Leakage Patents (Class 73/40)
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Publication number: 20120318047Abstract: A method for detecting leaks within a vacuum system is described. The method may detect vacuum system leaks responsive to vacuum pump speed. The method can compensate for changes in barometric pressure so that a single leak threshold may be provided for all altitudes and barometric pressures.Type: ApplicationFiled: June 16, 2011Publication date: December 20, 2012Applicant: FORD GLOBAL TECHNOLOGIES, LLCInventors: Ralph Wayne Cunningham, Ross Dykstra Pursifull
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Publication number: 20120312077Abstract: A dual mode water leak detector is combined with a HIVAR air condition system or unit. The air conditioning unit or system uses chilled water for cooling or hot water or electric coils for heating and employs means for supplying heated or cooled air into a floor void and channeling return air to designated vents under the floor or through a false ceiling. In addition a water sensor includes an enclosed housing having a bottom or base and four electrical contacts extending through the base and positioned above the floor by about 2 mm by four rubber spacers or feet. In addition a first circuit connects a first and a second contact separated from one another by an airspace to a pair of banana clips for turning the HIVAR system off when water between the first and second contacts is completed due to the presence of water. A second circuit includes a switch and a 60K OHM resistor connecting that circuit to a first of the contacts and second of the contacts when the switch is in a closed position.Type: ApplicationFiled: June 9, 2011Publication date: December 13, 2012Inventor: Khaled Ali Al-Harbi
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Patent number: 8327689Abstract: A method and apparatus for monitoring and determining fuel vapor recovery performance is disclosed. The dispensing of liquid fuel into a tank by a conventional gas pump nozzle naturally displaces a mixture of air and fuel ullage vapor in the tank. These displaced vapors may be recovered at the dispensing point nozzle by a vapor recovery system. A properly functioning vapor recovery system recovers approximately one unit volume of vapor for every unit volume of dispensed liquid fuel. The ratio of recovered vapor to dispensed fuel is termed the A/L ratio, which should ideally be approximately equal to one (1). The A/L ratio, and thus the proper functioning of the vapor recovery system, may be determined by measuring liquid fuel flow and return vapor flow (using a vapor flow sensor) on a nozzle-by-nozzle basis. The disclosed methods and apparatus provide for the determination of A/L ratios for individual nozzles using a reduced number of vapor flow sensors.Type: GrantFiled: February 8, 2010Date of Patent: December 11, 2012Assignee: Veeder-Root CompanyInventor: Robert P. Hart
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Publication number: 20120297863Abstract: The present invention is directed to a method of locating leaks in a substrate (30) having a first and a second surface wherein the substrate (30) is adapted for preventing the flow of a fluid, or components contained in the fluid, through the substrate (30) from the first surface to the second surface, and a system (10) useful in the method, wherein the method comprises: a) isolating the first surface from the second surface; b) creating a pressure differential between the first surface and the second surface wherein the pressure on the first surface is higher than the pressure on the second surface; c) contacting the second surface or the exit (32) of the device (11) containing the substrate (30) with a baffle (23), wherein the baffle (23) has a plurality of interconnected parts which form a pattern and the baffle (23) is of a sufficient size to cover the second surface of the substrate (30) or the fluid exit point (32) of the device the substrate (30) is disposed in and the parts of the baffle (23) createType: ApplicationFiled: January 28, 2011Publication date: November 29, 2012Applicant: Dow Global Technologies LLCInventors: Stewart P. Wood, William A. Heeschen
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Publication number: 20120302834Abstract: A cover for a laparoscope having a substantially gas-impermeable, flexible membrane defining an interior space adapted to receive at least a distal-most portion of the laparoscope; and at least one valve for allowing gas to flow into and/or out of the interior space. By providing a substantially gas-impermeable, flexible membrane, the membrane can conform to the camera in use, ensuring that the cover can be used with both rigid and flexible laparoscopes and in particular those with cameras at their distal end. The valve allows gas to flow into or out of the interior space. This may be used to remove gas from the interior space so that the cover conforms more closely to the profile of the endoscopic camera. It may also be used to check that there has been no damage to the cover during the operation, and thus no breach of the sterile barrier.Type: ApplicationFiled: February 2, 2011Publication date: November 29, 2012Applicant: SURGICAL INNOVATIONS LIMITEDInventors: Michael White, Michael John McMahon
