Abstract: A sheet bending brake for forming a workpiece comprises a base and an anvil having a bottom-clamping surface. The anvil is positioned in a fixed spaced relationship above the base and in combination with the base defines an unobstructed passage therebetween for receiving at least a portion of the workpiece. A movable plate is disposed between the base and the top plate wherein the movable plate is vertically translatable therein for clamping the workpiece between a top surface of the movable plate and the bottom clamping surface. A bending member is pivotally attached to the movable plate and extends longitudinally therealong for bending the clamped workpiece.

Abstract: A package for receiving electronic parts is formed with decreased stress and stress concentration to obtain a desired warp and flatness. In particular, according to a cutting protruding part process, a package is accommodated to have a recessed part formed on one face of a metal plate by pressing the face of the metal plate so that a corresponding protruding part is formed bulging from an opposing face of the metal plate. The protruding part is cut by a cutting tool and a bottom which has a cavity shape and is thinner in size than the metal plate is formed at the recessed part. The protruding part is again formed bulging from the metal plate and cut by the cutting tool. The cutting direction is differed in alternately facing directions so that the stress from cutting is almost cancelled.

Abstract: A system for automatically producing formed parts from feedstock using two successive adiabatic processing stations, a first station performing adiabatic cut-off of blanks from the feedstock, and the second station performing adiabatic forming of the blanks into the formed parts. The first station operates cooperatively with a feedstock feeder assembly which feeds feedstock to the first station and also charges blanks produced at the first station into a transfer capsule of a transferer assembly. The first and second stations cooperatively operate with the blank transferer assembly which transfers in the transfer capsule blanks from the first to the second station. The second station includes means for positioning blanks relative to a forming cavity before blanks are adiabatically shaped to conform to the forming cavity and also means for ejecting formed parts from tooling that defines the forming cavity. The system includes automation means that synchronizes and sequences subassembly operations.

Abstract: Integral studs, such as T-studs, are cut from metal sheets on which the studs are to be deployed. A process for providing integral studs includes cutting the studs from the sheet metal on which the studs are to be deployed, and elevating the studs above the plane defined by the sheet metal. The process obviates the need for welding or otherwise attaching non-integral studs to the sheet metal.

Abstract: The calibration circuit is used with a differential input, monolithic integrated circuit preamplifier in a sensor system. The calibration circuit tests the integrity of the sensor, the preamplifier, and the wiring in the sensor system. The calibration circuit includes first and second calibration capacitors having different capacitances connected to the preamplifier input leads. A calibration signal source is connected between the capacitors. The capacitors are preferably implemented on the same integrated circuit as the preamplifier. In operation, a calibration signal of known amplitude is applied to the calibration circuit and the level at the preamplifier output is determined. The level at the preamplifier output indicates certain conditions relating to the integrity of the sensor and its wiring, for example, an open circuit condition or a short circuit condition.

Abstract: A flow generator having use in the provision of CPAP or assisted ventilation treatment is disclosed The flow generator has a turbine for the supply of breathable gas which is driven by an electric motor and an associated motor power supply. The power supply in turn is controlled by a controller. A pressure sensing port measures delivery pressure that is passed to a pressure transducer, the output signal of which is passed to the motor controller. The zero offset of the pressure transducer is automatically calibrated on occurrence of the conditions where the turbine is not operating and no pressure activity is sensed by the transducer. The turbine not operating condition can be determined from Hall-effect sensors integral to the motor.

Abstract: An apparatus and method for quantifying the stiffness of a golf ball or golf ball core under normal use conditions while also measuring the contact time, wherein an air cannon, or the like, is used to shoot an object horizontally against a block while the inbound and outbound velocities of the object are measured by two light gates separated by a given distance and the contact time is measured by optical sensors located at the block, and wherein the measured times and calculated velocities are then used to calculate the coefficient of restitution and contact time of the object.

Abstract: A method for determining the reducing agent concentration (NH3) in the exhaust-gas flow of an internal combustion engine, using a zeolitic NH3 gas sensor that supplies a base measuring value, which is initially corrected by an offset value and a correction value that depends on the H2O concentration of the exhaust gas to form an intermediate value. The intermediate value is subsequently corrected by an additional value that depends on the NOx and NH3 concentration of the exhaust gas. In particular at or above the limits for the operating range, the accuracy of the method increases for one of the following conditions: gas compositions with NOx concentrations >500 ppm, extremely low NH3 concentrations <20 ppm or high NH3 concentrations >100 ppm.

