| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 073861520 | With restriction | 74 |
| 20090090195 | Differential pressure means for a gas meter arrangement, comprising an improved flow geometry - A differential pressure system and a gas meter arrangement for precisely measuring a gas consumption by a gas meter is provided. A previously known gas meter is disposed in a bypass comprising a differential pressure system in the gas pipe for measuring a volumetric flow rate inside the gas pipe. The differential pressure system includes flow ducts having decreasing diameters as the radial position increases starting from a central axis of the differential pressure system. Examples of execution include inlet ports and/or outlet ports of the flow ducts which are provided with a specific countersink angle (α), and an equidistant, concentric arrangement of flow ducts on the cross-sectional area of the differential pressure system. This has the advantage of increasing the differential pressure at a low volume flow rate, reducing the differential pressure at a high volume flow rate, and generally creating an improved linearity across the entire measurement range between the volume flow rate in the bypass and the volume flow rate in the gas pipe, among other advantages. | 04-09-2009 |
| 20100071478 | Liquid Flow Detector and Transfusion Line Provided with Same - An upstream hole is formed at the upstream end of a detector main body of a liquid flow detector for detecting liquid flow, and a downstream hole is formed at the downstream end, with a liquid flow channel comprising a liquid flow detection channel, discharge channel, and, optionally, intermediate flow channel, being formed between the upstream hole and downstream hole. A mobile body which is optionally, spherical, moves with the flow of liquid, and is arranged inside the liquid flow channel. The diameter of the liquid flow detection channel is smaller than the diameter of the discharge channel, and the diameter of the mobile body is slightly smaller than the diameter of the liquid flow detection channel. The shape of the peripheral edge part of the upstream hole and the downstream hole is optionally elliptical. | 03-25-2010 |
| 20100242622 | ARRANGEMENT FOR IMPROVING ACCURACY OF PRESSURE MEASUREMENT AND FLOW SENSOR - An arrangement for improving an accuracy of a pressure measurement made of a breathing gas including drops of water or humidity flowing along a flow channel is disclosed herein. The arrangement includes at least one pressure measuring channel to transmit a pressure of the breathing gas flowing along the flow channel to a measuring device to make the pressure measurement. The pressure measuring channel is equipped with a capillary material enabling capillary suctioning of water. Also a flow sensor for a flow rate measurement of a breathing gas including drops of water or humidity is provided. | 09-30-2010 |
| 20100263455 | FLUID FLOW DETECTOR - A fluid flow detector includes a detector main body defining a fluid flow channel having a fluid flow detection channel positioned adjacent an upstream hole and a discharge channel positioned adjacent a downstream hole. A mobile body is positioned within the fluid flow channel and dimensioned to be movable along the fluid flow channel. The diameter of the fluid flow detection channel is smaller than the diameter of the discharge channel, and the maximum diameter of the outer peripheral edge part of the face of the fluid flow channel orthogonal to the direction of movement of the mobile body is slightly smaller than the diameter of the fluid flow detection channel. The upstream hole and the downstream hole are formed with a size and shape such that fluid can flow through the upstream and downstream holes without being obstructed by the mobile body. | 10-21-2010 |
| 20120055266 | Method of Evaluating Grease amd Extrusion Die for the Method - A method of measuring a characteristic property of grease includes pushing a constant volumetric flow of grease through an extrusion die and measuring the force needed to extrude the grease from the die. The die includes a flow restriction that increases the force required to flow the grease. | 03-08-2012 |
| 20120222494 | DIFFERENTIAL PRESSURE BASED FLOW MEASUREMENT - A system for measuring flow of process fluid through process piping in an industrial process includes a flow restriction element in the process pipe. A first differential pressure transmitter is configured to measure a first differential pressure across the flow restriction element in response to flow of process fluid. A second differential pressure transmitter configured to measure a second differential pressure in the process fluid across the flow restriction element. Circuitry performs diagnostics based upon the first differential pressure and the second differential pressure. | 09-06-2012 |
| 20120297893 | FLOW MEASUREMENT DEVICES HAVING CONSTANT RELATIVE GEOMETRIES - Systems and methods are disclosed for differential pressure meters having a constant beta edge boundary defined by fluid displacement members of the meter. In some embodiments, a differential pressure meter may have an interchangeable fluid displacement member, such that each fluid displacement member replaced in the meter maintains a constant beta edge boundary. In other embodiments, a family of differential pressure meters having permanent fluid displacement members may maintain a constant beta edge boundary for each meter of the family of differential pressure meters. | 11-29-2012 |
| 20130213142 | PRESSURE DIFFERENTIAL FLOW METER INCLUDING A CONSTRICTION DEVICE THAT CAN CREATE MULTIPLE AREAS OF CONSTRICTION - A pressure differential flow meter for determining the flow rate of a fluid comprises a constriction device, wherein the constriction device is capable of creating at least a first area of constriction and a second area of constriction having cross-sectional areas that are different, wherein the constriction device automatically moves from the first area of constriction to the second area of constriction when the pressure differential increases above or falls below a predetermined range, and wherein the pressure differential is based on the fluid velocity of the fluid flowing in the flow meter. A method of determining the flow rate of a fluid using the pressure differential flow meter comprises flowing the fluid through the flow meter. | 08-22-2013 |
| 20140060206 | MICROFLOWMETER AND METHOD FOR MAKING SAME - A flowmeter includes a first chamber and a second chamber connected through a channel. The first chamber is provided with a first deformable membrane and with first and second gauges. The second chamber is provided with a second deformable membrane and with third and fourth gauges. The four gauges form a Wheatstone bridge. | 03-06-2014 |
| 20140069209 | ANGLED PORT DIFFERENTIAL PRESSURE FLOW METER - An aspect provides a flow metering apparatus, comprising: a fluid conduit having a differential pressure producer therein; at least one pressure port angled between 0 and 90 degrees in a wall of the fluid conduit; and at least one other pressure port; wherein the at least one pressure port and the at least one other pressure port provide pressure signals. Other aspects are described and claimed. | 03-13-2014 |
