Abstract: An electromechanical component consists of a polymeric body comprising a mechanically active part with a spring and a frame, and of a metal layer which encompasses the spring substantially completely so as to mechanically stabilize the same. The electromechanical component can be an acceleration sensor, a rotary speed sensor, a microvalve, a micropump, a pressure sensor, or a force sensor. Production of said electromechanical component incurs drastically reduced costs compared to electromechanical components produced using silicon-based technology because simple injection-moulding and/or embossing processes, instead of the complicated silicon-based technology, can be used for producing said electromechanical component.
Abstract: A low-mass pointer element for a pressure measuring mechanism is made from a lightweight plastic paper material and includes a center hub having a through aperture which is sized to accommodate a rotatable shaft end of the pressure measuring mechanism. An indicating end of the pointer element is sloped downwardly toward a dial face relative to the center hub to prevent parallax along with a counterbalancing portion. The indicating end is inwardly tapered to a flattened distal end to provide equivalent stiffness, but with considerably less mass so as to significantly reduce stress loads on a corresponding movement mechanism.
Type:
Grant
Filed:
December 23, 1999
Date of Patent:
November 11, 2003
Assignee:
Welch Allyn, Inc.
Inventors:
Raymond A. Lia, Robert L. Vivenzio, James M. Baxter, Michael Kehoskie
Abstract: A tongs monitor for monitoring the tightening of tubing, casings, and sucker rods of a well is selectively operable in a learning mode and a monitoring mode. A target tightness value is determined during the learning mode. Subsequent tightness values are then compared to the target value. For example, a first connection is tightened in a conventional manner, while its tightness is monitored during the learning mode. If the tightening process went well, then an operator pushes a button that tells the monitor to remember how tight the first connection was tightened. The tightness value of that first joint then becomes the target tightness value for any subsequent joints. As additional joints are tightened, their tightness are monitored and compared to the first one to ensure that all the joints are as good as the first one within an allowable tolerance.
Abstract: A pressure sensor is provided, in which dead space is not formed under the diaphragm so that air or fluid will not be remained in the dead space. The pressure sensor having a passage for flowing fluid from one end to the other end thereof comprises a sensor head having a pressure sensitive area responsive to the fluid pressure and a diaphragm having a pressure receiving surface for receiving the fluid pressure directly, wherein the pressure receiving surface is disposed so as to protrude to the inside of the passage, and the pressure sensitive area is disposed on the opposite surface from the pressure receiving surface of the diaphragm.
Abstract: A three-piece pressure sensor assembly includes a one-piece pressure port formed of cold rolled steel, a stainless steel sensor element having an elongated annular side-wall, and an O-ring. The pressure port has a threaded slug at one end for attaching the sensor assembly to the wall of a pressure vessel and an annular cup at the other end. The annular cup has side-walls defining a cavity, and an annular axial recess formed in the center of the cavity receives the O-ring and a lower portion of the sensor element side-wall. A central post of the pressure port supports the inner periphery of the sensor element side-wall, and a portion of the pressure port material surrounding the recess is displaced radially inward against the sensor element side-wall, staking the sensor element in the cavity and compressing the O-ring between the sensor element and the bottom of the axial recess.
Abstract: A pressure transmitter with a hermetically sealed housing surrounding a cavity that is filled with a gas that is free of integrated circuit contaminants. A sensor circuit including an integrated circuit is placed in the cavity and a gas fill port on the housing is sealed. The sensor circuit is electrically adjustable from outside the pressure transmitter and the integrated circuit is protected from contaminated atmospheres outside the pressure transmitter.
Type:
Grant
Filed:
September 22, 2000
Date of Patent:
August 26, 2003
Assignee:
Rosemount Inc.
Inventors:
Brian L. Westfield, Robert C. Hedtke, Weston Roper, Mark C. Fandrey, Roger L. Frick, Scott D. Nelson, Theodore H. Schnaare, Steven M. Behm, Mark S. Schumacher
Abstract: A semiconductor pressure sensor has a recess formed on a semiconductor substrate. The recess has a sidewall, a bottom wall that serves as a diaphragm for detecting a pressure, and a corner portion provided between the sidewall and the bottom wall and having a radius of curvature R. The radius of curvature R satisfies a formula of:
R/S=526·(d/S)2−0.037·(d/S)+a1,
where S is an area of the diaphragm, d is a thickness of the diaphragm, and a1 is in a range of 9.6×10−7 to 16×10−7 inclusive.