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Patent number: 8316694Abstract: The invention relates to a device (10) for detecting and locating fluid leakage from a hydraulic work, the device being characterized in that it comprises a geotextile fabric (12) made of yarns or fibers and provided with: at least one first optical cable (14) in contact with said geotextile (12) and formed by a protective tube within which at least one multimode optical fiber (141) is placed, said multimode optical fiber (141) being suitable for detecting a temperature variation and transmitting a signal that is modified when temperature varies and at least one second optical cable formed by a sheath receiving tightly at least one monomode optical fiber (142) suitable for detecting a deformation of the geotextile (12) and for transmitting a signal that is modified when the deformation is detected in that said second optical cable being bonded to the geotextile (12). The invention is applicable to detecting and locating leakage from hydraulic works.Type: GrantFiled: July 12, 2007Date of Patent: November 27, 2012Assignees: Tengate Geosynthetics France, Electricite de France, Fiber Optics Sensors & Sensing Systems BVBA, Universite Joseph FourierInventors: Olivier Artieres, Cyril Guidoux, Jean-Jacques Fry, Jean-Marie Henault, Sylvain Blairon, Gauthier Vercoutere, Marc Voet, Johan Vlekken, Yves-Henri Faure, Paul Royet, Alain Bernard, Fabrice Daly
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Publication number: 20120291526Abstract: Disclosed are aqueous chemical leak detection cables that provide protection to sensor wires by using a conductive polymer coating that is resistant to corrosion by aqueous chemicals. In addition, non-conductive, liquid pervious layers may surround one or more of the sensor wires to assist in preventing false detection of a aqueous chemical leak as a result of various non-liquid contaminants. The non-conductive, liquid pervious layer may comprise braided, non-hygroscopic, non-conductive fibers, or a continuous, non-conductive pervious coating.Type: ApplicationFiled: August 3, 2012Publication date: November 22, 2012Inventor: Donald M. Raymond
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Publication number: 20120291525Abstract: A test pressurisation device (100) for hose (1) includes a first pair of press/driving rolls (10, 12) between which the hose can be inserted, and a second pair of press/driving rolls (20, 22) between which the hose can be inserted. The first pair of press/driving rolls (10, 12) is arranged on a distance from the second pair of press/driving rolls (20, 22). Further each pair of press/driving rolls is arranged for pressing the hose together between the rolls in conjunction with pressurisation with a medium such as water so that a limited part of the hose, which is located between the first and the second pair of press/driving rolls, can be held pressurised and control of the hoses or its couplings tightness is admitted. Furthermore, while sections of the hose are held pressurised between the pairs of press/driving rolls, the same pairs of press/driving rolls are feeding the hose forward, thus checking the hoses tightness in a continuously moving section approach.Type: ApplicationFiled: December 17, 2010Publication date: November 22, 2012Applicant: Allgotech ABInventors: Per-Arne Fritjofsson, Anders Ahlén
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Patent number: 8312761Abstract: A test accessory for testing a variety respirators. The accessory is designed to compliment existing equipment to provide a robust assessment of respirator performance. The accessory may include a head form having an inflatable bladder capable of fitting a variety of sizes of respirator masks. In some embodiments, the inflatable bladder does not rely on adhesives to effect a seal, thereby eliminating manufacturing and quality assurance steps. The test accessory may also include a detachable instrumentation module that may be removed from the accessory, enabling calibration and maintenance at a remote facility without need for transporting the entire unit. The module may also house a memory device that may be upgraded with calibration data and firmware during the calibration process.Type: GrantFiled: June 24, 2009Date of Patent: November 20, 2012Assignee: TSI, IncorporatedInventors: Robert Montividas, Richard Remiarz, Brian Johnson, Max Carideo
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Patent number: 8307696Abstract: The present invention concerns an isothermal reactor (1) comprising a pressure vessel (2) closed at the opposite ends by respective bottoms (3, 4), a reaction zone (9) in said pressure vessel (2) in which at least one catalytic basket (10) is positioned, and at least one heat exchange unit (13) embedded in said at least one catalytic basket (10), each heat exchange unit (13) comprising a plurality of heat exchangers (14) each having an inner chamber intended to be crossed by an operating heat exchange fluid, the reactor being characterized in that it comprises means (17, 18) for picking up samples of operating heat exchange fluid from groups (16) of pre-established exchangers in each heat exchange unit (13), so as to ascertain the possible existence of damaged exchangers (14) in said groups (16) of exchangers through analysis of respective samples of operating heat exchange fluid.Type: GrantFiled: April 27, 2007Date of Patent: November 13, 2012Assignee: Methanol Casale S.A.Inventors: Ermanno Filippi, Enrico Rizzi, Mirco Tarozzo
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Patent number: 8308857Abstract: A filter cassette and a method for allowing a leak to be detected are disclosed, in which the filter cassette comprises a main body defining a first chamber. The main body includes an inlet and an outlet, a filter separating the first chamber into first and second sub-chambers, the inlet being in fluid communication with the first sub-chamber and the second sub-chamber being in fluid communication with the outlet. The main body also includes a second chamber is defined by the main body and the filter, wherein in absence of a leak the second chamber is substantially not in fluid communication with the first chamber. The main body further includes a port in fluid communication with the second chamber, whereby measuring a fluid characteristic in the second chamber by means of the port allows a detection of a leak, i.e. an external leak or a bypass leakage.Type: GrantFiled: January 8, 2009Date of Patent: November 13, 2012Assignee: SCL Medtech Inc.Inventors: Sylvain Couillard, Simon Caron