| 20140331786 | DIFFERENTIAL PRESSURE FLOW SENSOR - A differential pressure flow sensor that includes a plurality of channels divided into multiple sets of channels having different characteristics. Primary channels establish fluid communication between an inlet and an outlet of the flow sensor. Secondary channels establish fluid communication between the inlet and a first pressure port, but not the outlet. Tertiary channels establish fluid communication between the outlet and a second pressure port, but not the inlet. Signals generated at the first and second pressure port are used to determine a rate of flow through of gas through the sensor. Due to the structural features of the device, the phase delay of individual oscillatory flow components compared to corresponding oscillatory pressure components remains substantially constant across a wide range of flow rates. | 11-13-2014 |
| 20150143920 | METHOD OF ASSESSING AND CONDITION MONITORING OF FLUID CONDUITS AND APPARATUS THEREFOR - A method of and apparatus for assessing the condition of a fluid conduit. The method comprises providing a measurement apparatus comprising a measurement region in fluid communication with the fluid conduit. The measurement apparatus is operable to measure at least one of pressure and flowrate in the measurement region. A pressure surge is effected or generated to propagate in the fluid conduit, and at least one of a pressure response or a flowrate response from the fluid conduit is measured. From a pressure data set and a flowrate data set, a data set representative of the cross sectional area along the fluid conduit is determined. This enables average or over all area profiles along long fluid pipelines to be deduced. | 05-28-2015 |
| 073861530 | Automatically variable restriction | 7 |
| 20090205440 | Device for indicating and regulating the flow volume in a fluid circuit of a heating or cooling system - A device for indicating and regulating the flow volume in a fluid circuit of a heating or cooling system is provided. The device includes a housing having a lower valve part, a conical bore, and a sealing seat. The device further includes an indicating element having a hollow-cylindrical inspection glass with a closed end, an open end, an indicator plunger axially movable therein and stressed by means of a spring. A regulating cone is attached to the open end of the inspection glass, whereby the free end of the indicator plunger is guided through the regulating cone and bears a flow body immersed in the conical bore. Also, the regulating cone has slots distributed at the periphery and extending to the indicator plunger. | 08-20-2009 |
| 20110283810 | Apparatus and method for measuring a quantity of milk yielded by an animal during a milking process - An apparatus for measuring a quantity of milk yielded by an animal during a milking process comprises a container, a supply unit, a discharge unit, a filling level measuring device, a control unit and an evaluation unit. The supply unit is configured to feed milk into the container and can be connected to the milking unit of a milking machine. The discharge unit is configured to discharge milk from the container and can be connected to the milking line of the milking machine, which is adapted to have applied thereto a milking vacuum. The discharge unit comprises the means for changing the size of a discharge opening through which the milk flows when it is being discharged from the container. The discharge opening allowing milk to flow through the discharge opening can be adjusted to at least two sizes. The filling level measuring device is configured to measure a filling level of the milk in the container. The control unit is configured to control the means for changing the size of the discharge opening in dependence on the milk level in the container determined by the filling level measuring device, in order to adjust a size of the discharge opening such that the filling level remains within a predetermined range. The evaluation unit is configured to calculate a milk flow into the container on the basis of the set size of the discharge opening and of the filling level measured by the filling level measuring device. | 11-24-2011 |
| 073861550 | Cone and ball or disk | 4 |
| 20090165566 | Fluid flow meter and mixer - Fluid flow apparatus, such as a fluid flow meter, a fluid mixing device or a fluid dispersing device, includes a fluid displacement member ( | 07-02-2009 |
| 20160195414 | ROTAMETER WITH INTEGRATED VALVE | 07-07-2016 |
| 073861570 | With structure of float, float tube, or float guide | 2 |
| 20110088485 | Light Enhanced Flow Tube - An improved fluid flow gauging device includes a light enhanced acrylic block flow tube to optimize visualization of pressure readings. An LED or other light source is fitted to the top of the flow tube and illuminates a float or bobbin from above to provide more accurate readings, especially in low light conditions such as modern operating rooms. In addition, the light enhanced flow tube provides a mechanical backup in the case of failure of newer electronic systems and visually matches the graphical flow display, simultaneously providing a double-check of the electronic system. | 04-21-2011 |
| 20110265579 | Flow meter - A flow meter having a magnetic base sensor for electrical feedback of flow rate is disclosed. A float rod carrying an indicator and a magnet moves within the flow meter body with and the flow being visually read and electronically read. | 11-03-2011 |
| 073861580 | Orifice and tapered plug | 1 |
| 20110247431 | Cartridge Flow Transducer - There is provided a flow transducer and method to sense flow of a fluid. The flow transducer includes a housing defining an internal passage way therethrough. A flow rate apparatus is disclosed in the internal passageway. The proximity sensor is coupled to the housing, with the proximity sensor aligned radially with the flow rate apparatus. A pair of annular conductor-insulator assemblies are coupled to an outer surface of the housing, with each conductor in electrical communication with the proximity sensor. A cap is coupled to the housing and is configured to axially secure the conductor-insulator assemblies to the housing, with the cap defining an orifice axially aligned with the internal passageway. The proximity sensor is configured to produce an electrical signal as the flow rate apparatus rotates past the proximity sensor, the electrical signal corresponding to the flow of the fluid through the flow transducer. | 10-13-2011 |
| 073861610 | Orifice or flow nozzle | 39 |
| 20080210017 | Orifice Member, and Differential-Pressure Flow Meter and Flow-Regulating Apparatus Using the Same - Provided are an orifice member, and a differential-pressure flow meter and a flow-regulating device using the orifice member, that allow purging to be carried out easily when changing the fluid to be circulated, that are less likely to cause contamination and leaching of impurities to the circulated fluid, and that can be easily produced. The flow-regulating device includes a first pressure-measuring device (object to be connected to) that is connected to one end of the orifice member, and a second pressure-measuring device (object to be connected to) that is connected to the other end of the orifice member, and a flow-regulating valve that is connected to the downstream side of the differential-pressure flow meter, which includes the above-mentioned units. In the orifice member, a tube portion, one end of which is connected to the first pressure-measuring device and other end of which is connected to the second pressure-measuring device and whose internal part forms a channel connecting the first and second pressure-measuring devices, and an orifice provided inside the tube portion are integrated. | 09-04-2008 |