Abstract: A device for reducing dead space in a ventilator system has a first tube connectable to the dead space in the ventilator system for producing a flow path for the transport of gas from dead space in the ventilator system, a suction device connected to the first tube for generating an adjustable negative pressure in the first tube, a second tube connectable to dead space in the ventilator system, for producing a flow path for the transport of gas to dead space in the ventilator system, a pump connected to the second tube for generating an adjustable positive pressure in the second tube, and a control unit which regulates the suction device and the pump. The suction device and the pump are formed by a first chamber and a second chamber, respectively, in an enclosure, separated by a gas-tight, moving partition. The control unit regulates the moving partition to regulate the suction device and the pump for achieving simpler and more reliable operation.
Abstract: A universal regulator tester is disclosed wherein a bleed valve is used to exhaust pressurized gas through an exhaust passage that is designed and configured to simulate the pneumatic action of an actuation of a marker. The universal regulator tester can be used to test apparatuses with pressures up to 1200 PSI and can be used on pneumatic paintball guns, markers and similar devices.
Abstract: A method for obtaining the average ambient air pressure outside of a building places a pressure sensor on each major outside wall of the building or around the outer circumference of a one sided (e.g., round) building. The pressure reading from each pressure sensor is obtained and the pressure readings are added together to obtain a total reading. The total reading is divided by the number of pressure readings making up the total, the result being the approximate average ambient air pressure outside of the building.
Abstract: In a pressure switch, which emits an electrical switching signal as a function of the magnitude of a pressure which is supplied to it, which electrical switching signal assumes a first value when the pressure is less than the threshold value and which assumes a second value when the value is greater than the threshold value, the threshold value is adjusted—assuming that this is provided at all—by hand, for example by moving a cam disk which is coupled to a rotary knob. In order to adjust the threshold value by means of an electrical signal, the pressure is supplied to a pressure sensor, which emits an electrical output signal, which is a measure of the pressure which is supplied to the pressure sensor. The pressure switch is supplied with an electrical input signal which is a measure of the threshold value.
Abstract: A pressure transducer assembly includes a transducer member supporting a transducer element for measuring pressure within an environment. The transducer member has a sealing surface surrounding the transducer element. A housing having an integral resilient member resiliently supports the transducer member and exerts a sealing force on the transducer member against a mating member secured to the housing.
Abstract: A cap body of a synthetic resin includes a cylindrical portion having an external thread formed on its outer peripheral surface, the cylindrical portion having at its lower end a shoulder or an annular groove for receiving an O-ring. The cylindrical portion has on its inner peripheral surface an annular, internally flanged valve stopper which provides a support for a locking rib of a pressure valve. The pressure valve includes deformation slits formed along the outer periphery of a pot-shaped valve body, and a seal plate disposed on the bottom surface of the valve body.
Abstract: A method and a device are described for monitoring a sensor, in particular a sensor for measuring a pressure variable which characterizes the pressure of the air supplied to the internal combustion engine. A fault is detected if a change in an operating variable that characterizes the quantity of fuel to be injected results in no corresponding change in the output variable of the sensor.
Abstract: An apparatus for monitoring fluid pressure includes a reusable base section, and a disposable dome section detachably connected to the base section. The disposable dome section defines a fluid pathway and includes a dome viewing segment in fluid communication with a flush segment and a stopcock segment. A pressure transducer sensor is disposed in the reusable base section and is adapted to produce electrical signals proportional to fluid pressures sensed in the fluid pathway. A usage indicator can be disposed in the base section to provide a visual indication of usage of the apparatus within a predetermined number of uses. A calibration port can be provided in the base section to allow for simple calibration by the user without violating the sterility of the apparatus. The ability to reuse the base section with the sensor component reduces the cost of the apparatus, while the disposability of the dome section with the fluid pathway ensures sterility for each use.
Type:
Application
Filed:
June 26, 2001
Publication date:
December 26, 2002
Applicant:
Thermometrics, LP;
Inventors:
Carl F. Tripp, Mark A. Christensen, Eric Simon
Abstract: An in-line pressure transmitter for sensing an absolute or gage process pressure of a process fluid includes an in-line process coupling. The coupling has a mounting member which includes a substantially flat mounting face and a bore generally aligned with an isolation diaphragm assembly. The member is configured to mount to a flat process coupling.
