| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | 수위감지구조 및 이를 이용한 수위감지방법 | KR1020130060864 | 2013-05-29 | KR102066417B1 | 2020-01-15 | |
| 122 | 유량 계측 시스템 | KR1020150059497 | 2015-04-28 | KR101690411B1 | 2017-01-09 | 이재혁; 최범준; 김필식 |
| 본발명의일 실시예에따른유량계측시스템은, 패널의기립또는팽창에의한고무보의기립에의해상류측의수위가조절되도록하는수위조절부; 상기수위조절부에장착되어상기패널의기립된정도또는상기고무보의기립된정도가산출되도록하는기립계측부; 상기상류측에위치하여상기상류측의수위를측정하는수위계측부; 및상기상류측의수위가상기수위조절부에의한수위조절의한계를초과하여월류현상이발생하는경우또는인위적인조작에의한상기수위조절부의도복에의해상기상류측의물을하류측으로방류시키는경우, 상기수위계측부에의해측정된상기상류측의수위와상기기립계측부에의해측정된상기패널의기립된정도또는상기고무보의기립된정도에기초하여상기월류현상에의한월류수또는상기방류에의한방류수의유량을산출하는제어부;를포함할수 있다. | ||||||
| 123 | 충진 레벨 측정 장치 및 그 방법 | KR1020127024368 | 2011-02-17 | KR1020120139746A | 2012-12-27 | 디지오벡,프랭크; 조아난닝,조아킴 |
| 용기 내 액체 공급 밸브를 이용한 액체-가스 혼합물의 충진 레벨을 제어하기 위한 측정 장치에 있어서, 튜브-형상의 수평 유압 장치들을 통하여 상기 용기의 내부 챔버와 유체-베어링 방식으로 연결되고 상기 용기의 외부 측벽에 설치되는 적어도 하나의 수직 유체 급수탑을 포함하되, 제1 하부 레벨 유압 장치는 상기 유체 급수탑 내에서의 충진 레벨이 상기 용기 내에서의 충진 레벨과 함께 변경되도록 상기 용기의 바닥에 근접하게 설치되고, 자유롭게 선택될 수 있는 상기 용기 내 충진 레벨에 대한 설정점이 초과될 때, 상기 유체 급수탑 내의 충진 레벨이 변경되도록 제2 유압 장치는 상기 용기 내 충진 레벨의 상기 설정점 상측에 제공되며, 상기 측정 장치는 디스플레이 및 상기 용기의 액체 공급 밸브와 제어가능하게 연결되는 제어 유닛을 장착하고, 상기 용기는 액체 및 가스를 위한 유입 및 유출 라인들을 포함하고, 상기 유체 급수탑은 상기 용기 내부로 수평으로 돌출되어, 상기 용기 내 상기 충진 레벨의 상기 설정점의 높이 또는 상기 설정점 아래에 설치되는 적어도 추가적인 튜브-형상의 제3 유압 장치를 구비하고, 그리고 상기 제1 하부 레벨 유압 장치는 제공된 다른 유압 장치들과 관련하여 역류를 조절하도록 설계된다. | ||||||
| 124 | NON-PRESSURIZED FLUID LEVEL SHUTOFF FOR FUEL TANK | PCT/US2014025056 | 2014-03-12 | WO2014151131A3 | 2014-11-20 | QUANG CHRISTOPHER |
| A non-pressurized fluid level shutoff system for a fuel tank includes a fuel receiver having a flow control valve that opens in a direction opposite a direction of fuel flow, and that cannot be manually overridden. A fuel sensor funnels fuel through a fuel jet outlet orifice to form a stream of fuel across a cutout section, and a supplemental peripheral port connected between an outlet orifice mixing chamber and the interior of the tank is oriented perpendicular to the stream of fuel across the cutout section, to interfere with the stream of fuel when the sensor is submerged in fuel in the tank, to further reduce any residual fluid flow signal when the sensor is fully submerged, allowing the flow control valve in the receiver to close completely. | ||||||
| 125 | FÜLLSTANDSREGELUNG | PCT/EP2011/000753 | 2011-02-17 | WO2011101139A2 | 2011-08-25 | DZIOBEK, Frank; JOHANNING, Joachim |
Messeinrichtung zur Regelung des Füllstandsniveaus eines Flüssigkeits-Gas-Gemisches über ein Flüssigkeitszulaufventil in einem Behälter, umfassend mindestens ein vertikales Flüssigkeitsstandrohr, das an der seitlichen Außenwand des Behälters angebracht ist und das über horizontale röhrenförmige hydraulische Vorrichtungen in Fluid-Ieitender Verbindung mit dem Innenraum des Behälters steht, wobei - eine erste untere hydraulische Vorrichtung, die in Boden-Nähe des Behälters angebracht ist, so dass sich das Füllstandsniveau in dem Flüssigkeitsstandrohr mit dem in dem Behälter ändert, und - eine zweite hydraulische Vorrichtung, oberhalb des Sollwerts des Füllstandsniveaus in dem Behälter vorgesehen ist, so dass sich das Füllstandsniveau in dem Flüssigkeitsstandrohr mit Überschreiten eines frei wählbaren Sollwerts des Füllstandsniveaus im Behälter ändert, und - die