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Publication number: 20120280820Abstract: A leak detection system for a flowing electrolyte battery comprising a containment member associated with at least one of a stack of a flowing electrolyte battery and an electrolyte reservoir of a flowing electrolyte battery and a sensing member for sensing a fluid leak within the containment member.Type: ApplicationFiled: July 16, 2012Publication date: November 8, 2012Inventor: Rick Winter
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Patent number: 8302463Abstract: The invention discloses a loss detection system to determine and monitor containment losses for open channel networks. One exemplary method comprises monitoring a flow of liquid from an open channel into a pool, the open channel comprising channel banks and a bed, controlling the flow of liquid such that a level of liquid within the pool is constant, and determining theft loss of liquid based on the monitored flow of liquid.Type: GrantFiled: December 8, 2009Date of Patent: November 6, 2012Assignee: Rubicon Research Pty Ltd.Inventor: David Aughton
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Publication number: 20120266659Abstract: The invention relates to a method for monitoring a leak detector comprising: a secondary vacuum pump designed to be connected to a primary vacuum pump, the secondary vacuum pump comprising a motor, a rotor and a stator, the said rotor being capable of being rotated in the stator by the motor when the motor is powered, and at least one information means capable of being powered electrically, in order to inform a user of the operating state of the leak detector, characterized in that, in the event of the motor power supply being cut off, the kinetic energy of rotation of the secondary vacuum pump rotor in the form of electrical power (101) is recovered in order to power the information means (102). The invention also relates to a leak detector (1) using the said monitoring method.Type: ApplicationFiled: April 17, 2012Publication date: October 25, 2012Applicant: Adixen Vacuum ProductsInventors: Frédéric Rouveyre, Didier Pierrejean, Cyrille Nomine
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Publication number: 20120260721Abstract: Disclosed are aqueous chemical leak detection cables that provide protection to sensor wires by using a conductive polymer coating that is resistant to corrosion by aqueous chemicals. In addition, non-conductive, liquid pervious layers may surround one or more of the sensor wires to assist in preventing false detection of an aqueous chemical leak as a result of various non-liquid contaminants. The non-conductive, liquid pervious layer may comprise spirally wrapped or braided, non-hygroscopic, non-conductive monofilament fibers, or a continuous, non-conductive pervious coating.Type: ApplicationFiled: June 28, 2012Publication date: October 18, 2012Inventor: Donald M. Raymond
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Patent number: 8281645Abstract: An apparatus and method for liquid leak detection includes first and second flexible members each constructed of an electrically conductive material that is in a normally open circuit state. Also included is a liquid wicking permeable surrounding sidewall that is positioned adjacent to the first and second flexible members, the liquid permeable surrounding sidewall is constructed of a non electrically conductive material. Operationally, the liquid wicking permeable surrounding sidewall becomes electrically conductive when a liquid is present in the liquid wicking permeable surrounding sidewall, facilitating the first and second flexible members to move to a closed circuit state that results in a perceptible output. Additionally, included is a liquid permeable planar web reinforcing element that is oriented adjacent to the liquid wicking permeable surrounding sidewall wherein the liquid permeable planar web reinforcing element is oppositely disposed of the first and second flexible members.Type: GrantFiled: September 22, 2009Date of Patent: October 9, 2012Inventor: Kirk Dryden
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Publication number: 20120234859Abstract: Electrochemical impedance may be used for accurate and real-time tracking and control of fluid delivery from fluid-filled chambers, such as from drug delivery devices. At least two measurement electrodes may be placed within the chamber in contact with the fluid to be sensed. Application of a small alternating current using these electrodes through the fluid/drug may allow measurement of electrochemical impedance. Volumetric changes of the compressible chamber due to movement of at least one surface within the compressible chamber (such as an actuating bellows or flexible diaphragm), may induce changes in the measured electrochemical impedance. Measuring these changes may allow for tracking of ejected liquid volumes from the compressible chamber. By taking the time-derivative of this signal, the rate of volume change can be tracked and therefore the rate of ejected fluid (flow rate) can be deduced.Type: ApplicationFiled: June 1, 2012Publication date: September 20, 2012Applicant: UNIVERSITY OF SOUTHERN CALIFORNIAInventors: CHRISTIAN A. GUTIERREZ, ELLIS MENG
