| 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 | Rotorcraft actuator seal leakage monitor | EP14175970.4 | 2014-07-07 | EP2933623A1 | 2015-10-21 | Laramee, Robert Michael; Fenny, Carlos |
A rotorcraft actuator monitoring system (302) to monitor leakage past dynamic rotorcraft actuator seals (308) of a rotorcraft actuator (300) includes a body member (312) and a fluid level indication housing (316) attached to the body member. The body member is mounted to surround a dynamic rotorcraft actuator seal (308) that seals fluid in a rotorcraft actuator, where the body member captures fluid that leaks past the dynamic rotorcraft actuator seal (308). The fluid level indication housing (316) collects the fluid captured by the body member (312) and indicates that a predetermined volume of fluid that leaked past the dynamic rotorcraft actuator seal (308) has been collected.
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| 122 | ELECTROMAGNETIC PUSHING AND KNOCKING TYPE OBJECT DETECTOR | EP12755182 | 2012-03-07 | EP2685225A4 | 2015-09-09 | CHEN YIHUA |
| A level sensor, particularly an electromagnetic pushing and knocking-type object detector, comprising: a magnetic swinging rod, an electromagnet that is disposed on one side of the magnetic swinging rod, and an electronic module that controls the electromagnet in driving the magnetic swinging rod to swing, and amplifies, processes, and time-delay outputs the swinging signals of the magnetic swinging rod, which swinging signals are collected by the electromagnet, said magnetic swinging rod is suspended with a suspension device on one side of a main housing, and the electromagnet, which is composed of an electromagnet iron core and an electromagnet coil, is disposed inside the main housing. The electric module comprises a power supply circuit, a pulse generation circuit, a pulse driving circuit, a signal amplification circuit, a signal processing circuit, and a signal time delay output circuit, and the aforementioned circuits are all disposed in the main housing or are isolated from the main housing and enclosed separately. The present invention has the advantages of high sensitivity, accuracy, and reliability; has a wide range of applications; is maintenance-free; and features a long service life. | ||||||
| 123 | METHOD AND APPARATUS FOR A BEVERAGE PRODUCT DISPLACEMENT SENSING DEVICE | EP05854843.9 | 2005-12-21 | EP1848980B1 | 2015-02-11 | CHADWELL, Thomas, J.; ROMANYSZYN, Michael, T.; VIRA, John |
| 124 | VORRICHTUNG ZUR ÜBERWACHUNG EINES VORBESTIMMTEN FÜLLSTANDS | EP13706956.3 | 2013-02-22 | EP2831553A1 | 2015-02-04 | LOPATIN, Sergej; D'ANGELICO, Sascha; MÜLLER, Alexander; DREYER, Volker |
| A device (1) for monitoring a predetermined filling level of a medium (3) in a container (2), with a unit (11) capable of mechanical oscillation, with a drive/receiving unit (13) for exciting the mechanically oscillating unit (11) to effect mechanical oscillations and for receiving the oscillations of the mechanically oscillating unit (11), and with an electronic unit (14) for generating an electrical excitation signal and for evaluating an electrical reception signal. The invention is characterised in that the electronic unit (14) is designed to excite the mechanically oscillating unit (11) to oscillate mechanically by means of the drive/receiving unit (13) within a fixedly preset narrow frequency band with discrete successive excitation frequencies, wherein the frequency band contains the resonance frequency of the mechanically oscillating unit (11) during oscillation under standard conditions, and in that the electronic unit (14) is designed to detect whether, within the preset frequency band, there is an oscillation of the mechanically oscillating unit (11), the amplitude of which exceeds a predetermined threshold value. | ||||||
| 125 | SYSTEM AND METHOD FOR REFILLING CONSUMER PACKAGING | EP09835862 | 2009-12-23 | EP2382450A4 | 2015-01-07 | LEVENSTEIN LAWRENCE M; WILLIAMS ERIC A; THIBODEAU ROBERT D |
| A system and method for refilling packaging for consumer products of viscous fluids, gels, foams, soaps, creams, and the like, comprising a refillable reusable container for dispensing said consumer product under pressure, and a refilling unit in a fluid transfer station for transferring consumer product and/or energy and/or to or from the refillable, reusable container. The refilling unit is exchanged when depleted with a fresh refilling unit from a distribution facility or directly from a manufacturing facility. Consumers can refill their reusable packaging at said fluid transfer station, eliminating the need for purchasing product in a new package to prevent undue waste and save the costs of additional packaging. | ||||||
| 126 | Liquid cartridge and liquid supplying device | EP13161050.3 | 2011-03-17 | EP2610062A1 | 2013-07-03 | Kubo, Tomoyuki; Sugahara, Hiroto; Takata, Masayuki |
A liquid cartridge (5) detachably loadable in a cartridge loading section (10) of a liquid supplying device (8) is provided. The liquid cartridge (5) includes: a main body (30) defining therewithin a liquid accommodation chamber (33) storing liquid therein, the liquid accommodation chamber (33) having a light-transmission portion (34) transmitting light therethrough; a moving member (40) disposed within the liquid accommodation chamber (33) and configured to move in accordance with an amount of the liquid; a light outlet (53) configured to move in conjunction with the movement of the moving member (40); and a light guiding portion (41) configured to guide incident light toward the light outlet (53), the light outlet (53) irradiating light coming from the light guiding portion (41) outside of the main body (30) via the light-transmission portion (34).