Abstract: The present invention is to detect a temperature of an exhaust gas purification catalyst in order to determined an air-fuel ratio feedback control start time of an internal combustion engine, wherein the temperature of the exhaust gas purification catalyst is detected by estimation and computation based on an element impedance of an air-fuel ratio sensor.

Abstract: A statistical metric, based on the magnitude and standard deviations along linear projections of clustered array response data, is utilized to facilitate an evaluation of the performance of detector arrays in various vapor classification tasks. This approach allows quantification of the ability of arrays of different types including carbon black-insulating polymer composite chemiresistor sensors, tin oxide sensors and bulk conducting organic polymer sensors to distinguish between analytes. The evaluation of questions such as the optimal number of detectors required for a specific task, whether improved performance is obtained by increasing the number of detectors in a detector array, and how to assess statistically the diversity of a collection of detectors in order to understand more fully which properties are underrepresented in a particular set of array elements, are addressed.

Abstract: Method of determining the gas hydrate formation conditions in a well fluid, comprising the following stages: taking a fluid sample, placing this sample in a calorimetry cell, performing on this sample a reference thermogram in a temperature range between T1 and T2, performing on the same sample a second thermogram in the same range and under a pressure Ph of a hydrocarbon gas, T1 being a temperature low enough to obtain the formation of hydrates in the sample at a gas pressure Ph, T2 being high enough to obtain hydrate dissociation, identifying a peak in the second thermogram corresponding to the hydrates dissociation zone and deducting therefrom a hydrates dissociation temperature.

Abstract: A constant-head soil permeameter for determining hydraulic conductivity of earthen materials is inserted into a borehole at the desired test depth. A calibrated reservoir, disposed on the ground surface, is attached thereto with a suitable length of hose. Water is added to the calibrated reservoir and allowed to flow freely into the borehole until an equilibrium level is reached in the borehole and inside the soil permeameter. The water flowing to the permeameter is throttled by buoyant float pressure that is greatly increased by a lever-and-link valve control assembly which provides considerable mechanical advantage, thereby allowing better constant head control and much greater depths of testing than previously attained by known permeameters. A filtered vent system, backflow check valve, and seals restrict entry of soil particles and debris, thereby minimizing cleaning and maintenance of the invention.

Abstract: A device for connecting, by means of a shielded cable, electrodes to a measuring device, located on either side of a wall (18) separating an enclosure under pressure from the outside environment. The device comprises a rigid protector sleeve (16) made of an insulating material that tightly runs through the wall and extends to the immediate vicinity of the electrode, into which shielded cable (C) is passed. A tube (23) made of a conducting material is arranged in rigid sleeve (16) and in electric contact with the cable shield. A plug (24) is secured to rigid sleeve (16), connected to electrode (15) and electrically linked to core (21) of the shielded cable inside metal tube (23). An electric connector (20) is associated with rigid sleeve (16) outside wall (18) for connection of a shielded wire connected to the measuring device. This device can be used in a system measuring the electrical resistivity of a sample in a frequency range that can reach several ten MHz.

Abstract: Fluid leak detection through thermal sensing is disclosed. A sensor includes one or more flexible, thermally conductive, fluid isolating layers, and a thermally sensitive detector situated within the flexible, thermally conductive, fluid isolating layers. The detector is responsive to a temperature change resulting from leaking fluid coming in contact with the sensor. The sensor may also including an affixing mechanism, such as glue, on the isolating layers, to affix the sensor to a potential fluid leak source, such as a tank or a piping line. The sensor may further include connectors located at its ends. The detector may be a thermally sensitive resistor, such as platinum or nickel, and the, fluid isolating layers may be capton.

Abstract: An apparatus and method for determining the viscosity of a fluid over plural shear rates caused by a decreasing pressure differential by monitoring the movement of the fluid through a riser tube and a capillary tube. The movement can be monitored by detecting the changing weight of the fluid, using a precision balance or load cell, as it moves through the riser tube and capillary tube into a fluid collector; or, alternatively, the movement can be monitored by detecting the changing level of a fluid column in the riser tube using a column level detector. A processor then uses the changing weight or height data, along with the dimensions of the capillary tube and a dimension of the riser tube, to determine the viscosity of the fluid. In addition, apparatus and methods for determining fluid viscosity online and fluid mixture homogeneity online are also described.

Abstract: Viscometer (2) with a sleeve (30) rotatable by a sprocket (20) and a timing belt (44) to shear a tested fluid thus imparting torque to a bob (28) mounted on a shaft (14) supported via axially spaced bearings (16, 22), an arm (12) connecting to the top of the shaft (14) applies force to a force sensor (10) which is proportional to the torque applied to the bob.