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Patent number: 8264347Abstract: A sealing system for sealing between two members includes a polymer seal disposed between the two members, a measurement device, and an evaluation unit. The measurement device is at least partially disposed within the polymer seal, is configured for measuring an aspect of the polymer seal indicating sealing performance of the polymer seal, and is configured for creating a signal corresponding to a measured aspect of the polymer seal. The evaluation unit is configured for evaluating the signal corresponding to the measured aspect of the polymer seal and for determining a sealing performance capability of said polymer seal.Type: GrantFiled: December 29, 2008Date of Patent: September 11, 2012Assignee: Trelleborg Sealing Solutions US, Inc.Inventor: Larry Castleman
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Patent number: 8256269Abstract: Disclosed are aqueous chemical leak detection cables that provide protection to sensor wires by using a conductive polymer coating that is resistant to corrosion by aqueous chemicals. In addition, non-conductive, liquid pervious layers may surround one or more of the sensor wires to assist in preventing false detection of a aqueous chemical leak as a result of various non-liquid contaminants. The non-conductive, liquid pervious layer may comprise braided, non-hydroscopic, non-conductive fibers, or a continuous, non-conductive pervious coating.Type: GrantFiled: May 11, 2010Date of Patent: September 4, 2012Assignee: Raymond & Lae Engineering, Inc.Inventor: Donald M. Raymond
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Patent number: 8250906Abstract: A leak detector for use with a piping system, where the leak detector includes a housing configured to be attached to a conduit and a valve configured and arranged for axial movement with respect to the housing. Additionally, there is a magnet attached to the valve for movement therewith. Embodiments of the invention also preferably include a magnetically-actuated switch positioned within the leak detector along an axial flow path of a fluid such that axial movement of the magnet triggers the switch, which indicates fluid flow through the leak detector. In certain embodiments, there is also a leak passageway that permits a relatively small amount of fluid to pass to an outlet side of the valve even when a diaphragm is in seating contact with the valve if fluid pressure on the outlet side of the valve is slightly lower than fluid pressure on an inlet side of the valve.Type: GrantFiled: October 17, 2008Date of Patent: August 28, 2012Assignee: Sloan Valve CompanyInventor: Dwight N. Johnson
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Publication number: 20120210772Abstract: A portable, small-sized device is provided to accurately conduct a leakage test for a liquid volume meter such as a pipette. In operation, pipette P is connected to the device main body side via a tube. A command from a central processing unit causes a pump to perform a suctioning operation to depressurize the pipette P side to a predetermined pressure. Any pressure changes over a predetermined period of time are monitored by a pressure sensor. The central processing unit determines whether there is leakage from the pipette P, and displays a judgment result on a display unit. In particular, when a diaphragm pump is used as the pump, the pulsation of an air flow occurring in a suction operation is attenuated in a pressure vessel so as not to have harmful effects on either the inspection results or the pipette P side.Type: ApplicationFiled: October 19, 2010Publication date: August 23, 2012Applicant: A&D CO., LTD.Inventors: Naoto Izumo, Takaaki Kagawa
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Publication number: 20120210771Abstract: An externally-applied heat exchange pad has three layers laminated together, an inner and outer non-conductive layer and a middle conductive layer.Type: ApplicationFiled: October 27, 2011Publication date: August 23, 2012Inventors: Stelica Stelea, David Searl Kimball, Lynn Miyeko Shimada, Kenneth A. Collins, Grant Palmer
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Patent number: 8242919Abstract: Provided is a moisture detection device including: a moisture detection label that has at least a pair of detection terminals and a pattern, the detection terminals being provided on a base material with an insulated front surface, the pattern being provided on the surface of the base material and formed between the detection terminals with water-dispersible and conductive paint; and detection circuit which detects an electrical connection state between the detection terminals.Type: GrantFiled: August 15, 2005Date of Patent: August 14, 2012Assignee: NEC CorporationInventor: Shinji Oguri
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Patent number: 8234909Abstract: Methods are disclosed for inspecting a cylindrical porous ceramic body by positioning a diffuser near, and spaced apart from, the first end of a ceramic body; flowing a tracer flow toward the diffuser, wherein a first portion of the tracer flow passes through the diffuser, and a second portion of the tracer flow does not pass through the diffuser, the first and second portions of the tracer flow then entering the first end of the ceramic body, wherein the average velocity of the first portion of the tracer flow entering the ceramic body VAVG1 is lower than the average velocity of the second portion of the tracer flow entering the ceramic body VAVG2; directing light toward the second end of the ceramic body; and detecting reflected light coming from a location proximate the second transverse face at the second end of the ceramic body.Type: GrantFiled: August 26, 2009Date of Patent: August 7, 2012Assignee: Corning IncorporatedInventors: Balram Suman, Srinivasa Rao Vaddiraju, Wei Xu