| 20080307896 | Locating Of Pressure Taps On Face Of Orifice Plate Device - A process flow device that includes a self-averaging orifice plate type of primary flow element with a high pressure tap located on or incorporated into its upstream surface, and a low pressure tap located on or incorporated into its downstream surface, for measuring, by a differential pressure process, the volumetric rate of fluid flow at a point in a fluid carrying conduit where the velocity profile of the fluid is asymmetric with respect to the longitudinal axis of the conduit. The improved pressure tap configuration consists of two fluid conduits, one carried by each of the downstream and upstream faces of the orifice plate, establishing fluid communication between openings in the downstream and upstream faces of the orifice plate and their respective terminal pressure ports. Location of the pressure taps on the faces of the orifice plate in this manner allows for increased resolution of the pressure signals by minimizing the effects of upstream pipe flow disturbances on pressure taps used in conjunction with conditioning orifice plate primary flow elements, especially those with higher beta ratios. | 12-18-2008 |
| 20090056472 | ADAPTOR FOR FLOW SENSOR - In an adaptor for a flow sensor, a tubular body is adapted to allow respiratory gas to pass through. At least one fluid-resistant member is disposed in the tubular body. At least two pairs of first passages are formed in the fluid-resistant member and adapted to lead out pressures at two positions in the tubular body which are to be detected by the flow sensor. | 03-05-2009 |
| 20090064794 | FLOW SENSOR WITH DOUBLE OBSTRUCTION - The present invention refers to a flow sensor with double obstruction disclosing a simple and innovative structure, able to promote a series of advantages and new technical effects from the combination of fixed and variable obstruction elements. More particularly, the present invention comprises a front main body ( | 03-12-2009 |
| 20090139346 | PROCESS FLUID PRESSURE TRANSMITTER WITH PRESSURE TRANSIENT DETECTION - A process fluid pressure transmitter includes a process fluid pressure sensor, measurement circuitry, a controller and a loop communicator. The process fluid pressure sensor has an electrical characteristic that varies with process fluid pressure. The pressure sensor is coupleable to a source of process fluid pressure. The measurement circuitry is coupled to the process fluid pressure sensor and provides a signal indicative of the electrical characteristic of the process fluid pressure sensor. The controller is coupled to the measurement circuitry and receives the signal and calculates a process fluid pressure based at least in part upon the signal. The controller is also configured to detect a process fluid pressure transient and store at least one parameter related to the process fluid pressure transient. The loop communicator is coupled to the controller and is configured to provide a signal over a process communication loop based upon the process fluid pressure. The process fluid pressure transmitter is also configured to provide an indication related to the at least one stored parameter. | 06-04-2009 |
| 20090199656 | SYSTEMS AND METHODS FOR MANAGING PRESSURE AND FLOW RATE - A device for controlling fluid flow pressure and flow rate is disclosed. The device includes a first orifice plate, a second orifice plate housed in a tubular structure. The first orifice plate includes a first orifice of a first diameter (d | 08-13-2009 |
| 20090211369 | SONAR CIRCUMFERENTIAL FLOW CONDITIONER - Methods and apparatus enable measuring flow of a fluid within a conduit. For example, flowmeters may measure the velocity of production fluid flowing through production pipe of an oil/gas well. The flowmeters rely on detection of pressure variations generated as a result of a backward-facing step as a basis for flow measurement calculations. Pressure sensing occurs away from the step in a direction of the flow of the fluid in an enhanced turbulence region of the flowmeter where the inner diameter remains enlarged as a result of the step. | 08-27-2009 |
| 20090211370 | Extractive Probe for Hot Flue Gas and Process Measurement - Methods and apparatus for extracting gas samples from a particle-laden fluid stream are disclosed. An exemplary sampling probe apparatus includes a probe head having an upstream face and a downstream face, an intake orifice inwardly tapering from the upstream face into a central bore region of a cavity within the probe head, and an outlet orifice outwardly tapering from said central bore region to the downstream face, so as to permit fluid gas flow through the central bore region of the cavity. A filter device disposed within the cavity of the probe head extends between the intake orifice and the outlet orifice so as to divide a low-pressure sampling region of the cavity from the central bore region. A sampling tube in fluid communication with the low-pressure sampling region provides for extracting gas samples from the low-pressure sampling region of the cavity. | 08-27-2009 |
| 20090235757 | Conditioning Orifice Plate With Pipe Wall Passages - An element of an averaging orifice plate fluid flow meter for measuring the volumetric rate of fluid flow in a conduit having an interior circumference for carrying a flow of fluid comprising, a planar flow impedance plate for disposition transversely across the interior of the conduit and perpendicular to the fluid flow, a plurality of spaced apart orifices disposed in the plate where the profile of each orifice is a segment of a circle on an arc where the arc is coincident with a portion of the interior circumference of the conduit. | 09-24-2009 |
| 20090288497 | CASSETTE FOR DIFFERENTIAL PRESSURE BASED MEDICATION DELIVERY FLOW SENSOR ASSEMBLY FOR MEDICATION DELIVERY MONITORING AND METHOD OF MAKING THE SAME - A disposable assembly for use with a sensor assembly, and method for making the same, the disposable comprises a body, a flow restricting element, and a fluid pressure membrane. The body has a lid portion and a base portion. The body defines a fluid flow passage that forms an inlet and an outlet. The flow restricting element is positioned along the fluid flow passage between the inlet and the outlet. The fluid pressure membrane is at a location in the fluid flow passage between the inlet and the outlet. The fluid pressure membrane defines an opening for receiving the flow restricting element. The fluid pressure membrane is located between the lid portion and the base portion of the body. | 11-26-2009 |