Abstract: A rotary rheometer has a measurement motor (1) rotating a measuring shaft (16) on which an upper, and in particular a plate-shaped or conical, measuring part (4) is fastened. A measuring gap (S) is formed between the first measuring part (4) and a rotationally fixed lower, preferably plate-shaped measuring part (5). The substance (12)—in particular fluid, gel, or the like—to be tested is introduced into the measuring gap (S). The width of the measuring gap (S) can be adjusted by displacing the two measuring parts (4, 5) relative to each other. A heating or tempering unit for the lower measuring part (5) is arranged below the lower measuring part (5). To heat or cool or temper the upper measuring part (4) at least one heat pump (24), and in particular at least one Peltier block, is provided by which heat can be supplied to or removed from the upper measuring part (4).

Abstract: Tortuous passageways are provided in a substrate component that is retained within a holding chamber. Fuels and fuel mixtures to be comparatively tested are introduced into the holding chamber and into the tortuous passageways of the substrate component. The substrate component is controllably maintained at an elevated temperature during a specified number of defined test cycles. The substrate component is then removed and its after-test weight compared with an initial weight before the test. The tortuous passageways of the substrate component provide increased surface area subject to deposit formation and extended residence time for fuel to remain in contact with the substrate surface, thereby greatly enhancing the measured difference between tested fuels and fuel mixtures.

Abstract: In a probe scanning method, a probe is scanned in a main scanning direction in an xy plane disposed between the probe and a surface of a sample while scanning the probe in a zigzag pattern. Physical quantities acting on the probe and the surface of the sample are measured at peaks of the zigzag pattern during the scanning step. Image data corresponding to the physical quantities measured at the different positions in the xy plane is then generated.

Abstract: A method and a device for controlling an internal combustion engine. A temperature variable and a pressure variable are detected by sensors. On the basis of at least the temperature variable and the pressure variable, a first quantity is determined that characterizes the air quantity, which is supplied to the internal combustion engine. A further sensor detects a second quantity that characterizes the air quantity, which is supplied to the internal combustion engine. The second quantity is adapted by the first quantity. Furthermore, the first quantity is used as a substitute value for the second quantity.

Abstract: An injection pressure sensor (10) intended for use with a fluid source (12). The injection pressure sensor (10) has a sensor element (14) in communication with the fluid source (12) and in communication with a pressure reference source (16). The injection pressure sensor (10) also includes a sensor body (20) and a plunger element (26). If the injection pressure sensor (10) experiences high fluid pressures, the sensor element (14) can fail and fluid can escape past the sensor element (14). When the sensor element (14) fails, the plunger element (26) moves from an inactive position (28) into an active position (32). When the plunger element (26) is in the active position (32), fluid is generally prevented from escaping the sensor body (20).

Abstract: A thermal fatigue test stand for combustion engine cylinder heads. A cylinder head support having at least a cylinder head zone capable of being exposed to the engine combustion. At least one burner for directing a flame on the entire head zone. At least one heat flux sensor located in the cylinder head thickness at the zone to verify whether the heat flux produced by the flame is at least approximately in conformity with a predetermined value. The invention also concerns a method for calibrating such a test stand, and a method for testing cylinder heads. The invention is particularly useful for developing, both from a metallurgical and geometrical viewpoints, aluminum alloy cylinder heads.

Abstract: The present invention provides a method for easily measuring a brake mean effective pressure of a running vehicle. An air flow sensor, a &lgr; sensor and a data collecting apparatus are mounted to the vehicle. A running speed and engine speed from the vehicle while actually running on a road surface, and output of the air flow sensor an the &lgr; sensor are inputted to the data collecting apparatus. Specific fuel consumption is obtained from an intake air amount and ratio of excessive air in exhaust gas. Output of an engine is obtained from a relation between the specific fuel consumption and the engine speed.

Abstract: A wireless tire inflation pressure measurement device is used to obtain inflation pressure information for a tire of a vehicle and a signal therefrom may be used for determining the location of the tire. An identifier may be associated with the inflation pressure information for each wheel of the vehicle. Tire rotation speed may be determined by amplitude fluctuations of a radio frequency carrier from a radio frequency transmitter rotating with the wheel. Differences in wheel rotation speeds during a turn may be used in determining the location of each tire of the vehicle. An antenna may be placed on each wheel toward the outer perimeter of the wheel and connected to the radio frequency transmitter. A radio frequency identification (RFID) tag and pressure sensor may be used as the wireless tire inflation pressure measurement device and a RFID pickup coil may be provided in each wheel well for pickup of the inflation pressure signals from each RFID tag on a wheel.