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Patent number: 8234910Abstract: Disclosed are aqueous chemical leak detection cables that provide protection to sensor wires by using a conductive polymer coating that is resistant to corrosion by aqueous chemicals. In addition, non-conductive, liquid pervious layers may surround one or more of the sensor wires to assist in preventing false detection of an aqueous chemical leak as a result of various non-liquid contaminants. The non-conductive, liquid pervious layer may comprise spirally wrapped or braided, non-hydroscopic, non-conductive monofilament fibers, or a continuous, non-conductive pervious coating.Type: GrantFiled: November 11, 2010Date of Patent: August 7, 2012Assignee: Raymond & Lae Engineering, Inc.Inventor: Donald M. Raymond
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Patent number: 8230717Abstract: An apparatus and method for measuring paravalvular leakage from a prosthetic heart valve in vitro. The apparatus has a pulse chamber pressure vessel and a pulsatile pump. The sewing ring of a prosthetic heart valve is mounted to a mounting member which is affixed to the pressure chamber, and paravalvular leakage from the heart valve is collected and measured.Type: GrantFiled: December 18, 2008Date of Patent: July 31, 2012Assignee: Ethicon, Inc.Inventor: John P. Matonick
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Patent number: 8225643Abstract: The present invention provides a medical device having an elongate body with both a proximal end and a distal end, wherein the elongate body defines an intake lumen and an exhaust lumen. The medical device also has a first pliable element defining a cooling chamber disposed at a point along the elongate body, with the cooling chamber being in fluid communication with the intake lumen and the exhaust lumen. A second pliable element is provided which at least partially encloses the first pliable element, thereby defining a junction between the first and second pliable element. Moreover, a check valve is included which is in fluid communication with the junction between the first pliable element and second pliable element, the valve further being in fluid communication with the exhaust lumen. In addition, the medical device may include sensors or other monitoring means in fluid communication with the junction and the cooling chamber.Type: GrantFiled: May 22, 2008Date of Patent: July 24, 2012Assignee: Medtronic Cryocath LPInventors: Marwan Abboud, Rachid Mahrouche, Teresa Ann Mihalik, Chadi Harmouche, Jean-Luc Pageard, John W. Lehmann
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Publication number: 20120167667Abstract: The present invention relates to a glove testing device and method for air testing of gloves particularly of the insulative type used by linemen and electricians. The device may be moved relative to the lengthwise direction of the glove to successively seal shut securely each portion of the glove passed by the device so that air trapped in the glove progressively inflates the glove. In particular, the glove may be rolled about the testing or spool device starting adjacent the glove's open mouth either by rotating the device or wrapping the glove or by a combination of these movements. The device may include cantilevered arms forming a lateral gap for lateral insertion of the glove's end portion and may have rounded outer surfaces that avoid placing sharp folds in the glove during the rolling operation.Type: ApplicationFiled: November 1, 2011Publication date: July 5, 2012Inventor: Randall L. Shipley
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Patent number: 8205484Abstract: A leak testing apparatus 1 includes a heat sensitive member 70 having a body 71 made of a material having high thermal conductivity. The body 71 is abutted against an outer surface of a workpiece 10 to close an opening of an inner space 11 of the workpiece 10. A pressure chamber 73 is formed inside the body 71 as arranged along the outer surface and as arranged over an area wider than the opening. Pressurized gas is introduced to the pressure chamber 73. Data on pressure change in the inner space 11 of the workpiece 10 is compensated based on inner pressure information regarding the pressure chamber 73, and leak judgment is made.Type: GrantFiled: October 23, 2009Date of Patent: June 26, 2012Assignee: Fukuda Co., Ltd.Inventor: Toru Sasaki
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Publication number: 20120148355Abstract: To inspect recesses in sides of an airfoil, gauge heads are moved into engagement with the recesses. Fluid pressure is conducted to the recesses while the gauge heads are in engagement with the recesses. A determination is made as to whether the rate of leakage of fluid from the recesses is greater than or less than a predetermined rate. If the rate of leakage of fluid is greater than a predetermined rate, one or more of the recesses is unacceptable. However, if the rate of leakage of fluid pressure is less than the predetermined rate, the recesses are acceptable.Type: ApplicationFiled: December 13, 2010Publication date: June 14, 2012Inventor: KENNETH B. CLARKE
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Patent number: 8196454Abstract: An apparatus for testing a protective mask. The apparatus includes a testing unit for testing a protective mask. The testing unit includes a headform upon which a protective mask to be tested is mounted. The testing unit is configured to take a sample of the challenge from two different locations about the protective mask. The testing unit may also be configured to inflate and deflate a neck seal protective mask when mounted on the headform prior to performing a mask leakage test to eliminate or significantly reduce pockets or folds that may hide a leak.Type: GrantFiled: December 11, 2009Date of Patent: June 12, 2012Assignee: Hamilton Associates, Inc.Inventors: Eric Hanson, Colin Gordon Hodge, Gilbert Olvera