Messeinrichtung mit einer Anzeige- und Regeleinrichtung ausgestattet ist, die mit dem Flüssigkeitszulaufventil des Behälters in steuernder Verbindung steht, und - der Behälter Zu- und Ableitungen für Flüssigkeiten und Gase umfasst, - das Flüssigkeitsstandrohr mit mindestens einer weiteren dritten, horizontal in den Behälter ragenden röhrenförmigen hydraulischen Vorrichtung ausgestattet ist, die auf Höhe des Sollwerts oder unterhalb des Sollwerts des Füllstandsniveaus im Behälter angebracht ist, und - die erste untere hydraulische Vorrichtung in Bezug auf die weiteren vorgesehenen hydraulischen Vorrichtungen Rückflußströmungs-drosselnd ausgestaltet ist. |
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| 126 | VORRICHTUNG ZUR REGELUNG DES ZUFLUSSES EINER FLÜSSIGKEIT IN EINEN BEHÄLTER, INSBESONDERE ZUR ZUFLUSSREGELUNG EINER WASSERAUFBEREITUNGSANLAGE | PCT/DE2008/000478 | 2008-03-19 | WO2008128494A1 | 2008-10-30 | VÖLKER, Manfred |
Die Erfindung betrifft eine Vorrichtung zur Flussregelung einer Flüssigkeit und insbesondere eine Zuflussregelung einer Wasseraufbereitungsanlage, insbesondere einer Umkehrosmoseanlage. Die Zufuhr von Rohwasser erfolgt in ein Vorlaufgefäß, das auch der partiellen Rückführung von Konzentrat und überschüssig erzeugtem Permeat dient. Der Füllstand wird mit einem Schwimmer erfasst, der ein Steuerventil in der Weise betätigt, dass mit zunehmendem Füllstand der Steuerdruck bis auf den Rohwasser-Eingangsdruck ansteigt. Das von diesem Druck gesteuerte Hauptventil hat einen zu- und einen abführenden Strömungskanal, einander gegenüberstehend und durch eine Trennwand gegeneinander abgesperrt, mit beiderseits nach außen führenden Öffnungen. Der Übergangsbereich zwischen den Öffnungen der zu- und abführenden Seite ist durch eine elastische Hülle gegen den außenliegenden Steuerraum abgedeckt. Die elastische Hülle gibt den Durchfluss in dem Maße frei, wie der Steuerdruck unter den Rohwasser-Eingangsdruck absinkt. |
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| 127 | FLUIDIC LEVEL CONTROL SYSTEMS | PCT/GB1998/003801 | 1998-12-22 | WO99034269A1 | 1999-07-08 | |
| 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. | ||||||
| 128 | 자동 급수 및 수위 조절장치 | KR1020160071078 | 2016-06-08 | KR1020170138795A | 2017-12-18 | 엄영순 |
| 본발명은자동급수및 수위조절장치에관한것으로서, 저수조내부로물을공급하는급수관에구비되어저수조의수위에따라급수관을자동제어하는자동급수및 수위조절장치에있어서, 급수관의내부에회전가능하게설치되어급수관을개폐시키는개폐밸브; 급수관및 개폐밸브를관통하여설치되는한편개폐밸브에결합되어연동되는회전축; 급수관외측에서회전축에고정되게구비되어회전축과같이회전되는회전판; 회전판에고정되게구비되어회전판과같이회전되는지지대; 및지지대에구비되어수면위로부상되는볼탑;을포함하는자동급수및 수위조절장치를제공한다. | ||||||
| 129 | 열수 비산방지 구조체 | KR1020090031953 | 2009-04-13 | KR101031250B1 | 2011-04-29 | 곽상훈; 김용석; 김영건; 안병삼 |
| 본 발명은 선박용 보일러의 수위 게이지가 파손되었을 때 비산되는 열수로부터 작업자를 보호하는 열수 비산방지 구조체에 관한 것으로, 수위 게이지가 선박용 보일러의 측면에 설치되되, 수위 게이지 및 보일러의 측면 사이에는 보일러 내의 열수가 유입 또는 차단되도록 하는 복수의 밸브가 개재되며, 수위 게이지의 하단부에는 드레인 밸브가 설치되고, 복수의 밸브 및 드레인 밸브를 원거리에서 개폐하는 복수의 와이어가 포함되는 선박용 보일러의 열수 비산방지 구조체로서, 선박용 보일러의 측면 중 수위 게이지의 직하방의 측면에 일 측면이 부착되는, 상면이 개방된 용기 형상의 본체를 갖는 프로텍터를 포함하되, 본체의 저면의 모서리 중 선박용 보일러의 측면에 접하는 모서리에는 배수공이 형성되며, 수위 게이지의 파손 또는 복수의 밸브의 연결부위의 누설로 인해 누출되는 열수가 배수공을 통하여 보일러의 측면을 따라 유동되도록 하는 열수 비산방지 구조체를 제공함으로써, 열수 비산방지 구조체의 구조가 단순해지고 설치가 용이해진다. 선박용 보일러, 열수, 누출, 비산 | ||||||