Abstract: A device supports a motorized flying instrument in a wind tunnel. To carry out tests in a wind tunnel on a motorized flying instrument (10), with the motor on, under different attitudes hands off, the instrument is connected to the fixed structure (15) of the wind tunnel (11) by a mounting device (12) at least one of the supports (14, 16) of which is fitted with a length adjustment system, such as a hydraulic jack (28). This jack (28) is remote controlled, in real time, by a control system (42).

Abstract: A subsurface formation petrophysical evaluation method including: determining formation porosity and permeability using a quantitative indication of formation composition; estimating water-filled formation resistivity using the formation porosity; associating differences between measured formation resistivity and estimated water saturated formation resistivity with the presence of subsurface hydrocarbons; and estimating irreducible formation water saturation using the formation porosity and the formation permeability. The invention further involves an apparatus adapted to carry out the inventive method.

Abstract: A method and an arrangement for keeping a measuring device clean, the measuring device being arranged to measure at least one property of a moving web and comprising at least one measuring head with at least one measuring element that is cleaned with cleaning agent during measurement.

Abstract: A thermal type flow rate measuring device can certainly prevent adhesion of water droplet onto a sensor element and thus achieve high reliability. The thermal type flow rate measuring device includes an auxiliary passage defined within a main passage for introducing a part of fluid flowing through the main passage, a sensor disposed within the auxiliary passage for detecting flow rate of the fluid and capturing means formed on an inner periphery of the auxiliary passage for capturing liquid contained in the fluid and transferring the captured liquid.

Abstract: A compact, one-part respiratory flow sensor with a small dead space volume for the simultaneous measurement of both the gas volume flow and the concentration of gas components of the respiratory flow. The respiratory flow sensor has a tubular housing (1) with two opposite windows (2, 3) which are arranged at right angles to the direction of flow and limit the respiratory flow and are formed of a material transparent to infrared radiation. An infrared sensor with an infrared radiation source (4) and with at least one infrared radiation detector (5) is connected to the housing (1). The infrared radiation source (4) irradiates one of the two windows (2, 3) of the housing (1). The infrared radiation detector (5), of which there is at least one, receives the infrared radiation of the infrared radiation source (4) after its passage through the respiratory flow and the two windows (2, 3) limiting the respiratory flow.

Abstract: A measuring instrument for measuring mass of a flowing medium in which a measuring body extends across the flowing medium and has a rectangular flow channel through which the medium flows. The flow channel has a constricted inlet, a central portion with parallel sides and a widened outlet. A measuring element is supported in the measuring body such that the medium flows thereon. The measuring element carries temperature and heating sensors.

Abstract: The low gravity liquid level sensor rake measures the liquid surface height of propellant in a propellant tank used in launch and spacecraft vehicles. The device reduces the tendency of the liquid propellant to adhere to the sensor elements after the bulk liquid level has dropped below a given sensor element thereby reducing the probability of a false liquid level measurement. The liquid level sensor rake has a mast attached internal to a propellant tank with an end attached adjacent the tank outlet. Multiple sensor elements that have an arm and a sensor attached at a free end thereof are attached to the mast at locations selected for sensing the presence or absence of the liquid. The sensor elements when attached to the mast have a generally horizontal arm and a generally vertical sensor.

Abstract: A device for sensing a level of a fluid, the device including a microcontroller and a probe coupled to the microcontroller. The microcontroller applies a given DC potential to the probe for a first period of time, measures a voltage associated with the level of the fluid to be sensed after the first period of time, and applies a reference DC potential to the probe for a second period of time.

Abstract: A fuel level sensor for use with a vehicle fuel tank includes a magnet carrying float assembly that rises and falls with the fuel level to open and close various magnetically activated reed-switches located at different axial positions along a vertically extending electrical circuit. Activating a reed-switch located at a particular vertical position along the electrical circuit causes the overall resistance of the circuit to depend upon the position of the float assembly. The float assembly is capable of freely rotating about the vertical axis of the electrical circuit and carries magnets producing a horizontal magnetic field that can activate a reed-switch from any angular orientation of the float assembly. Thus, assuming the fuel level sensor is provided with a constant voltage source, the sensor is able to determine the fuel level by the amount of electrical current flowing through the circuit.