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Patent number: 8197623Abstract: A thermal and vacuum assessment method includes providing a composite part having a repair area, installing a vacuum bag over the repair area, drawing a vacuum on the vacuum bag, testing for air leaks in the vacuum bag, heating the vacuum bag and obtaining a thermal image of the repair area.Type: GrantFiled: January 20, 2010Date of Patent: June 12, 2012Assignee: The Boeing CompanyInventor: Everett A. Westerman
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Patent number: 8191411Abstract: A method and device for monitoring a fuel metering system, in which fuel is pumped from a low-pressure zone into a high-pressure zone. The pressure in the high-pressure zone is detected. An error is recognized on the basis of the pressure variation in the high-pressure zone. The type of error is recognized on the basis of the shape of a pressure drop curve. The variation of the pressure quantity over time is approximated using a function such as the hyperbolic function. The type of error is recognized on the basis of the quantity characterizing the function.Type: GrantFiled: September 11, 2006Date of Patent: June 5, 2012Assignee: Robert Bosch GmbHInventors: Hans Georg Bossemeyer, Michael Hackner
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Patent number: 8188873Abstract: A water leak detection and active surveillance system applied to one or more single or multiple-story buildings that timely alerts and contacts a decision maker(s) of the leak so that that corrective intervention may be implemented. The system includes multiple water detection endpoints and a base station that is connected by wireless transmission or other communication means. The system also includes a central server which augments the alarms with text messaging and emails as well as maintains a customer database of all water incidents and alarming procedures. The system also monitors the functionality (operating health) of all detection components. The system also provides proprietary access to the database by qualified users through an internet portal. The system includes the capability to implement a water shutoff action to the water source of the affected building. The system can also operate in mixed mode detection where it can detect a combination of alarm conditions such as smoke, motion, etc.Type: GrantFiled: August 5, 2008Date of Patent: May 29, 2012Assignee: Dtection, Inc.Inventors: R. Thomas Barth, William D. Baker
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Publication number: 20120119915Abstract: RFID tag and a system and method involving a plurality of RFID tags. Each RFID tag is attached to an object on which the presence of a predefined fluid is monitored. In a first state, (absence of the monitored fluid), the tag acts as a passive RFID tag, and the information it holds can be read with a proximity reader. This operation is performed when the RFID tag is attached to the object to be monitored. In a second state, whenever the monitored fluid appears on the tagged object, a fluid activated battery generates the electrical power which is used to power the RFID tag. The RFID tag then acts as an active RFID tag and starts to emit messages which can be received by a RFID reader.Type: ApplicationFiled: January 4, 2012Publication date: May 17, 2012Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Jean-Yves Clement, Pierre Secondo, Jerome Tarte
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Patent number: 8176771Abstract: An endoscope washing and disinfecting apparatus includes: a connecting portion connected to a bending transmitting portion of an endoscope to transmit driving force; a distal end driving portion for transmitting the driving force to the bending transmitting portion through the connecting portion; a fluid supplying unit for supplying gas into an inner space of the endoscope; and a control unit for controlling a pressure detecting portion for detecting pressure in the inner space and the distal end driving portion to provide the bending portion with bending motion, and for determining occurrence or nonoccurrence of water leak in the endoscope by comparing the pressure detected by the pressure detecting portion and a preset threshold.Type: GrantFiled: November 7, 2008Date of Patent: May 15, 2012Assignee: Olympus Medical Systems Corp.Inventors: Hideto Onishi, Kenichi Kobayashi, Keisuke Nozaki, Shintaro Suzuki, Naoya Taya, Masahiko Tomita, Toshiaki Noguchi, Eiri Suzuki
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Publication number: 20120105220Abstract: A method and apparatus for determining coolant leakage in a vehicular propulsion system battery. An AC isolation resistance test is used to determine whether an isolation fault has occurred within the battery, but can also determine the capacitance of the circuit or system, which can further determine the coolant leakage levels of the vehicular propulsion system battery. This eliminates having an additional device to measure the coolant leakage.Type: ApplicationFiled: October 29, 2010Publication date: May 3, 2012Applicant: GM GLOBAL TECHNOLOGY OPERATIONS, INC.Inventor: Fang Wang