| 20090293636 | FLOW SENSOR - A flow sensor includes a detector provided on a side surface of a body formed in a tubular shape. First and second passages formed in the interior of the body communicate with an introduction passage of the detector via first and second sensor passages. The first and second sensor passages penetrate through and open respectively on first and second projections, which project at predetermined heights from an inner circumferential surface of the body, communicating with the first and second passages. A fluid, which flows from the first passage and into the first sensor passage, after being guided to the introduction passage and the flow rate thereof detected by a detector, flows through the second sensor passage and into the second passage. | 12-03-2009 |
| 20100000332 | Orifice Fitting With a Drainage System - An orifice fitting having a drainage system. In some embodiments, the orifice fitting includes a housing having a chamber therein, a flow path extending through the chamber, an orifice plate moveable between a first position in the flow path and a second position outside of the flow path, and a rotatable shaft extending through the housing into the chamber. The shaft has a flowbore extending between a first fluid inlet in fluid communication with the chamber and a fluid outlet formed adjacent the end of the shaft. | 01-07-2010 |
| 20100005904 | DIFFERENTIAL-PRESSURE FLOW METER AND FLOW-RATE CONTROLLER - A differential-pressure flow meter is capable of easily eliminating adhesion to an orifice of an extraneous material. The differential-pressure flow meter includes: a pair of pressure sensors provided on a straight pipe part of a main fluid channel; an orifice unit interposed between the pair of pressure sensors; a columnar orifice body provided on the main fluid channel to be detachable in a direction orthogonal to a flow direction of a fluid in the main fluid channel; and an orifice hole penetrating the orifice body in the flow direction of the fluid, wherein the orifice body is rotatable at a prescribed installation position to reverse an upstream side and a downstream side with respect to the orifice hole, and flow rate measurement is performed by converting into a flow rate a difference in pressure that is obtained from two pressure values sensed respectively by the pair of pressure sensors. | 01-14-2010 |
| 20100018325 | SONAR CIRCUMFERENTIAL FLOW CONDITIONER - Methods and apparatus enable measuring flow of a fluid within a conduit. For example, flowmeters may measure the velocity of production fluid flowing through production pipe of an oil/gas well. The flowmeters rely on detection of pressure variations generated as a result of a backward-facing step as a basis for flow measurement calculations. Pressure sensing occurs away from the step in a direction of the flow of the fluid in an enhanced turbulence region of the flowmeter where the inner diameter remains enlarged as a result of the step. | 01-28-2010 |
| 20100050782 | Simplified Flow Meter with Improved Accuracy - A flow meter device that features a way to obtain an accurate differential pressure across an orifice body situated in line with the flow of gas and liquids. The orifice body is held in place by sealing components integrated into the orifice body. The differential pressure is sensed via openings incorporated into the body of the device, upstream and downstream of the orifice body. The device with its improved accuracy may be used for small and large applications measuring flow. The device | 03-04-2010 |
| 20100077866 | TILT SENSOR FOR USE WITH PROXIMAL FLOW SENSING DEVICE - A tilt sensor is provided that is generally adapted to detect tilted and non-tilted stated of an object associated therewith, which in some cases is a ventilation circuit component. The tilt sensor may correspond to a pneumatically operated tilt sensor that can be used in conjunction with a ventilator to help prevent compromised measurements from certain elements which can be used in a ventilator patient circuit. | 04-01-2010 |
| 20100275702 | ROTARY VALVE - Systems and methods for metering fluid flow are disclosed. A valve may generally include an orifice plate, and a disc positioned adjacent to the orifice plate. An orientation of the disc relative to the orifice plate is adjustable to regulate a fluid flow rate through the valve. An effective area of an aperture in the orifice plate may be manipulated to adjust the fluid flow rate. In some configurations, the valve may provide sonic flow control or differential pressure regulation. In some applications, a controller may adjust the orientation of the disc relative to the orifice plate to maintain a substantially constant pressure drop across the orifice plate in order to determine a fluid flow rate through the valve. | 11-04-2010 |
| 20110000312 | FLOW MEASURING DEVICE - A flow measuring device has a flow channel block including a main flow channel whose both ends are open, and an auxiliary flow channel that branches from the main flow channel, a flow amount measurement element provided for the auxiliary flow channel, and a branch entrance and a collection exit that open in a wall surface of the main flow channel, and that communicate to the auxiliary flow channel, so that a part of a gaseous body that flows through the main flow channel is directed to the auxiliary flow channel through the branch entrance, and the gaseous body that has passed through the auxiliary flow channel is directed back to the main flow channel through the collection exit. A holding member containing portion is provided in a depressed manner for an area excluding an area including the branch entrance and an area including the collection exit in a circumference surface of a space of the flow channel block that configures the main flow channel. An orifice is contained within the main flow channel. An orifice holding member fitted into the holding member containing portion holds the orifice by being brought into contact with the orifice. The wall surface of the main flow channel is configured by a wall surface excluding the area for which the holding member containing portion is formed out of the main flow channel and an inner surface of the orifice holding member. | 01-06-2011 |
| 20110000313 | DIFFERENTIAL FORCE SENSOR - A differential force sensor method and apparatus for automatically monitoring manual injections through an intravenous line. The differential force sensor includes two piezoresistive sense die that are packaged in close proximity utilizing a number of packaging processes. The two piezoresistive sense die can be utilized to measure forces exerted on a diaphragm on either side of an orifice. The piezoresistive sense die can be packaged in close proximity to make intimate contact with the diaphragms on either side of the orifice. The differential force sensor further includes two plungers that make intimate contact with the diaphragm and transfer the force into the piezo-resistive sense dies. Additionally, one or more ASICs and microcontrollers can be utilized to provide thermal calibration and differential calculation. | 01-06-2011 |