Abstract: In a slide detector, a contact member provided on a slider is made of gold or a gold alloy including an abrasion resistant metallic component, and a plurality of electrodes provided on an electric insulating board is made of a silver alloy including glass. Preferably, the contact member sliding on the electrodes is made of a gold alloy consisting of 99% by weight of gold and 1% by weight of cobalt, so that an anti-sulfurization and an abrasion resistance between the contact member and the electrodes is ensured. However, the weight percent of gold and other alloys may vary depending upon the abrasion characteristics desired.

Abstract: An accelerometer design is described. It operates by measuring a change in capacitance when one plate is fixed and one is mobile (free to accelerate). Unlike prior art designs where such changes are caused by variations in the plate separation distance, in the design of the present invention the plate separation distance is fixed, it being the effective plate area that changes with acceleration. A key feature is that the basic unit is a pair of capacitors. The fixed plates in each case are at the same relative height but the mobile plates are offset relative to the fixed plates, one mobile plate somewhat higher than its fixed plate with the other mobile plate being somewhat lower. Then, when the mobile plates move (in the same direction), one capacitor increases in value while the other decreases by the same amount. This differential design renders the device insensitive to sources of systematic error such as temperature changes. A process for manufacturing the design is described.

Abstract: A micromechanical spring structure, in particular for a rotation rate sensor, includes a first and a second cooperating elastic bar, segments of which run largely parallel to each other and segments of which are coupled with one another. The first and second elastic bars have a common curved area in which they are coupled with one another by a connecting area. A first transitional area to the connecting area, located between the first and second elastic bars, forms a largely smooth curve.

Abstract: Dynamic balancing reduces quadrature bias in microfabricated vibrating instruments such as tuning fork gyros so that a purity of motion is achieved in the absence of any angular rate input. Balancing is achieved by ablating (74) or depositing (72) onto support structure (62) for a tuning fork gyroscope rather than the proof mass (60) itself by melting and moving material on a tuning fork beam (62). Such adjusting is advantageously done during actual operation of the gyro by laser beam application through an encapsulating transparent cover which can be either part of the chip die or an external package.

Abstract: There is provided a displacement sensor including a moving member composed of a magnetic body; a pair of stators each composed of a magnetic body and arranged opposed to each other with respect to the moving member, the stators including driving coils and position detectors corresponding to the driving coils, respectively; and a control unit for driving, based on a detection output coming from the position detectors, the driving coils with an electric power corresponding to intervals between the moving member and the stators so that the moving member is balanced at an intermediate position between the stators and for computing a force or acceleration applied to the moving member with a driving electric power of the driving coils. A mobile data collecting apparatus utilizing the displacement sensor is also disclosed.

Abstract: An acoustic signal unit comprises a signal generation unit to generate a first electrical signal, a first transducer to generate an acoustic signal in response to the first electrical signal, and a second transducer to generate a second electrical signal in response to the received acoustic signal. A calculation unit is provided to compare the first and second electrical signals to determine the time of flight of the acoustic signal, wherein the time of flight corresponds to the stress in the rolling element bearing. The stress may be calculated according to a formula or by multiplying an acoustic time constant for the rolling element bearing by the distance traveled by the acoustic signal across the rolling element bearing, and by the time of flight determined by said comparison unit.

Abstract: A system and method for delivering a laser beam from a remote laser source through a gantry positioning system for performing ultrasonic testing on a test object. The invention provides for closed-loop error correction of a laser beam delivered through the gantry members of a gantry positioning system (GPS) to ensure unobstructed transmission of the laser beam as the GPS changes operates and changes shape. The invention provides for ultrasonic testing of a test object for identifying material defects by moving the end gantry member of the GPS thereby permitting data acquisition of the test object from various fields of view. The invention also provides for controlling the divergence of the laser beam used for ultrasonic testing.

Abstract: A method of in-tube ultrasonic inspection of pipelines is carried out by passing inside the pipeline a scanning pig, emitting ultrasonic probing pulses towards the pipe wall and receiving the reflected ultrasonic pulses. The received pulses are amplified using an amplification factor which is increased depending on the time elapsed from the moment of emitting the probing pulse. The threshold values of the pulse amplitudes are also varied depending on time. Digital values of the pulse amplitudes and the time elapsed from the moment of emitting the probing pulse and corresponding to each value of the amplitude are obtained. The method allows for compensation for the effect of ultrasound attenuation in the material on the amplitudes of the reflected pulses and, in this manner, to increase the accuracy of determining the geometrical parameters of the flaws, a probability of their detection and efficiency of estimation of their danger.