Type:
Application
Filed:
October 23, 2001
Publication date:
December 5, 2002
Inventors:
Scott D. Nelson, Mark C. Fandrey, Paul C. Sundet, William E. Petrich
Abstract: Upward variations of a molten metal level in a container for melting metallic material shall be carried out by detecting variations of a liquid level inside a detector connected to a gas-pipeline, wherein a rise in the pipeline pressure causes the liquid level to move down. Communication is established by means of a gas-pipeline 13 for inert gas between that portion of a container for melting metallic material which is above a molten metal surface 15a and that portion of a detector 16 comprising a transparent tubular container 18 which is above a liquid surface 17a. Variations of the liquid level 17a inside the detector 16 due to a rise in the pressure inside the above-mentioned gas-pipeline 13 are detected as upward variations of the level of the molten metal surface.
Abstract: A hand pump comprises a cylinder head and a pressure gauge. The cylinder head comprises an air passage for inflating an object to be inflated. The cylinder head further comprises a receptacle communicated with the air passage. The pressure gauge is detachably engaged with the receptacle of the cylinder head. Alternatively, the pressure gauge is pivotally engaged with the receptacle of the cylinder head. A coupler may be engaged with the pressure gauge for engaging with a tire valve.
Abstract: A system for sensing respiratory pressure includes a portable pressure transducer configured to be carried by or proximate to a respiratory conduit, such as a breathing circuit or a nasal canula. The portable pressure transducer may removably couple with a pneumotach, in the form of an airway adapter, disposed along the respiratory conduit. The pneumotach may include two pressure ports positioned at opposite sides of an obstruction, which partially blocks flow through a primary conduit of the pneumotach. Corresponding sample conduits of the portable pressure transducer removably couple with the pressure ports. The pressure ports may have sealing elements which are configured to seal against piercing members of the sample conduits upon introduction of the piercing members therethrough. Upon removal of the piercing members, the sealing elements substantially reseal. Methods for using the system are also disclosed.
Type:
Application
Filed:
May 7, 2002
Publication date:
November 7, 2002
Inventors:
Joseph A. Orr, Scott A. Kofoed, Kevin Durst
Abstract: An inexpensive, accurate, and reliable semiconductor physical quantity sensor having improved resistance to noise is provided, wherein pads that have been pulled down to ground inside a semiconductor chip are arranged closer to a ground pad, while pads and that have been pulled up to a power supply inside the chip are arranged closer to a power supply pad. Of the digital input/output pads that have undergone digital trimming to obtain a predetermined output, the pulled-down pads and the ground pad are electrically connected to a ground terminal outside the chip via internal exposed portions, wires, and a ground-connecting external wire. The pulled-up pads and the power supply pad are electrically connected to a power supply terminal outside the chip via the internal exposed portions, the wires, and a power-supply-connecting external wire. Terminals may be electrically connected together on a package or a mounting substrate.
Abstract: Smart airbag systems employ a sensor bag containing an organopolysiloxane gel pressure transmission medium, transmitting pressure to one or more associated pressure sensor devices. The organopolysiloxane gel efficiently transmits pressure without leaking or extruding from the sensor bag when the latter is punctured or ruptured.
Type:
Grant
Filed:
February 26, 1999
Date of Patent:
August 13, 2002
Assignee:
Wacker Silicones Corporation
Inventors:
Benjamin D. Ray, Toby R. Vick, Wolfgang Schuett
Abstract: A system for monitoring a structure includes cavities on an outer surface and a fluid source at substantially constant pressure coupled to the cavities through high fluid impedances to create pressure differentials therebetween. A telemetry system has pressure differential switches across each of the high impedances for monitoring differential pressure changes across the impedances and providing a signal indicative of the location of the cavity associated with the high impedance across which the change is monitored. A fluid capacitance is associated with each cavity and the corresponding impedances to facilitate a transient fluid flow through the impedances.