| 20110005336 | Apparatus and method for operation in the laminar, transition, and turbulent flow regimes - An apparatus for determining fluid flow in a pipe apparatus includes a fluid nozzle in contact with the pipe having a contour without negative pressure gradients along the nozzle's surface as fluid flows through the nozzle. The apparatus includes a transit time ultrasonic flow meter employing at least one acoustic path in communication with the fluid in the pipe and disposed downstream of the nozzle. An apparatus for determining fluid flow in a pipe. The apparatus includes a fluid nozzle in contact with the pipe having a contour defined by a compound cubic. The present invention includes a transit time ultrasonic flow meter employing at least one acoustic path in communication with the fluid in the pipe and disposed downstream of the nozzle. A fluid nozzle for a pipe. A method for determining fluid flow in a pipe. | 01-13-2011 |
| 20110083516 | RECIRCULATION TYPE OSCILLATOR FLOW METER - The present invention discloses a recirculation type hydrodynamic oscillator flow meter for measuring the flow of fluids such as gas, air, water and oil, flowing through a conduit. This flow meter gives very accurate measurements over a long period of time since piezoelectric sensors are employed. The principle of working of this hydrodynamic oscillator flow meter is the generation of a self induced jet where the frequency of oscillations of the fluid jet is proportional to the flow rate. | 04-14-2011 |
| 20110239782 | METHOD AND SYSTEM FOR MEASUREMENT OF A FLOW RATE OF A FLUID - A system for measuring a flow rate of a fluid through a plurality of tubes sharing a common flow orifice, the system includes an ultrasonic transducer having a plurality of sensors in communication with a plurality of tubes sharing a common flow orifice. The system includes an electronic module coupled to the ultrasonic transducer, the electronic module connecting selected sensors to a flow rate analyzer for determining a flow rate of fluid through the plurality of tubes on which the sensors are in communication with. | 10-06-2011 |
| 20120222495 | FLOW MONITORED PARTICLE SENSOR - Provided are devices and methods for monitoring flow rate in aerosol particle counters. The particle sensor has a particle counter, a flow measurement orifice comprising a differential pressure sensor for measuring differential pressure (DP) across the flow measurement orifice during particle sensor operation and a critical flow orifice. A vacuum source pulls ambient gas through each of the particle counter, flow measurement orifice and critical flow orifice. An atmospheric pressure sensor measures atmospheric pressure (AP) and a bench pressure sensor measures pressure in the particle sensor (BP). The output from the sensors is used to identify a flow condition, such as by a monitor operably connected to each of the differential pressure sensor, atmospheric pressure sensor and bench pressure sensor. In this manner, deviation in flow rate from a target flow rate is readily monitored without the need for expensive sensors or other flow-controlling components. | 09-06-2012 |
| 20130327157 | PROCESS FLUID FLOW TRANSMITTER WITH FINNED COPLANAR PROCESS FLUID FLANGE - A process fluid pressure measurement system is provided. The system includes a process fluid pressure transmitter having a pair of process fluid ports disposed coplanar with one another on a bottom surface thereof. The process fluid pressure transmitter is configured to measure a differential pressure between the pair of process fluid ports and provide an indication of the measured differential pressure over a process communication loop. A process fluid flange has a first surface configured to mount to the surface of the process fluid pressure transmitter, a second surface opposed to the first surface, and at least one lateral sidewall extending between the first and second surface. A plurality of fins are disposed proximate the lateral surface. | 12-12-2013 |
| 20140033828 | METHODS FOR VERIFYING GAS FLOW RATES FROM A GAS SUPPLY SYSTEM INTO A PLASMA PROCESSING CHAMBER - Methods of measuring gas flow rates in a gas supply system for supplying gas to a plasma processing chamber are provided. In a differential flow method, a flow controller is operated at different set flow rates, and upstream orifice pressures are measured for the set flow rates at ambient conditions. The measured orifice pressures are referenced to a secondary flow verification method that generates corresponding actual gas flow rates for the different set flow rates. The upstream orifice pressures can be used as a differential comparison for subsequent orifice pressure measurements taken at any temperature condition of the chamber. In an absolute flow method, some parameters of a selected gas and orifice are predetermined, and other parameters of the gas are measured while the gas is being flowed from a flow controller at a set flow rate through an orifice. In this method, any flow controller set point can be flowed at any time and at any chamber condition, such as during plasma processing operations. Gas supply systems are also disclosed. | 02-06-2014 |
| 20140083203 | POSITION DETECTING DEVICE - A position detecting device is equipped with a device main body into which a pressure fluid supplied from a pressure fluid supply source is introduced, and an attaching/detaching mechanism that enables attachment and detachment with respect to the device main body. The attaching/detaching mechanism includes an internal nozzle that delivers, toward the side of a detection nozzle, the pressure fluid supplied to the device main body, and a detection port that supplies, to the detection nozzle, the pressure fluid delivered from the internal nozzle. | 03-27-2014 |
| 20140137663 | VALVE BALL FOR DIRECT FLOW MEASUREMENT - A valve includes a body having an upstream port to measure upstream pressure and a downstream port to measure downstream pressure, both ports configured re a common axis, and includes a ball arranged in the body to rotate re the common axis between open and closed positions to allow for fluid flow/non-fluid flow. The ball has a calibrated member having a calibrated orifice to allow fluid flow and has a flow coefficient, an upstream pressure tap located upstream of the calibrated orifice and in fluidic communication with the upstream port to measure upstream pressure when in the open position, the upstream pressure tap angled re the common axis, and a downstream pressure tap located downstream of the calibrated orifice and in fluidic communication with the downstream port to measure downstream pressure when in the open position, the downstream pressure tap angled re the common axis, so conditions of fluid flow are determined based on a measured pressure differential between upstream and downstream pressure taps re the flow coefficient of the calibrated orifice when in the open position. | 05-22-2014 |
| 20140144248 | FLOW METERING VALVE - A valve includes a housing, a stern supported by the housing, and a valve member coupled to the stem. The valve member has a first passage defined therein with a metering flow profile, An apparatus includes a well tree having a production bore and a flow metering valve coupled to the well tree and communicating with the production bore. The flow metering valve Includes a valve member having a first passage defined therein with a metering flow profile and a second passage defined therein with an unrestricted flow profile. The second passage having a diameter substantially equal to a diameter of the production bore. | 05-29-2014 |
