMBH , SCHLENSKER HERBERT , SINSTEDTEN JOHANNES
发明人： SCHLENSKER HERBERT , SINSTEDTEN JOHANNES
IPC分类号： F16T1/38 , F16T1/00 , F16T1/14
CPC分类号： F16K51/00 , F16T1/00 , F16T1/14 , F16T1/38 , G05D9/12 , Y10T137/3052 , Y10T137/3077 , Y10T137/3105 , Y10T137/5907 , Y10T137/7306
摘要： The invention relates to a condensate discharge device for compressed gas systems, comprising a housing (21), which has a condensate collecting chamber (22) that can be connected to the compressed gas system by means of a condensate feed (23) and which has a condensate drain (24) that can be closed by means of valve assembly (25), and comprising a tubular body (32) protruding into the condensate collecting chamber (22) for accommodating at least one electronic filling level measuring device (31), by means of which the condensate filling level in the condensate collecting chamber (22) can be detected, wherein the housing (21) can be mounted in a first, vertical mounting position and a second, horizontal mounting position and the longitudinal axis of the tubular body (32) extends at an angle to the condensate feed direction (34).
摘要翻译：本发明涉及一种蒸汽疏水阀为压缩气体系统，包括：壳体（21），其包括经由冷凝物入口（23）连接到所述高压的气体系统冷凝液收集室（22）和阀装置的装置（25）可封闭的冷凝液排（24），其中一个在所述冷凝液收集室（22），用于接收至少一个电子电平表（31），借助该冷凝物中的冷凝物水平收集室（22）突出的管状体（32）是可检测的，其中，在第一垂直安装位置和第二壳体（21），水平安装位置安装和管状体（32）倾斜于冷凝液进给方向（34）的纵向轴线。

10. 发明申请

WO2008108967A3 STEAM TRAP 审中-公开
标题翻译：蒸汽跟踪
公开(公告)号：WO2008108967A3
公开(公告)日：2013-08-08
申请号：PCT/US2008002638
申请日：2008-02-28
申请人： GOODING HAROLD S IV
发明人： GOODING HAROLD S IV
IPC分类号： B01D19/00 , F16K24/04 , F16T1/02 , F16T1/08 , F16T1/45
CPC分类号： F16T1/02 , B01D53/265 , F16T1/08 , F16T1/45 , Y10T137/3043 , Y10T137/3052 , Y10T137/7313 , Y10T137/8593 , Y10T137/86445
摘要： A steam trap system including a steam trap (67) having a steam inlet (26) and a water collector that can collect water. An orifice arrangement is included having a plurality of valved orifices (46a) spaced apart from each other at different heights. Selected valved orifices can be configured to open as water in the water collector rises and reaches the height of the selected valved orifices, allowing the water to be removed from the water collector.
摘要翻译：一种蒸汽疏水阀系统，包括具有蒸汽入口（26）的蒸汽疏水阀（67）和可收集水的集水器。包括具有在不同高度处彼此间隔开的多个阀门口（46a）的孔口装置。选择的阀门可以配置为打开，因为集水器中的水会上升并达到所选阀门的高度，允许水从集水器移除。

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