Abstract: The invention proposes a device for measuring the pressure of blood, intended to engage with a section (16) for measuring the pressure of blood, which section comprises a membrane (38) which is axially deformable under the effect of the blood pressure and which is designed to be mounted on a support structure (20, 22) bearing especially a load sensor (26) arranged substantially facing the membrane (38), characterized in that it comprises controlled means (58) for the relative axial displacement of the sensitive member (52) of the load sensor (26), with respect to the support structure (20, 22), so that the axial position of the sensitive member (52) can be adjusted with respect to the external face (42) of the membrane (38), especially for the purpose of carrying out an initial calibration operation.
Abstract: The system includes an access assembly for communicating with the gas filled insulating units, flexible electrodes for insertion through the access assembly to the gas and for sensing the concentration of the gas, and a meter for measuring and displaying the concentration of the gas that is sensed through the electrodes.
Abstract: Pressure is sensed in blood flow tubing by placing an aqueous, preferably isotonic, substantially cell-free solution into branch connection tubing that connects in branching relation with the blood flow tubing at one end. The branch connection tubing also connects in use with a pressure transducer unit at its other end. An air volume is maintained, occupying a portion of the branch connection tubing which is adjacent to the other end. One flows positively or negatively pressurized blood through the blood flow tubing, with the result that the pressure of the blood is communicated through the aqueous solution and the air volume in the branch connection tubing to the pressure transducer unit, with the blood being spaced from the air volume. Preferably, substantially all of the branch connection tubing containing the aqueous solution and air volume has an inner diameter of substantially no more than 5 mm.
Abstract: A fuel vapor purge system is tested for abnormalities. The fuel vapor purge system includes a line that connects an intake passage of an engine to a fuel reservoir and a canister inlet valve. The fuel reservoir is sealed by closing the canister inlet valve after the engine is started when cold or before the engine is started. The pressure in the sealed reservoir is measured. The absolute value of the difference between the pressure in the reservoir and the atmospheric pressure is compared with a predetermined reference value. It is judged whether the reservoir is abnormal in accordance with the comparison. If it is determined that the reservoir is abnormal, negative pressure is applied from the air intake passage of the engine to the purge line. In this state, the fuel vapor purge line is tested for abnormalities.
Abstract: A universal regulator tester is disclosed wherein a bleed valve is used to exhaust pressurized gas through an exhaust passage that is designed and configured to simulate the pneumatic action of an actuation of a marker.
Abstract: A system and method serve for optimizing the efficiency of an oil supply having at least two different oil pressure levels. The system has at least two feed devices and at least one control slide with at least two narrowed sections. Each of the narrowed sections is assigned one of the feed devices. Depending on the position of the narrowed sections in the control slide, the respective volume flows are automatically divided into the at least two pressure levels for each of the feed devices as a function of the oil requirement in the respective pressure level.
Abstract: A system and method for integrating gas components that combines together, either in an in-line or modular fashion, at least two gas components used in a gas stick for flowing a gas from a first point to an end point. In one embodiment, the present invention can be used to combine a pressure transducer, a filter, and a display into a single unit that will reduce the gas stick size along the gas flow axis of the gas stick. The gas components can be integrated using VCR connections for an in-line use of the present invention. In the modular form, the present invention can use a number of different connections to connect the gas components vertically on a modular base block (i.e., stacked approximately perpendicular to the modular base block). Thus, the gas components will stack vertically with respect to the traditional horizontal gas flow path axis.
Abstract: A partial pressure sensor is disclosed which is suitable for determining the partial pressure of a gas or vapor in a thermally uncontrolled gas atmosphere over a large measurement range and with high measuring accuracy.
Type:
Grant
Filed:
October 11, 2000
Date of Patent:
December 4, 2001
Assignee:
Jenoptik Aktiengesellschaft
Inventors:
Manfred Schrenk, Peter Weissbrodt, Erich Hacker, Dirk Mademann
Abstract: A pressure sensor is specified which has a measuring cell (1, 46), a measuring cell mount (3, 47) and an electronic sensor system (15) connected to the measuring cell (1, 46), and which is designed as a modular unit and in which the electronic sensor system (15) and its electric connections (19) are protected against moisture and mechanical loads, in which the electronic sensor system (15) is embedded in a protective cushion (25), and in which the protective cushion (25) is surrounded by an encapsulation (27).
Type:
Application
Filed:
February 16, 2001
Publication date:
August 16, 2001
Applicant:
Endress and Hauser GmbH+Co.