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| 127 | Liquid cartridge and liquid supplying device | EP11158710.1 | 2011-03-17 | EP2368712A3 | 2012-10-10 | Kubo, Tomoyuki; Sugahara, Hiroto; Takata, Masayuki |
A liquid cartridge detachably loadable in a cartridge loading section of a liquid supplying device is provided. The liquid cartridge includes: a main body defining therewithin a liquid accommodation chamber storing liquid therein, the liquid accommodation chamber having a light-transmission portion transmitting light therethrough; a moving member disposed within the liquid accommodation chamber and configured to move in accordance with an amount of the liquid; a light outlet configured to move in conjunction with the movement of the moving member; and a light guiding portion configured to guide incident light toward the light outlet, the light outlet irradiating light coming from the light guiding portion outside of the main body via the light-transmission portion.
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| 128 | Vorrichtung zur Bestimmung und/oder Überwachung des Füllstands eines Schüttguts in einem Behälter | EP10170222.3 | 2010-07-21 | EP2284502B1 | 2012-04-04 | Heim, Angelika; Konrad, Michael; Wolf, Georg |
| 129 | VERFAHREN ZUM DISKONTINUIERLICHEN ENTLEEREN EINES BEHÄLTERS | EP10710209.7 | 2010-03-12 | EP2411772A1 | 2012-02-01 | MAZZOTTA, Cosimo |
| The invention relates to a method for discontinuously emptying a container (4) in which liquid collects. The container (4) is emptied by an emptying means (valve 5). During this process, the container (4) must never be completely emptied and must never overflow. The container (4) contains a sensor (7) that detects a first state wherein there is liquid in a pre-determined area, and a second state wherein there is no liquid in the pre-determined area. According to the invention, the emptying means (valve 5) is actuated as soon as the sensor (7) detects the first state, and the emptying means (valve 5) is stopped as soon as the sensor (7) detects the second state. | ||||||
| 130 | Vorrichtung zur Bestimmung und/oder Überwachung des Füllstands eines Schüttguts in einem Behälter | EP10170222.3 | 2010-07-21 | EP2284502A1 | 2011-02-16 | Heim, Angelika; Konrad, Michael; Wolf, Georg |
Die Erfindung betrifft eine Vorrichtung zur Bestimmung und/oder Überwachung eines Füllstands eines Mediums (5) in einem Behälter (4) mit einem Messflügel (2), welcher eine Drehbewegung im Behälter (4) ausführt, einem Motor zum Antrieb des Messflügels (2), und einer Welle (3), über welche der Messflügel (2) mit dem Motor verbunden ist. Die Erfindung beinhaltet, dass der Messflügel (2) derart ausgestaltet ist, dass er zum Einbringen in den Behälter (4) aufrollbar ist, dass der Messflügel (2) derart ausgestaltet ist, dass er sich im Inneren (41) des Behälters (4) auffaltet, und dass die Richtung der Drehbewegung derart an den Aufbau des Messflügels (2) angepasst ist, dass der Messflügel (2) im Inneren (41) des Behälters (4) im aufgefalteten Zustand verbleibt.