Abstract: The invention relates to a method and a device for determining the thickness and topography of buoyant objects, especially ship's hulls (1), by means of a beam (2, 17) carrying an array of ultrasound sensors (3). The object (1) and the beam (2) are moved relative to each other in the object's longitudinal direction while the distance between the object and the beam are automatically adjusted by raising/lowering the beam (2) by means of lifting means (6) and/or distance elements secured by floating bodies (4). The invention also relates to a device for implementing the method.

Abstract: A wheel-type inspection device includes within the wheel structure a sensor head. The sensor head carries both ultrasonic transducers and a surface tracking structure maintained at fixed distance relative to the transducers. In operation, the surface tracking structure remains against the inner surface of the tire and thereby maintains a fixed distance between the transducers and the surface of the work piece under inspection. As a result, reflected sound energy analysis need not compensate for variations in distance between the transducers and the work piece because no such variations in distance occur under the disclosed device.

Abstract: Flexure assemblies include steel plates or pieces of metal material that are rigid in at least one direction but flexible in at least one other direction. One arrangement of components provides a flexure assembly that is intended to permit linear motion along an axis while preventing off-axis motion. Another arrangement of components permits rotary or pivotal motion about an axis within a limited range while preventing off-axis motion. All arrangements provide a frictionless and noiseless support arrangement that is well suited for test equipment where noise sensitivity and accuracy are of concern. The invention provides a testing device that permits test forces to be input directly to a vehicle body structure for testing vehicle squeak and rattle noises within a vehicle interior.

Abstract: A pressure and temperature sensor includes a sealed insulating package and an elastic, piezoelectric substrate deformably supported within the package. At least three surface-acoustic-wave resonators are affixed to a bottom of the substrate. A first and a second resonator are positioned in parallel relation along the substrate. A third resonator has a long axis nonparallel to the long axes of the first and the second resonator. The temperature coefficients of the first and second resonators are substantially equivalent; that of the third is different from those of the first and the second resonator, for permitting a temperature change to be sensed. Electrical connectors extend between the resonators to the outside of the package. A sensing system also includes an antenna for sending and receiving electromagnetic signals to and from the device.

Abstract: A fiber optic system and method of use is disclosed. The fiber optic system comprises a laminated, pre-stressed, piezoelectric actuator; and a fiber optic strain gage having an input/output fiber, wherein the fiber optic strain gage is attached to a surface of the laminated, pre-stressed, piezoelectric actuator. The fiber optic system is useful for performing dynamic mechanical analysis on a sample.

Abstract: An apparatus and a method for measuring the flexural characteristic of a golf club shaft. The apparatus includes a table having a clamping structure for clamping the golf club shaft thereto. A data collection system having a computer coupled to an image recording device measures the amount of deflection of the golf club shaft before and after a bending moment is applied to the golf club shaft. The stiffness of the golf club shaft is determined from the amount of deflection.

Abstract: An on-line sensor mount assembly for monitoring one or more physical properties of a particulate material that is free flowing in the ductwork of a processing installation. The sensor mount assembly includes a vertical housing with an upwardly open inlet opening and a uniform vertical sensing passage/chamber. An outlet opening is located at the lower end of the housing. A flow metering apparatus is installed at the lower end of the housing and includes a flow metering element positioned in blocking relationship between the sensing chamber and the outlet opening. Continuous operation of the flow metering element transports material from the sensing chamber through the outlet opening at a regulated rate. This assures that the sensing chamber is full and that there is a uniform flow of material past one or more sensor elements installed on the housing and positioned to monitor the particulate material passing through the sensing chamber.

Abstract: Magnetic flow meters having a streamlined body within a flow tube provide an extended voltage path through a flowing fluid at the expense of flow passage restriction. The voltage path may extend along a circumference of an annular flow region. The use of an extended voltage sensing path increases useful signal levels, which allows for lower cost construction and lower power operation.

Abstract: An apparatus and process for using ultrasound to measure speed and acceleration in fluids is provided. Three preferred embodiments are disclosed. The first preferred embodiment measures fluid velocity, such as, for example, wind, under standard atmospheric pressure-temperature. The second preferred embodiment measures gas velocity, such as, for example, wind, affected by and automatically calibrates for pressure-temperature. The third preferred embodiment measures gas density, such as, for example, density altitude. Applications of the invention include wind direction and speed calculation in agriculture, aviation, hydraulics, and other industries. One of the advantages provided by the invention is there are no moving parts in making such measurements.