| 130 | 열수 비산방지 구조체 | KR1020090031953 | 2009-04-13 | KR1020100113396A | 2010-10-21 | 곽상훈; 김용석; 김영건; 안병삼 |
| PURPOSE: A hot water scattering preventive structure is provided to prevent the flowing of hot water in breaking of gauge glass along the side part of a boiler. CONSTITUTION: A shaft supporting apparatus comprises a water level gauge(30), a plurality of valves, an outlet valve, a plurality of wires(40) and a protector(100). The water level gauge is installed on the side of a marine boiler(10). A plurality of valves is installed between the side of the boiler and the water level gauge to control the inflow or discharge of hot water. A plurality of wires opens and closes a plurality of valves at a remote. | ||||||
| 131 | 응축수 배출장치 | KR1020190065272 | 2019-06-03 | KR102236559B1 | 2021-04-05 | |
| 132 | 응축수 배출장치 | KR1020190065272 | 2019-06-03 | KR1020200138922A | 2020-12-11 | |
| 133 | 자동 급수 및 수위 조절장치 | KR1020160071078 | 2016-06-08 | KR101826813B1 | 2018-02-07 | 엄영순 |
| 본발명은자동급수및 수위조절장치에관한것으로서, 저수조내부로물을공급하는급수관에구비되어저수조의수위에따라급수관을자동제어하는자동급수및 수위조절장치에있어서, 급수관의내부에회전가능하게설치되어급수관을개폐시키는개폐밸브; 급수관및 개폐밸브를관통하여설치되는한편개폐밸브에결합되어연동되는회전축; 급수관외측에서회전축에고정되게구비되어회전축과같이회전되는회전판; 회전판에고정되게구비되어회전판과같이회전되는지지대; 및지지대에구비되어수면위로부상되는볼탑;을포함하는자동급수및 수위조절장치를제공한다. | ||||||
| 134 | 유량 계측 시스템 | KR1020150059497 | 2015-04-28 | KR1020160127947A | 2016-11-07 | 이재혁; 최범준; 김필식 |
| 본발명의일 실시예에따른유량계측시스템은, 패널의기립또는팽창에의한고무보의기립에의해상류측의수위가조절되도록하는수위조절부; 상기수위조절부에장착되어상기패널의기립된정도또는상기고무보의기립된정도가산출되도록하는기립계측부; 상기상류측에위치하여상기상류측의수위를측정하는수위계측부; 및상기상류측의수위가상기수위조절부에의한수위조절의한계를초과하여월류현상이발생하는경우또는인위적인조작에의한상기수위조절부의도복에의해상기상류측의물을하류측으로방류시키는경우, 상기수위계측부에의해측정된상기상류측의수위와상기기립계측부에의해측정된상기패널의기립된정도또는상기고무보의기립된정도에기초하여상기월류현상에의한월류수또는상기방류에의한방류수의유량을산출하는제어부;를포함할수 있다. | ||||||
| 135 | NON-PRESSURIZED FLUID LEVEL SHUTOFF FOR FUEL TANK | EP14730238.4 | 2014-03-12 | EP2969627A2 | 2016-01-20 | QUANG, Christopher |
| A non-pressurized fluid level shutoff system for a fuel tank includes a fuel receiver having a flow control valve that opens in a direction opposite a direction of fuel flow, and that cannot be manually overridden. A fuel sensor funnels fuel through a fuel jet outlet orifice to form a stream of fuel across a cutout section, and a supplemental peripheral port connected between an outlet orifice mixing chamber and the interior of the tank is oriented perpendicular to the stream of fuel across the cutout section, to interfere with the stream of fuel when the sensor is submerged in fuel in the tank, to further reduce any residual fluid flow signal when the sensor is fully submerged, allowing the flow control valve in the receiver to close completely. | ||||||
| 136 | Vacuum valve control device and vacuum valve | EP94108705.8 | 1994-06-07 | EP0628900B1 | 2000-03-01 | Yamabe, Yasuo; Ohtsuka, Tetsushi |
| 137 | LIQUID LEVEL CONTROL SYSTEM | EP89902399.8 | 1989-02-03 | EP0355153B1 | 1995-02-01 | FOREMAN, Brian, E. Cowells International Limited |