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| 131 | BATTERY ELECTROLYTE LEVEL CONTROL SYSTEM | EP06771645.6 | 2006-05-30 | EP1889310B1 | 2010-08-04 | HAYASHIGAWA, Larry |
| An electrolyte level control system for adding a quantity of water to raise the electrolyte level in a forklift battery having a hydro-mechanical cutoff valve. The system includes a reservoir, a reservoir-level sensor, a transmitter, a distribution system, a battery-charge sensor, a solenoid valve, a battery electrolyte level sensor, and a battery-electrolyte control system that controls the position of the solenoid valve in light of the detection of a battery state of charge from the battery charge sensor, and the detection of the battery electrolyte level from the battery electrolyte level sensor. The system provides for watering the battery when the state of charge is full and the electrolyte level is not full. | ||||||
| 132 | REACTION CONTAINER | EP07741504.0 | 2007-04-12 | EP2012107A1 | 2009-01-07 | TAKEUCHI, Tomohiko |
A reaction tank which allows suitable control of humidity inside a storage vessel is provided. The reaction tank includes a humidifying unit 2 which includes a water reservoir 21 reserving water, and a humidifier 22 releasing moisture of the water reservoir 21 to an inside of the storage vessel 1, and humidifies the inside of the storage vessel 1. The reaction tank further includes a humidity detector 3 which detects humidity inside the storage vessel 1. The operation of the humidifier 22 is turned ON and OFF when the humidity inside the storage vessel 1 deviates from a predetermined suitable humidity. As a result, the humidity inside the storage vessel 1 is controlled suitably to be maintained at a predetermined level. |
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| 133 | URINE DIVERTER WITH END OF LIFE CYCLE INDICATOR | EP06844742.4 | 2006-12-04 | EP1954896A2 | 2008-08-13 | HELBIG, Thomas; HIGGINS, Michael L.; BROWN, Erik |
| An indicator that the cartridge is draining slowly is placed on top of the cartridge. When slow draining causes urine to pool on top of the cartridge, liquid enters a float housing, causing an indicator to change color. The indicator is visible through a lens in a diverter. The indicator may be a disk that undergoes a chemical reaction to change color or a float that flips over to reveal a side having a different color. When the cartridge is operating properly, the float displays a first color. Flipping of the float reveals a second color to the observer. A color change indicates that the cartridge needs to be replaced. | ||||||
| 134 | HIGH/LOW LEVEL ALARM CONTROLLER | EP04752471 | 2004-05-17 | EP1629256A4 | 2007-08-01 | SABATINO DANIEL |
| A high/low level alarm controller having ability to interface with level sensing equipment and instrumentation in a manner that isolates the controller from downstream components is presented. The controller accepts power, logic and transduced level inputs; output from the controller is available to drive relays, solenoid valves, motors, pumps, alarm horns, etc. The high/low level alarm controller is ideal for existing/retrofit applications and new installations alike. | ||||||
| 135 | METHOD AND DEVICE FOR CALCULATING CRUISING RANGE | EP98921891 | 1998-05-29 | EP1001155A4 | 2006-02-22 | SADAHIRO TAKASHI; SHIMIZU MASAHIRO; NOUNEN MICHIYASU; ARAKI MIKIO |
| A method of calculating a cruising range, comprising the steps of: subtracting the amount (J) of fuel injected into an engine (14) from the amount (F) of accumulated fuel metered with a fuel meter (12) to calculate the amount (Z) of remaining fuel; dividing the distance (M) traveled by the car by the amount (J) to calculate a mileage (Fm); and multiplying the amount (Z) by the mileage (Fm) to calculate a cruising range (K). | ||||||
| 136 | APPARATUS FOR SENSING THE FLUID LEVEL IN AN INK AND WATER MIXING DEVICE | EP00992893.8 | 2000-12-08 | EP1237724A2 | 2002-09-11 | WANG, Xin, Xin; NIEMIRO, Thaddeus, A.; VUCKO, Joseph; HENZEL, James, K. |
