| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | Dynamic port for measuring reactor coolant pump bearing oil level | EP10006662.0 | 2010-06-28 | EP2270335A3 | 2014-07-30 | Brady, David R.; Snodgrass, Christopher; Loebig, Thomas G. |
A dynamic port that extends from the bottom wall of an oil reservoir that surrounds the lower guide bearing of a reactor coolant pump and is in fluid communication within an oil level gauge. The dynamic port is rotatable into and out of the oil flow path to adjust the dynamic oil level shown by the oil level gauge when the pump is at operating speed to be substantially equal to the static oil level when the motor is at rest.
|
||||||
| 222 | VORRICHTUNG UND VERFAHREN ZUR FÜLLSTANDSMESSUNG | EP11707577.0 | 2011-02-17 | EP2539788B1 | 2014-05-28 | DZIOBEK, Frank; JOHANNING, Joachim |
| 223 | Vaporizer anesthesia level detector | EP13161466.1 | 2013-03-27 | EP2645070A2 | 2013-10-02 | Kuehl, Kenneth J.; Jones, Michael; McHenry, William Breckenridge; Whitman, Shawn Thomas |
A vaporizer 100 including a reservoir 102 for storing an anesthetic liquid agent and a vaporizing element configured to vaporize the anesthetic liquid agent. A level detector 106 is located outside of and adjacent to the exterior of the reservoir. The level detector includes at least one electrical field sensor configured to provide an output voltage signal based upon the capacitance of material within the reservoir proximate the electrical field sensor. The vaporizer includes a display providing a visual indication of the amount of liquid anesthetic agent in the reservoir.
|
||||||
| 224 | ASSAY CARTRIDGES AND METHODS OF USING THE SAME | EP10836455 | 2010-12-03 | EP2510335A4 | 2013-09-25 | ANDERSON NICHOLAS; DEBAD JEFFREY; GLEZER ELI N; KUMAR SUDEEP; LAWRENCE NOEL; PAGE KENNETH; SIGAL GEORGE; WEST SHARON |
| Assay cartridges are described that have a detection chamber, preferably having integrated electrodes, and other fluidic components which may include sample chambers, waste chambers, conduits, vents, bubble traps, reagent chambers, dry reagent pill zones and the like. In certain embodiments, these cartridges are adapted to receive and analyze a sample collected on an applicator stick. Also described are kits including such cartridges and a cartridge reader configured to analyze an assay conducted using an assay cartridge. | ||||||
| 225 | VORRICHTUNG UND VEFAHREN ZUR FÜLLSTANDSMESSUNG | EP11707577.0 | 2011-02-17 | EP2539788A2 | 2013-01-02 | DZIOBEK, Frank; JOHANNING, Joachim |
| The invention relates to a measurement device for regulating the filling level of a liquid-gas mixture via a liquid inlet valve in a container, comprising at least one vertical liquid standpipe fixed to the lateral outer wall of the container and being fluidically connected to the interior of the container via horizontal tube-shaped hydraulic devices. The invention is characterized in that - a first lower hydraulic device is provided which is disposed in the vicinity of the container base so that the filling level in the liquid standpipe changes with that in the container; - a second hydraulic device is provided above the desired filling level value in the container so that the filling level in the liquid standpipe changes when a freely selectable desired filling level value in the container is exceeded, - the measurement device is provided with a display and regulating device that is in controlled connection to the liquid inlet valve of the container, - the container comprises inlets and outlets for liquids and gases, - the liquid standpipe is provided with at least an additional third tube-shaped hydraulic device that protrudes horizontally into the container and is arranged in the container on the level of the desired value or below the desired value of the filling level, and - the first lower hydraulic device is configured as a return flow inhibitor with respect to the other provided hydraulic devices. | ||||||
| 226 | VISUAL INDICATOR AND FLUID DISPENSER | EP10752392.0 | 2010-08-20 | EP2480267A1 | 2012-08-01 | Vouillamoz, Lucien |
| A visual indicator display device includes a bracelet, a transparent capillary chamber, and a displacement member. The transparent capillary chamber is matched to an indicia and has a primary length and a width less than the primary length. The displacement member is functionally disposed at one end of the capillary chamber and is responsive to a measureable input for moving a fluid contained therein a defined amount. | ||||||
| 227 | FLUID INDICATOR | EP10752391.2 | 2010-08-20 | EP2467758A2 | 2012-06-27 | Vouillamoz Lucien |
| A visual indicator display device includes a bracelet, a transparent capillary chamber, and a displacement member. The transparent capillary chamber is matched to an indicia and has a primary length and a width less than the primary length. The displacement member is functionally disposed at one end of the capillary chamber and is responsive to a measureable input for moving a fluid contained therein a defined amount. | ||||||
| 228 | Steigrohr für ein Weinfaß | EP10004325.6 | 2010-04-23 | EP2264139A3 | 2012-04-18 | Kienzler, Hubert |
Ein Steigrohr 3 für ein Weinfaß ist in ein Spundloch 2 dieses Weinfasses 1 abgedichtet hineingesteckt. Die obere Öffnung des Steigrohrs 3 ist durch ein Verschlußelement 8 luft- und flüssigkeitsdicht abgeschlossen. Um entstehende Gärgase auszuleiten, weist das Steigrohr 3 ein Überdruckventil 7 auf.