| A liquid level valve control system includes pressure responsive means comprising a first chamber containing a first diaphragm having a port for applying pressure; bleed means enabling air to pass this diaphragm; and passageway means enabling air then to pass into a further chamber also containing a diaphragm operatively linked to the valve operating apparatus; so that, when a predetermined and substantially constant pressure is applied at the port, air bleeds past the first diaphragm into the further chamber to move the diaphragm therein to activate the valve control system, but when a surge of pressure is applied at the port the first diaphragm moves to block the passageway into the further chamber, thus preventing pressure being applied to the latter's diaphragm to activate the valve control system. The invention also suggests a secondary valve of a kind, known per se, in which a "pinching" pressure across the valve's flexible body flexes one or more sealing members inside the body to close the valve, whilst the application of a force perpendicular to the body's surface flexes the or each sealing member to open the valve. | ||||||
| 138 | Vacuum valve control device and vacuum valve | EP94108705.8 | 1994-06-07 | EP0628900A2 | 1994-12-14 | Yamabe, Yasuo; Ohtsuka, Tetsushi |
A vacuum valve (15) includes: a pressure control chamber (83) for giving a vacuum force to a valve body (71) capable of connecting a valve operating chamber (25) with a vacuum passage; a detecting valve (68) capable of introducing a vacuum force into the pressure control chamber (83); a plunger (65) directly driven by a liquid detecting diaphragm (60), wherein the plunger (65) drives the detecting valve (68); and an opening time adjusting valve (74) which is opened so that the vacuum introduced into the pressure control chamber (83) can be released, wherein the opening time is automatically controlled by the vacuum in the vacuum discharge pipe (14). Furthermore, when the inside of a liquid level detecting pipe section (56) is quickly decompressed, pressure in a pressure adjusting chamber (102) is quickly released through a gap formed between a damping diaphragm (59) and supporting section (112). The pressure adjusting chamber (102) is communicated with an upper pressurizing chamber (81) through a communicating hole (103). Therefore, when the pressure adjusting chamber (102) is quickly decompressed, the upper pressurizing chamber (81) is also quickly decompressed. Due to the foregoing, resilient deformation of a liquid level detecting diaphragm (60) is quickly cancelled, and the pushing action conducted by a plunger (65) on a detecting valve (68) is released. |
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| 139 | Verfahren und Vorrichtung zum Steuern mindestens eines Gasstromes | EP87118536.9 | 1987-12-15 | EP0278092B1 | 1993-04-14 | Menge, Heinrich |
| 140 | Liquid level control in gas-liquid mixing operations | EP91104358.6 | 1991-03-20 | EP0454986A2 | 1991-11-06 | Litz, Lawrence Marvin; Weise, Mark Kurt; Haid, David Augustus |
A gas-liquid mixing vessel (2) utilizes an axial flow, down-pumping impeller (8) in a draft tube (1) to create vortex development so as to draw gas from the overhead in a body of recirculating liquid (3). A surge tank (13) is used to accommodate volume changes in the vessel (2), and a liquid level control feature, in which the gas phase pressures in the mixing vessel (2) and the surge tank (13) are adjusted, is used to maintain the liquid level (4) in the mixing vessel (2) at a desired level for proper vortex development. |
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