| A sensor for detecting the level of circulating fluid in a tank comprises a paddle blade disposed at a particular height and oriented generally radially from a rotating shaft in the tank. A sensiing device, such as a strain gauge, is attached to the paddle blade (30) to detect when the paddle blade is in at least one of a normal and a displaced position, thereby indicating that fluid is absent or present at a particular level. Additional sensors may be used in the same tank to provide fluid level feedback at more than one height. | ||||||
| 137 | Structure for installing a fuel level sensor in a fuel tank for automobiles | EP01105615.7 | 2001-03-06 | EP1180666A1 | 2002-02-20 | Jang, Doo-Yeek |
Structure for installing a fuel level sensor in a fuel tank for automobiles, which can be applied as a common use regardless of the shape of the fuel tank and the model of a car and can prevent malfunctions of a warning light of the fuel level sensor caused by abrupt braking, abrupt accelerating, and cornering is disclosed. The structure is comprising: a post fixed upright on a drain plug of a fuel tank by a screw fit; a fuel level sensor that is installed on the end portion of the post. |
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| 138 | Seilsonde | EP97101766.0 | 1997-02-05 | EP0857954A1 | 1998-08-12 | Schmidt, Robert; Hässler, Jürgen |
Es ist eine Seilsonde vorgesehen, die ohne Spezialwerkzeuge zu montieren ist, bei der die Befestigung des Seils (3) durch auf das Seil (3) einwirkende Zugkräfte erfolgt und bei der das Seil (3) auf eine den Anforderungen entsprechende Länge vom Kunden kürzbar ist. Sie weist eine Seilbefestigung auf, die ein Element (4) mit einer axialen, konischen, sich in gehäuse-abgewandter Richtung verjüngenden Innenbohrung (41) aufweist. In dem Element (4) ist ein sich in gehäuse-abgewandter Richtung verjüngender Konus (5) angeordnet, der das Seil (3) eng umschließt und nur durch eine äußere Kraft auf diesem verschiebbar ist, der eine axiale zylindrischen Bohrung (51) aufweist, durch die das Seil (3) hindurch geführt ist und der in Konuslängsrichtung verlaufende, die Wand des Konus (5) durchdringende Ausnehmungen (52) aufweist, durch die der Konus (5) in radialer Richtung derart kompressibel ist, daß der Innendurchmesser des Konus (5) reduzierbar ist. |
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| 139 | Improvements relating to the collection of process effluent | EP96201010 | 1996-04-16 | EP0738881A3 | 1998-05-20 | GLOVER EDWARD CH T S; GLOVER MARTYN S |
| Described herein is an alarm system for use with a 'bag-in-box' arrangement (10) which is used to collect effluent from a process (20). The alarm system comprises a chamber (50) located between the process (20) and the 'bag-in-box' arrangement (10) which includes a level sensor (52) which indicates that the 'bag-in-box' arrangement (10) has been overfilled by a predetermined amount and is ready for changing. | ||||||
| 140 | Flüssigkeitsanzeiger für Tintenbehälter | EP80106665.5 | 1980-10-30 | EP0028399A2 | 1981-05-13 | Camen, Dieter; Ulrich, Günter, Dipl.-Phys.; Kupferschmidt, Wolfgang |
Um den Benutzer eines Schreibgerätes, bei welchem als Schreibflüssigkeit Tinte oder dergl. verwendet wird, darauf aufmerksam zu machen, daß der Tintenvorrat in den Tintenbehälter (1, 22) zur Neige geht, ist vorgesehen, bei Erreichen eines vorbestimmten minimalen Wertes ein optisches und- /oder akustisches Signal zu erzeugen. Zu diesem Zweck ist ein Schwingkreis (2,4,6) vorgesehen, dessen Kapazität durch zwei Kondensatorplatten (2, 24, 25) gebildet wird, zwischen denen sich der Tintenbehälter (1,22) befindet. Die Tinte wirkt damit als Dielektrikum, dessen Wert sich mit geringer werdendem Tintenvorrat ändert, und als Folge davon ändert sich auch die Kapazität des Schwingkreises (2, 4, 6). Dieser ist so bemessen, daß seine Resonanzfrequenz, und damit die maximale Spannung an seinem Widerstand (6) dan erreicht wird, wenn der Tintenvorrat auf einen vorbestimmten Wert abgesunken ist. Bei Erreichen dieser maximalen Spannung wird eine Signalschaltung aktiviert, welches ein akustisches und oder optisches Signal abgibt. |
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