|
||||||
| 229 | Battery electrolyte level control system | EP10171505.0 | 2006-05-30 | EP2254177A3 | 2011-09-21 | Hayashigawa, Larry |
An electrolyte level control system for adding a fluid to an electrolyte within a battery chamber defined by a battery carried by an electric vehicle, comprising: a reservoir configured to contain a quantity of the fluid; a battery-charge sensor configured to sense the state of charge of the battery; and a battery-refill control system configured to control the distribution of the fluid from the reservoir to the battery chamber based upon the state of charge sensed by the battery-charge sensor.
|
||||||
| 230 | Skalenanordnung für eine Füllstandsanzeige | EP09177727.6 | 2009-12-02 | EP2330392A1 | 2011-06-08 | Karlheinz, Gerlach |
Eine Skalenanordnung (3) für eine Füllstandsanzeige umfasst eine an einer Außenwand (2) eines Behälters (1) befestigte vertikale Skala, entlang derer sich ein den Füllstand anzeigendes Zeigerelement bewegt. Die Skala umfasst wenigstens eine langgestreckte Skalenplatte (4A, 4B) mit Skalenelementen und wenigstens zwei in einem vorgegebenen Abstand angeordneten Montagebohrungen. An der Außenwand (2) sind zumindest zwei vertikal übereinander in dem Abstand der Montagebohrungen angeordnete Kunststoff-Halterungen (5, 7A, 7B, 7C) befestigt. Jede Halterung weist wenigstens eine Bohrung und eine quer zur Bohrungsachse angeordnete Verbindungsfläche auf, welche auf die Außenwand (2) aufgeschweißt oder aufgeklebt ist. Jeweils ein Kunststoff-Verbindungsstecker (6), der aus einem Kopf und einem zylindrischen Stift mit mehreren radial umlaufenden Vorsprüngen oder Nuten besteht, ist durch eine Montagebohrung hindurch in eine zugeordnete Bohrung einer Halterung eingesteckt, wobei die Vorsprünge bzw. Nuten in die Bohrung derart eingreifen, dass der Stift durch Kraftschluss festgehalten wird. Eine der Halterungen ist relativ zu der zugeordneten Montagebohrung nicht verschiebbar und bestimmt somit die vertikale Position der Skala. Die den anderen Halterungen zugeordneten Montagebohrungen haben einen vergrößerten Durchmesser oder sind ein Langloch, um eine Verschiebung der Skalenplatte relativ zu der Halterung zu ermöglichen.
|
||||||
| 231 | Viewing device for under-liquid observation, and optical film | EP10015234.7 | 2009-12-01 | EP2315057A1 | 2011-04-27 | Yamada, Nobuaki |
The present invention provides a liquid tank, a viewing device for under-liquid observation, and an optical film, each excellent in visibility and durability and being easy to clean. The present invention is a liquid tank having a transparent wall, including, on an internal surface of the wall, a first moth-eye layer having a moth-eye structure, and a protective layer covering the moth-eye structure, in this order from the wall side, and preferably, further including, on an external surface of the wall, a second moth-eye layer having a moth-eye structure, and the second moth-eye layer being disposed in a region facing the first moth-eye layer.
|
||||||
| 232 | LIQUID STORAGE TANK, IN-LIQUID OBSERVATION TOOL, AND OPTICAL FILM | EP09834685.1 | 2009-12-01 | EP2305026A1 | 2011-04-06 | YAMADA, Nobuaki |
The present invention provides a liquid tank, a viewing device for under-liquid observation, and an optical film, each excellent in visibility and durability and being easy to clean. The present invention is a liquid tank having a transparent wall, including, on an internal surface of the wall, a first moth-eye layer having a moth-eye structure, and a protective layer covering the moth-eye structure, in this order from the wall side, and preferably, further including, on an external surface of the wall, a second moth-eye layer having a moth-eye structure, and the second moth-eye layer being disposed in a region facing the first moth-eye layer. |
||||||
| 233 | Sealed observation element for sulfur recovery unit | EP03017772.9 | 1996-08-09 | EP1385007B1 | 2011-04-06 | Taggart, George W.; Lewis, James E.; Ward, Craig S. |
| 234 | Vehicule automobile comprenant un reservoir de liquide lave-glace | EP10158436.5 | 2010-03-30 | EP2236367A1 | 2010-10-06 | Leroux, Charles |
L'invention se rapporte à un véhicule automobile (1) comprenant une paroi (22) de réservoir (3) de liquide lave-glace sur laquelle le niveau du réservoir (3) est visible et qui est disposée dans l'encadrement (17) d'une des portes (19) latérales du véhicule (1). Selon l'invention, l'orifice (13) de remplissage dudit réservoir est également disposé dans ledit encadrement de porte latérale. L'invention trouve son application notamment dans le domaine des véhicules à capot fixe.