| 20140311254 | Rotatable Orifice Plate for Direct Flow Measurement - A valve is provided having a valve housing/body configured to be arranged in, or form part of, a piping having a fluid flow, and configured with a pressure tap arranged at a location along the piping to allow pressure of the fluid flow of the piping to be measured, and also having a rotatable orifice plate configured to rotate in the valve body/housing on an axis of rotation positioned at a different location along the piping than the pressure tap for rotating between a first rotatable position for providing a normal fluid flow operation and a second rotatable position substantially perpendicular to the fluid flow for providing a direct flow measurement of the fluid flow determined based on signaling sensed by the pressure tap sensor containing information about a measured pressure at the pressure tap when the orifice plate is in the second rotatable position. | 10-23-2014 |
| 20150143921 | DEVICE FOR MEASURING DIFFERENTIAL PRESSURE - The invention relates to a device for measuring the differential pressure in a flowing fluid, comprising a housing ( | 05-28-2015 |
| 20150300850 | FLOW METER - A flow meter includes a meter section formed from a single stock of material and having a first inner pipe portion, a second inner pipe portion and an orifice plate defined between the first inner pipe portion and the second inner pipe portion, wherein the orifice plate has an orifice with a cross-sectional area that is less than a cross-sectional area of the first inner pipe portion. The flow meter further includes a first pipe connecting section connected to a first side of the meter section and having a pipe flange and a second pipe connection section connected to a second side of the meter section and having a second pipe flange. | 10-22-2015 |
| 20160025534 | Flow Sensor With Heated Air Collar - A collar is provided for use with a fluid flow sensor to reduce condensation of a moist gas flowing through the fluid flow sensor. The collar comprises a body defining an interior that defines an airspace between the collar and the housing of the fluid flow sensor when the collar is positioned on the fluid flow sensor. The collar also includes a heat source secured to the body and adapted to heat air contained within the airspace to consequently heat the housing of the fluid flow sensor and the interior surfaces of the sensor to reduce condensation of the moist gas. | 01-28-2016 |
| 20160046384 | Sensing Orifice for an Aircraft - A sensing orifice for an aircraft, an aircraft with such a sensing orifice and a method for assembling a sensing orifice for an aircraft are provided. The aircraft may be an airplane, a helicopter, a UAV, a drone or similar. The static sensing orifice includes a passage through an outer skin of the aircraft and a moisture protection body. The passage is designed to connect with a pressure line in the interior of the aircraft. The moisture protection body is gas-permeable and water-impermeable, and the moisture protection body is disposed such that the passage is gas-permeably and water-impermeably sealed. The method for assembling the static sensing orifice for the aircraft, includes the following steps: providing the passage through the outer skin of the aircraft for connecting to the pressure line in the interior of the aircraft, providing a gas-permeable and water-impermeable moisture protection body, and gas-permeable and water-impermeable sealing of the passage by the moisture protection body. | 02-18-2016 |
| 20160047681 | FLUCTUATION AND PHASE-BASED METHOD FOR DETECTION OF PLUGGED IMPULSE LINES - A method includes obtaining first and second sets of process variable (PV) measurements generated using a sensor, where the sensor is fluidly coupled to first and second impulse lines. The method also includes identifying fluctuations in the first and second sets of PV measurements. The method further includes identifying a phase difference between the first set of PV measurements and the second set of PV measurements. In addition, the method includes determining whether one or more of the impulse lines are plugged using the fluctuations and the phase difference. Both impulse lines may be plugged when the fluctuations in both sets of PV measurements are at or near zero. Only the first impulse line may be plugged when the fluctuation in the first set of PV measurements is at or near zero. Only the second impulse line may be plugged when the phase difference is at or near zero. | 02-18-2016 |
| 20160103003 | INTEGRATED ORIFICE PLATE ASSEMBLY - An orifice plate assembly for use with a process variable transmitter for measuring flow of a process fluid includes a single piece body having a circumferential support ring. A first face of the circumferential support ring is configured to be sealingly coupled to a first flange of a first process pipe. A second face of the circumferential support ring is configured to be sealingly coupled to a second flange of a second process pipe. A flow plate region is positioned between the first and second pipes and has first and second sides. The flow plate region is concentric with the circumferential support ring. At least one flow orifice in the flow plate region provides a restricted fluid path between the first and second process pipes. A first pressure tap is configured to fluidically couple to the process variable transmitter to the process fluid proximate the first side of the flow plate region. A second pressure tap configured to fluidically couple the process variable transmitter to the process fluid proximate the second side of the flow plate region. | 04-14-2016 |
| 20160131510 | ORIFICE FLOWMETER SECURITY DEVICE - A device and method for securing an orifice flowmeter and preventing unauthorized access to the flowmeter while in service is disclosed. The security device includes a housing having a top surface, a bottom surface, a closed end, an open end, a front surface, and a back surface forming a cavity. Through bores extend coaxially through the top surface and the bottom surface proximate the open end. Some embodiments include protrusions coupled to the interior of cavity. The protrusions together with the back surface of the housing are configured to surround exposed portions of the flowmeter, such that the addition of a shackle portion of a locking device through the through bores will prevent removal of the security device from the flowmeter and subsequently prevent access to the flowmeter. | 05-12-2016 |
| 073861620 | Adjustable | 3 |
| 20110271771 | Adjustable Orifice for Coal Supply Conduit - A variable orifice for use in connection with a conduit designed to convey particulate material comprising a set of semi-circular plates mounted on respective concentric shafts so that they may be rotated in opposite directions between a first position in which they extend across the interior of the conduit for maximum flow resistance to a second folded condition where they are adjacent and parallel to one another to present minimum flow resistance. An actuator is connected through the concentric shafts to the plates and mounts on the outside of the conduit surface. The unit is operated by hand crank and has a position indicator. The size of the valve plates is such that, even when fully extended relative to one another and lying across the cross-section of the conduit, only about a 30% restriction is produced. | 11-10-2011 |