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Publication number: 20120105236Abstract: A method and apparatus for determining whether an appliance is leaking gas is provided. Pressure measurements are taken after closing off the flow of gas to the appliance and within the appliance so as to isolate the gas within the distribution system of the appliance. If unacceptable changes in the pressure of the gas are detected, a warning signal can be provided and the flow of gas into the appliance can be maintained in an off state until further corrective steps are undertaken. Corrections for temperatures changes between pressure measurements can also be provided.Type: ApplicationFiled: November 3, 2010Publication date: May 3, 2012Applicant: GENERAL ELECTRIC COMPANYInventors: James Carter Bach, Paul Bryan Cadima
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Patent number: 8166802Abstract: A device for displaying and measuring air losses in a chest drainage apparatus, having a transparent window enclosure with a connection to a tube end connected to a chest cavity to convey exuded liquids for collection a vessel and air losses, a chamber being provided within the apparatus at one of the transparent windows, that contains liquid and comprises the outlet section of a duct for air loss conveying. The device comprises a bell arranged above the outlet section, immersed in liquid at least at a lower end area, and provided, at the submerged portion, with at least one always-open air outflow port and with at least one additional port for the outflow of air.Type: GrantFiled: November 21, 2007Date of Patent: May 1, 2012Assignee: Eurosets S.r.l.Inventors: Paolo Fontanili, Ruggero Paratelli
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Patent number: 8151629Abstract: A device comprising a pressure monitor and a control means that receives a signal representing measured pressure at the pressure monitor and controls the controllable elements of a fluid system is utilized to monitor a fluid system for error conditions, to optimize operations and to diagnose the fluid system. By following a testing protocol that selectively enables parts of the system, the control means narrows the list of possible failing components. Comparing the measured pressure against normal pressures allows the device to identify error conditions. Determining the volume of fluid being transported and controlling the duration of the flow optimizes operation of the fluid system.Type: GrantFiled: March 2, 2005Date of Patent: April 10, 2012Assignee: Waters Technologies CorporationInventors: Theodore D. Ciolkosz, James E. Usowicz, Peyton C. Beals, Russell Keene
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Patent number: 8151630Abstract: A quantitative fit test (QNFT) system and method for assessing the biological fit factor (FF) performance of respiratory protective devices. The biological QNFT system includes the following three main elements: an aerosol generation system; an exposure chamber; and an aerosol sampling subsystem. The aerosol sampling subsystem includes an aerosol spectrometer that counts particles in discrete size units ranging from 0.5 to 20 micrometers (?m) making it possible to obtain several size-specific FF measurements from a single respirator fit test. A virtual impactor in the aerosol generation system increases the number of challenge particles in the primary target size of interest (1 to 5 ?m) and increases the sensitivity of the method allowing FF values of up to one million to be measured without the need to correct for in-mask background particles.Type: GrantFiled: November 6, 2009Date of Patent: April 10, 2012Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Paul D. Gardner, Jonathan P. Eshbaugh
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Patent number: 8151628Abstract: Hydrostatic testing tool and methods for testing a test article, such as a hose or container having an external threaded aperture. The preferred testing tool includes a housing, a piston and a collet body having a plurality of collet segments collectively forming a cylindrical inner perimeter having a variable diameter, each collet segment having a threaded surface on the inner perimeter such that the piston can selectively actuate the collet body to vary the diameter of the inner perimeter. In preferred embodiments, the hydrostatic testing tool utilizes a handle assembly that is arranged and configured such that only one hand is needed to operate the hydrostatic testing tool.Type: GrantFiled: June 12, 2009Date of Patent: April 10, 2012Assignee: Airmo, Inc.Inventor: Charles R. Smida
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Publication number: 20120083729Abstract: A method for operating a dialysis cassette including a flexible membrane that covers a pump chamber includes applying a vacuum about a piston head and sucking the flexible membrane of the dialysis cassette onto the piston head; mechanically retracting the piston head along with the vacuum applied membrane away from the dialysis cassette to draw fluid into the pump chamber; mechanically extending the piston head and the flexible membrane into the pump chamber to expel fluid from the pump chamber through a flow path; and directly sensing a pressure of the fluid flowing through the flow path at a location of the dialysis cassette adjacent to the pump chamber.Type: ApplicationFiled: December 5, 2011Publication date: April 5, 2012Applicants: Baxter Healthcare S.A., Baxter International Inc.Inventor: Robert W. Childers