Inventors:
Thomas Werner, Thomas Uehlin, Karl Flogel
Abstract: A main steam pressure disturbance preventing apparatus of a nuclear power plant including, one of a pressure detector and a water level detector provided in one of a steam system from a reactor of the nuclear power plant and a drain system connected to the steam system, an instrumentation pipe connected between one of the pressure detector and the water level detector and one of the steam system and the drain system, and catalyst installed in one of the pressure detector, the water level detector and the instrumentation pipe for recombining hydrogen and oxygen.
Abstract: A severe storm warning system includes an atmospheric pressure sensor utilizing an air-filled chamber with a first pressure sensor mounted between the interior of the chamber and the atmosphere and being located within the chamber interior and a second pressure sensor mounted between the interior of the chamber and the atmosphere and being located outside the chamber. Both sensors are formed of multiple-plate, floating plate capacitors which are movable in response to pressure changes. Electronic circuitry periodically determines what pressure changes have occurred and compares the changes to the changes associated with a predetermined signature of the type of severe storm being determined. Indicators including alarms are provided if a known sequence of pressure changes is detected.
Abstract: A pressure sensing device includes a housing having an interior sized for containing a flexible diaphragm, the deflection of which causes subsequent movement of a movement mechanism relative to an indicating dial face. The diaphragm is nonfixedly attached to the bottom side of a support plate disposed within the housing interior, in which the plate includes a center opening sized to support the movement mechanism and position an input member of the movement mechanism adjacently to the flexible diaphragm. A pressure chamber is established between the bottom of the housing and the diaphragm such that air or other fluid entering the chamber causes deflection of the diaphragm and subsequent movement of the input member. Preferably, the diaphragm is retained within a slot formed in the housing and clamped into contact with a flexible gasket and the bottom surface of the support plate.
Type:
Grant
Filed:
October 14, 1998
Date of Patent:
January 2, 2001
Assignee:
Welch Allyn, Inc.
Inventors:
Raymond A. Lia, James M. Baxter, Robert L. Vivenzio
Abstract: A sensor holding and positioning device. In one embodiment, the device includes a sensor base having two feet, the base forming a raised bridge between the two feet. The bridge has one or more cross members spanning all or part of the space between the two feet. A sensor suspension including a sensor holder and sensor-height-adjustment mechanism is coupled by a pivot-arm axle to the sensor base, such that the sensor suspension is able to rotate in an arc about the long axis of the axle. In one such embodiment, the device further includes a pressure sensor attached to the sensor holder of the sensor suspension. In another such embodiment, the sensor suspension is able to slide back and forth along a line parallel to the long axis of the axle. Another aspect is for positioning the sensor over the radial artery, for example in a human's wrist. Yet another aspect is a pulse-waveform acquisition system.
Type:
Grant
Filed:
March 20, 1998
Date of Patent:
October 17, 2000
Assignee:
Hypertension Diagnostics, Inc.
Inventors:
Charles F. Chesney, Bernard M. Graham, E. Paul Maloney, Dennis J. Morgan, Andrew L. Von Duyke
Abstract: A pressure port for attaching a stainless steel high pressure sensor to an automotive pressure line includes a cold rolled steel ring having a hex-shaped perimeter and a central bore, and a stainless steel stud welded in the ring. A flange of the stud abuts one face of the ring and an interlocking feature between the stud and the ring relieves stress on the weld during installation and removal of the assembly. An end of the stud extends beyond the ring and is threaded for attachment to the housing of a pressure vessel.
Type:
Grant
Filed:
December 5, 1997
Date of Patent:
April 18, 2000
Assignee:
Delco Electronics Corp.
Inventors:
Andres Deogracias Viduya, Paul Joseph Pitzer
Abstract: The invention relates to an electronic component manufactured in thick film technology, thin film technology or silicon technology and then provided with an electrically insulating layer which is covered by an amorphous metal layer. The amorphous metal layer protects the component, even with the smallest of layer thicknesses, from external influences and directly transmits heating and force effects.