| 20150354724 | SYSTEM AND METHOD FOR CALIBRATING ELECTROHYDRAULIC VALVE - A method of calibrating an electrohydraulic valve is disclosed. The method includes actuating an on-off valve to an open position. A speed of a fixed displacement pump is regulated to establish a desired flow rate at an outlet of the pump. The pump is in fluid communication within a closed loop circuit with the on-off valve and the electrohydraulic valve. A target pressure in the closed loop circuit is determined as a function of the desired flow rate. The method further includes increasing a current to the electrohydraulic valve and monitoring the target pressure in the closed loop circuit. A start of a fluid flow through the electrohydraulic valve is determined based on a drop in the target pressure within the closed loop circuit. | 12-10-2015 |
| 20160025533 | Variable Orifice Flow Sensor Utilizing Localized Contact Force - A variable orifice fluid flow sensor is provided that includes a fluid flow passage therethrough formed with a first port portion adjacent to one end of said passage and a second port portion adjacent to the other end of said passage. A bending member is mounted in the fluid flow passage between the first and second port portions and having a fluid flow limiting flapper extending across the fluid flow passage for creating a fluid flow opening in the passage, the size of the opening being variable responsive to fluid flow in said fluid flow passage. A biasing member is also mounted between the first and second port portions and includes at least one biasing element extending away from the biasing member into contact with the bending member to exert a contact force on the bending member. | 01-28-2016 |
| 073861630 | Venturi | 16 |
| 20080216587 | TORUS WEDGE FLOW METER - A flow meter for measuring the volume of fluid flowing through the meter includes an inner cylindrical tube through which the fluid flows and an outer cylindrical tube tending over the inner cylindrical tube. The outer cylindrical tube is radially spaced from the cylindrical inner tube to provide an annular cylindrical space between the inner cylindrical tube and the outer cylindrical tube. A seal between the inner cylindrical tube and the outer cylindrical tube closes the annular cylindrical space adjacent ends of the annular cylindrical space. The inner cylindrical tube further defines at least one opening in a wall of the inner cylindrical tube to balance the fluid pressure in the annular cylindrical space with the pressure in the inner cylindrical tube. A torus wedge flow restriction member is integrally formed within full internal circumference the inner cylindrical tube for restricting the flow of fluid through the inner cylindrical tube and produces a pressure drop in the fluid as it flows past the flow restriction member. The inner cylindrical tube and the outer cylindrical tube in combination further define at least one port for receiving a pressure sensing device to measure the pressure of the fluid flowing through the flow meter. | 09-11-2008 |
| 20080245158 | Flangeless differential pressure transmitter for industrial process control systems - An industrial pressure transmitter, for use in industrial process control systems, comprises a differential pressure sensor and an integrated process connector connected to the differential pressure sensor. A process fluid flow duct extends through the process connector and receives an industrial process fluid. A primary element is positioned in the process fluid flow duct for producing a pressure differential in the process fluid across the primary element. The differential pressure sensor is connected to the process fluid flow duct to sense the pressure differential across the primary element. | 10-09-2008 |
| 20080264182 | FLOW METER USING SENSITIVE DIFFERENTIAL PRESSURE MEASUREMENT - Methods and apparatus for measuring the flow rate of a fluid within tubing utilize probes to measure a differential pressure of the fluid along a section of the tubing. Various calculations utilize this pressure differential to determine the flow rate of the fluid. For example, determining the flow rate for the fluid may include calculating the flow rate utilizing the differential pressure measured within an equation related to at least one of friction loss through the tubing, elevation head loss through the tubing, and/or head loss through the tubing due to a change in direction of fluid flow through the tubing. | 10-30-2008 |
| 20090064795 | STEAM METER - A flowmeter detects a differential pressure of steam as the steam passes through a conduit with a feature shaped to produce changes in velocity and pressure of the steam. Taps used to enable detection of the differential pressure extend from a wall of the conduit upward toward vertical (defined as parallel to the direction of gravitational force) in order to drain liquid water into the conduit from the tap. The differential pressure measured enables calculation of flow rate of the steam. | 03-12-2009 |
| 20090114038 | DETERMINATION OF DENSITY FOR METERING A FLUID FLOW - Systems and methods are disclosed for measuring densities and flow rates of gas-liquid fluid mixtures. In the systems and methods, the fluid mixture is caused to exhibit swirling flow as it flows through a conduit that includes a constriction, a first pressure difference is measured between two vertically-spaced measurement positions in the conduit, a second pressure difference is measured between two horizontally-spaced measurement positions in the conduit, the first horizontally-spaced measurement position being at the constriction region and the second horizontally-spaced measurement position being upstream or downstream of the constriction region, and one or more of the pressure differences is used to determine a density or a flow rate of the gas-liquid fluid mixture. | 05-07-2009 |
| 20090139347 | VENTURI FLOW SENSOR - A venturi flow sensing method, system, and apparatus. A tube or chamber may be tapered from a larger to smaller diameter to create a venturi region within the tube or chamber. The venturi region causes a local increase in flow velocity. The change in velocity creates a local change in pressure which is, in turn, used to drive flow through a parallel bypass tube or chamber. Inside this bypass, a flow sensor can be located, and in some cases, a pressure sensor as well. The flow is then either exhausted back into the original tube or the bypass tube may alternatively dead end. In either case, flow can be measured without causing a significant overall pressure drop in the system. | 06-04-2009 |
| 20090188329 | In-Molded Venturi for a Vehicle HVAC System - A venturi is provided for aspirating air in a HVAC module assembly having a first HVAC module housing section including a first venturi portion. A second HVAC module housing section includes a second venturi portion. The first and second HVAC module housing sections form a HVAC mixing chamber and venturi chamber. The first venturi portion mates with the second venturi portion to cooperatively form the venturi chamber. | 07-30-2009 |