|
||||||
| 235 | LIQUID COLLECTION SYSTEM AND RELATED METHODS | EP08725103.9 | 2008-01-31 | EP2109471A2 | 2009-10-21 | MICHAELS, Thomas, L.; JOHNSON, Russ, A.; THOMAS, Jeannie |
| Various embodiments of a fluid collection system having multiple storage chambers are disclosed. In an exemplary embodiment, the system may include a first chamber in fluid communication with a suction source and a second chamber in fluid communication with the first chamber. The second chamber may have a volume less than a volume of the first chamber. The second chamber may also comprise an inlet port for connecting to an external tube. The system may be configured to selectively drain liquid from the second chamber into the first chamber. | ||||||
| 236 | Fuel cell system and method of computing fuel level | EP08253350.6 | 2008-10-16 | EP2053684A3 | 2009-08-12 | Hong, Ming-Zi |
The present embodiments relate to a fuel cell system having a cartridge to store liquid fuel and a method of computing a fuel level remained in the cartridge. A fuel cell system of the present embodiments includes: a fuel cartridge for storing fuel; a fuel cell stack for generating power by means of the electrochemical reaction of fuel and oxygen; a fuel pump for sucking fuel stored in the fuel cartridge; a pressure sensor positioned in a fuel channel between a coupling unit of the fuel cartridge and the fuel pump; and a fuel level computing unit for computing a time point when the fuel in the fuel cartridge is almost exhausted. With the present embodiments, the fuel exhaustion in the cartridge can be sensed beforehand at a low cost so that the damage of MEA in the fuel cell can be prevented and the inconvenience or the unexpected damage to a user can be prevented.
|
||||||
| 237 | MEASURING RESERVOIR | EP04769918.6 | 2004-09-01 | EP1789759B1 | 2009-07-29 | Rubalsky, Dmitrievich Sergey; Aleshkin, Vladimovich Dmitry |
| A measuring reservoir for measuring the volume of the second component of a two-component mixture by the given volume of the first component and the given ratio of the mixture components is described. The reservoir has a housing of transparent material with measuring scales marked on the outside. The first scale is for the measurement of the volume of the first component, the second scale is a ratio scale on which there are marks corresponding to the ratio of the volumes of the components. One of the scales is stationary and marked on the outside of the housing, the other scale is movable along the stationary scale. A cursor is coupled to the movable scale in a cantilever manner. The cursor is shaped as a plank or rod oriented along the side surface of the housing on which a level curve of the second component is marked. | ||||||
| 238 | BATTERY ELECTROLYTE LEVEL CONTROL SYSTEM | EP06771645 | 2006-05-30 | EP1889310A4 | 2009-06-17 | 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. | ||||||
| 239 | Fuel cell system and method of computing fuel level | EP08253350.6 | 2008-10-16 | EP2053684A2 | 2009-04-29 | Hong, Ming-Zi |
The present embodiments relate to a fuel cell system having a cartridge to store liquid fuel and a method of computing a fuel level remained in the cartridge. A fuel cell system of the present embodiments includes: a fuel cartridge for storing fuel; a fuel cell stack for generating power by means of the electrochemical reaction of fuel and oxygen; a fuel pump for sucking fuel stored in the fuel cartridge; a pressure sensor positioned in a fuel channel between a coupling unit of the fuel cartridge and the fuel pump; and a fuel level computing unit for computing a time point when the fuel in the fuel cartridge is almost exhausted. With the present embodiments, the fuel exhaustion in the cartridge can be sensed beforehand at a low cost so that the damage of MEA in the fuel cell can be prevented and the inconvenience or the unexpected damage to a user can be prevented.
|
||||||
| 240 | BATTERY ELECTROLYTE LEVEL CONTROL SYSTEM | EP06771645.6 | 2006-05-30 | EP1889310A2 | 2008-02-20 | 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. | ||||||