Type:
Grant
Filed:
April 11, 1997
Date of Patent:
February 29, 2000
Assignee:
Grundfos A/S
Inventors:
Niels Due Jensen, Tina Romedahl Brown, Karsten Dyrbye, Per Ellemose Andersen
Abstract: A fluid-filled pipe is investigated by a non-intrusive procedure to determine whether the fluid is liquid or gaseous, whether it is flowing or static, the direction of flow if it is flowing, the approximate pressure if it is a gas, and the rate of flow if it is a gas. The results are obtained by applying a heater to the surface of the pipeline and measuring the upstream and downstream temperatures of the surface of the pipe wall before and after the beginning of the application of heat. Some of the data generated is compared with data from another source to assist in the determination of the characteristics to be ascertained.
Type:
Grant
Filed:
December 16, 1996
Date of Patent:
November 9, 1999
Assignee:
Columbia Gas of Ohio
Inventors:
Foster B. Stulen, Susan T. Brown, Glenda S. Holderbaum, David B. Philips, Arthur C. Eberle
Abstract: The invention relates to a pressure switching device of the type used in motor vehicles and includes a pressure sensor 21 arranged in a housing 3, which generates an electrical signal U according to the pressure p of a pressure medium or monitored fluid transmitted through a supply opening 15 of housing 3. The pressure switching devices includes an interpretation and switching unit 55 adapted to received the electrical sensor signal U and is further adapted to compare the sensor signal with at least one switching threshold value to trigger a switching function or a sequence of switching functions upon the electrical sensor signal exceeding and/or falling short of the switching threshold value.
Abstract: An apparatus is provided for detecting the pressure of a fluid. The device includes a device for detecting the pressure of a fluid comprising (a) a housing; (b) a first conduit disposed within the housing, having an open inlet end, and an outlet end; (c) a second conduit disposed within the housing having an inlet end and an open outlet end; and (d) a pressure detector disposed within the housing in abutment with the outlet end of the first conduit and the inlet end of the second conduit, such that the pressure detector is in direct operative contact with a fluid flowing within the first and second conduits. Typically, the pressure detector is a pressure transducer. Preferably, the pressure transducer is located within the body, such that the first conduit is disposed at an angle with respect to the pressure sensitive surface of the transducer, the angle being between about 50.degree. and about 75.degree., most preferably between about 65.degree. and about 70.degree..
Type:
Grant
Filed:
November 12, 1996
Date of Patent:
August 24, 1999
Assignee:
Beckman Instruments, Inc.
Inventors:
William M. Robins, Donald P. Labriola, II, John W. Strom
Abstract: Gas pressure in a chamber is determined by injecting alpha particles. The alpha particles ionize the gas. By determining a number of gas ions which are ionized, the pressure of the gas in the chamber can be determined.
Type:
Grant
Filed:
May 30, 1997
Date of Patent:
July 20, 1999
Assignee:
California Institute of Technology
Inventors:
Martin G. Buehler, L. Douglas Bell, Michael H. Hecht
Abstract: A dodge plunger, a nozzle spring, and a needle valve are received in a main body of a fuel injection nozzle in this order forwardly. The first fuel passage and the second fuel passage are formed in the main body. A distal end of the first fuel passage faces the needle valve, and a basal end thereof is open to a basal end face of the main body. A distal end of the second fuel passage faces the dodge plunger, and a basal end thereof is open to the basal end face of the main body. The basal ends of the first and second fuel passages are away from and independent of each other on the basal end face of the main body. A plug is attached to the basal end of the main body. A third fuel passage is formed in this plug. A distal end of the third fuel passage is in communication with the basal ends of the first and second fuel passages. The basal ends of the first and second fuel passages are in communication with each other only through the distal end of the third fuel passage.
Type:
Grant
Filed:
November 15, 1996
Date of Patent:
December 1, 1998
Assignee:
Zexel Corporation
Inventors:
Fumitsugu Yoshizu, Koji Kugimiya, Hiroaki Nozaki
Abstract: An audible waveform system is provided that senses a parameter relating to the ventilation of a patient. The system produces short bursts of sound of a predetermined frequency as the changes occur in that parameter based on certain increments of change. The bursts themselves are preferable at a frequency that is the same for equal pressures but increases and decreases in frequency as the parameter increases or decreases, respectively. In the preferred embodiment, the system provides an audible waveform based on the pressure in the patient airway so that the clinician can receive information relating to that waveform conveniently and without taking attention away from other monitors and/or alarms.