| 20090211371 | FLOW MEASURING DEVICE - A pneumotach for measuring respiratory gas flow is provided and includes a housing defining a lumen and having a longitudinal axis; and an airfoil diametrically supported within the lumen of the housing and extending at least partially thereacross, the airfoil defining a chord axis. The chord axis may be angled with respect to the longitudinal axis. | 08-27-2009 |
| 20110041622 | CONE TYPE VENTURI INTEGRATED VALVE DEVICE - Provided is a valve device into which a cone type venturi for a flow measurement and valves are integrated. According to the present invention, the venturi cone is formed in venturi path in the lower portion of the main body, and then valve path is formed thereafter. According to the present invention, efforts for adjusting heights between both of pressure taps during connecting of valves and flow measurement parts are not required and installation time and costs of installation could be decreased drastically. Also, the possibilities of leakage as well as manufacturing costs also could be reduced by integrating valves and flow measurement parts into a one-body valve device. | 02-24-2011 |
| 20110100135 | INVERSE VENTURI METER WITH INSERT CAPABILITY - An insert meter can be run into an inverse venturi on wireline and make use of the existing pressure taps to allow accurate measurement of reduced flow rates that could not be accurately measured with the inverse venturi meter. The insert meter has seals and can lock into position with peripheral sealing to direct the new and lower flow rate into the throat of the insert meter that is preferably a standard venturi. The venturi devices can be in meter or eductor service and located downhole, subsea or on the surface. | 05-05-2011 |
| 20110100136 | METHOD OF DYNAMICALLY CORRECTING FLOW RATE MEASUREMENTS - A flow rate of a fluid flowing in a tubing is determined using a flow meter. The flow meter measures a value related to the flow rate. The tubing has a valve for controlling the fluid flowing through the flow meter. The method of determination of the flow rate includes closing the valve and measuring a first zero flow rate value at a first time and a second zero flow rate value at a second time, estimating an error of the value measurement based on the first and second zero flow rate values, opening the valve and measuring value of the flowing fluid, applying an error correction to the measured value of the flowing fluid, and calculating a corrected flow rate based on the corrected value of flowing fluid. | 05-05-2011 |
| 20110132104 | Eccentric Venturi Flow Measurement Device - An eccentric, smoothly tapered body for installation into cylindrical pipe to cause a constriction in the pipe to facilitate measuring the flow of fluid through the pipe. The body defines a flow constrictor having a smoothly tapered inner surface having a leading edge and a trailing edge and an apex therebetween. A bore extends through the flow constrictor at the apex. Pressure is measured at the bore at the apex and upstream of the flow constrictor and flow rate is calculated from the pressure differential therebetween. | 06-09-2011 |
| 073861640 | Inlet or outlet structure | 4 |
| 20090084193 | Apparatus for measuring an exhaust gas recirculation flow of an internal combustion engine - In an apparatus for measuring an exhaust gas recirculation flow through an exhaust gas recirculation line of an internal combustion engine, the exhaust gas recirculation line has a constriction region and a flange structure integrally formed therewith, said communication line extending from the constriction region to the flange structure on which a differential pressure sensor is disposed and being formed into the wall of the exhaust gas recirculation line so as to be in communication with the differential pressure sensor mounted on the flange structure for determining the exhaust gas flow through the recirculation line. | 04-02-2009 |
| 20090199657 | FLUID FLOW RECTIFYING DEVICE AND FLOW METER USING THE SAME - To provide a fluid flow rectifying device wherein the fluid flow rectifying device can be secured easily in the inlet of a flow path and wherein the flow path structure can be simplified and the fastening operation can be made more efficient. A fluid flow rectifying device for rectifying the flow of a fluid that flows in a flow path, and which can be built in to a flow path of a fluid, comprises a fluid flow rectifying device main unit that is structured from stacking a plurality of cylindrical spacer blocks and a plurality of mesh-shaped flow rectifying members, having external shapes that are essentially identical to the external shape of the spacer blocks; and a retaining ring having a retaining portion having an external shape that is essentially identical to the external shape of the fluid flow rectifying device main unit, and being bent so as to have an angle, from the vicinity of an attachment base, in the direction that is opposite of the direction of insertion of the fluid flow rectifying device main unit, and having a protrusion to the outside from the outer peripheral surface thereof, provided integrally with the end surface of the fluid flow rectifying device main unit that is on the side opposite from the direction of insertion into the flow path. | 08-13-2009 |
| 20110283811 | Integrated Micromachined Wind and Gas Velocity Profiler - A wind or gas velocity profiler integrated with micromachined (a.k.a. MEMS, Micro Electro Mechanical Systems) silicon sensors in an open or enclosed space is disclosed in the present invention. There are three main embodiments disclosed in the present invention. Through the preambles of the independent claims, the advantages and merits of such measurement apparatus with MEMS flow sensor will be demonstrated as well. A silicon-based MEMS flow sensor can greatly reduce the sensor fabrication cost by a batch production. The integration with MEMS flow sensor makes the invented anemometer operate in the ways of better measurement accuracy, lower power consumption, higher reliability and a compact dimension compared to traditional anemometers such as cup anemometer, thermal anemometer and ultrasonic anemometer. | 11-24-2011 |
| 20110283812 | Integrated Micro-machined Air Flow Velocity Meter for Projectile Arms - An apparatus integrated with micromachined (a.k.a. MEMS, Micro Electro Mechanical Systems) silicon sensor to measure air flow velocity on targeting correction for projectiles arms is disclosed in the present invention. The air flow velocity component perpendicular to the travel direction of bullets with respect to projectile arm body (e.g. bullets, shells, or arrows) has main effect to the targeting accuracy. Such effect is pretty much determined by the wind speed and the projectile travel distance. The integration with MEMS mass flow sensor has made the invented apparatus possible to be compact, low power consumption, low cost and high accuracy. The low power consumption characteristic of MEMS mass flow sensor is especially crucial for making the apparatus of present invention feasible by battery operated. | 11-24-2011 |