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Patent number: 8147025Abstract: An image forming apparatus includes a printhead, an ink container, a sensor, a memory, and a processor. The printhead ejects droplets of ink to form an ink image. The ink container supplies ink to the printhead. The sensor detects an air leak in the ink container when an amount of air therewithin exceeds a given limit level. The memory records a count of air leaks detected by the sensor during a given counting cycle initiated at a given start time and completed following a lapse of a given period of time. The processor compares the detection count against a given threshold value upon completion of the counting cycle, and indicates a defect in the ink container when the detection count exceeds the given threshold value. A storage medium storing a computer-executable diagnostic program for use in such an image forming apparatus is also disclosed.Type: GrantFiled: March 9, 2009Date of Patent: April 3, 2012Assignee: Ricoh Company LimitedInventor: Takashi Morishita
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Publication number: 20120073359Abstract: An apparatus for use in testing a protective mask for leaks. The apparatus includes a test head assembly for supporting at least a portion of a protective mask to be tested for leaks. The test head assembly may be freestanding or it may be mounted directly on the mask tester. Preferably, the test head assembly includes a test head having a test space. The test space is operably associated with a mask tester such that a fluid from the test space is directed to the mask tester for analysis to determine if a leak exists in the mask. The test space is generally coextensive with the inner surface of the protective mask being tested. Although the test space is generally coextensive with the inner surface of the protective mask being tested, it is designed such that it has minimal volume to enhance the testing process by expediting test response time, reducing the time period it takes for a mask tester to reach one or more prerequisite test conditions (e.g.Type: ApplicationFiled: September 29, 2010Publication date: March 29, 2012Inventors: Eric Hanson, Colin Gordon Hodge, Gary Warren McCurdy, Gilbert Olvera
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Patent number: 8144021Abstract: A device for detecting the presence of bodily fluid, the device including a detector (1) means having two spaced apart electrodes (2, 3), each electrode is connected to a signal generating means via a lead (6, 7). The electrodes are encased in a flexible non-conductive material with each including at least one protruding conductive element (4). The protruding elements are separated by the same distance as the spacing between the two electrodes. The device also includes a signal processing means that detects a change of state across the electrodes produced by the introduction of a fluid and an alarm actuated by the change of state.Type: GrantFiled: May 12, 2005Date of Patent: March 27, 2012Assignees: Whalley, Robin as Trustee of the Olfarse Trust, Le Gros, Paul Donald as Trustee of the Olfarse TrustInventor: Anthony Edward Page
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Patent number: 8136602Abstract: Disclosed apparatus and methods permit well-site operators to retrofit existing wells in order to comply with local regulations that restrict the escape of annular natural gas from hydrocarbon wells. Such allows sealing around an exterior of surface and concentric production casings, both above and below the point of their intersection, then assembling a pressure vessel around that point and between those seals so as to capture and hold gas rising up an intercasing annulus, for periodic controlled venting.Type: GrantFiled: June 15, 2009Date of Patent: March 20, 2012Inventor: Barry V. Cline
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Patent number: 8132446Abstract: Disclosed herein is a property measurement apparatus including: a first plate installed in a state of being rotatable and/or vibratable; and a second plate placed to face the first plate and provided with an impedance measurement section, wherein a stress caused by a distortion generated by rotating or vibrating the first plate to serve as a distortion given to a sample provided in a gap between the first and second plates is measured, and at the same time, the impedance measurement section measures the impedance of the sample.Type: GrantFiled: May 27, 2009Date of Patent: March 13, 2012Assignee: Sony CorporationInventor: Yoshihito Hayashi
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Patent number: 8130107Abstract: A system and method for detecting leaks using sensors to report the leak and communicate with a control unit to turn off the source of the leak once detected. A valve can be turned off in the event of a leak and embodiments employing battery power can function during loss of power such as a power blackout. Wireless sensors can be employed to detect leaks that wirelessly communicate with a control and operate solely with a designated control unit. The wireless sensors can operate using low power provided by batteries. The control panel can display alarm conditions from the sensors, including: low battery, poor signal, wet sensor, communication failure, sensor failure.Type: GrantFiled: August 19, 2008Date of Patent: March 6, 2012Inventor: Timothy Meyer
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Publication number: 20120047999Abstract: An ECU determines whether condensed water is present at a rotor and vanes based on an electric current, which flows in an electric motor that drives the rotor. When the condensed water is determined to be present, the ECU drives the motor for a predetermined time period. When the condensed water is determined to be absent, the ECU stores a pressure, which is sensed through a pressure sensor, as a first pressure. The ECU is adapted to sense an abnormality in a pump characteristic based on a value of the first pressure.Type: ApplicationFiled: August 16, 2011Publication date: March 1, 2012Applicant: DENSO CORPORATIONInventors: Tomohiro ITOH, Mitsuyuki Kobayashi, Shinji Sugihara