Abstract: The present invention provides pressure measuring devices comprising a sensor to detect the force upon at least a portion of a contact surface of a syringe plunger during pressurization of a fluid medium within the syringe. A determination of the pressure of the fluid medium within the syringe is thereby enabled.
Type:
Grant
Filed:
May 12, 1997
Date of Patent:
September 15, 1998
Assignee:
Medrad, Inc.
Inventors:
William J. Nolan, Jr., Kevin P. Cowan, Alan D. Hirschman, David M. Reilly, Frederick W. Trombley, III, David M. Griffiths
Abstract: A lead frame includes a die pad having a plurality of die pads including a main die pad and an auxiliary die pad respectively supported by a main die pad supporting lead and an auxiliary die pad supporting lead extending inwardly from opposite sides of a planar annular frame, thereby inhibiting vertical movement of the die pad to which a load member is die-bonded. This support prevents deformation and breaking of wires bonded to the load member and the lead frame.
Abstract: A compression stroke indicator including an indication mechanism adapted to signal a user upon the application of pressure thereto. Further provided is an elongated elastomeric hose connected at a first end thereof to the indication mechanism. Also included is at least one hollow hose fittings having a first end connected to a second end of the elastomeric hose. Each hollow hose fitting further has threaded grooves formed in a second end thereof for allowing the screwable coupling of a second end thereof to a spark plug aperture of a combustion engine. Upon a pressure being applied to the hose by the engine, the indication mechanism signals a user.
Abstract: A method for non-invasively monitoring a pressure of a compressed gas inside a closed container includes: forming a magnetic circuit through a portion of the outside wall of the container; detecting magnetic flux amplitude changes in the magnetic circuit created by a transient stress in the outside wall of the container; producing data representing the magnetic flux amplitude changes; and monitoring pressure changes from a nominal pressure by evaluating the data representing the magnetic flux amplitude changes.
Type:
Grant
Filed:
October 28, 1996
Date of Patent:
May 5, 1998
Assignee:
Temic Bayern-Chemie Airbag GmbH
Inventors:
Hegeon Kwun, Michael Allen Piskie, Tony Gioutsos
Abstract: Pressure gauge for very high pressures based upon a principle similar to the Bourdon tube, comprising a beam-shaped measuring element having an elongate cavity lying eccentrically in the cross section of the measuring element, and being supported by a holder member at one end. The measuring element is composed of two substantially plate-shaped parts manufactured in planar technology, preferably of silicium or quartz. One plate part is provided with an elongate recess in that surface which faces against a cooperating surface on the other plate part, so as to form the eccentric cavity. Both plate parts are jointed at the surfaces in such a manner that the cavity is sealingly closed. The measuring element is adapted to be subjected exteriorly to the very high pressures to be measured.
Type:
Grant
Filed:
December 9, 1996
Date of Patent:
April 28, 1998
Assignee:
Sinvent A/S
Inventors:
Anders Hanneborg, Fin Serck-Hanssen, Per Ohlckers
Abstract: A pressure gauge includes a base portion on which a cap is mounted, the base portion having a first indicating needle rotatably disposed to a center thereof, a frame disposed to the base portion and having two tubes extending therefrom, two activating bars and a second indicating needle mounted to the two tubes, each of the two activating bars having an extending plate pivotally connected thereto, the cap having a setting device disposed thereto so as to rotate the second indicating needle together with a higher extending plate, the lower extending plate together with the first indicating needle moved to a position where the lower extending plate is magnetically connected to the higher extending plate so as to stop an increment of a pressure.
Abstract: A fluid-filled pipe is investigated by a non-intrusive procedure to determine whether the fluid is liquid or gaseous, whether it is flowing or static, the direction of flow if it is flowing, the approximate pressure if it is a gas, and the rate of flow if it is a gas. The results are obtained by applying a heater to the surface of the pipeline and measuring the upstream and downstream temperatures of the surface of the pipe wall before and after the beginning of the application of heat. Some of the data generated is compared with data from another source to assist in the determination of the physical characteristics to be ascertained.
Type:
Grant
Filed:
June 20, 1994
Date of Patent:
July 8, 1997
Assignee:
Columbia Gas of Ohio, Inc.
Inventors:
Foster B. Stulen, Susan T. Brown, Glenda S. Holderbaum, David B. Philips, Arthur C. Eberle