Abstract: A method and apparatus for determining the density of dry fibers, mainly in the form of fiber bundles. A sample of these dry fibers is weighed. The fiber bundles of these dry fibers are fed into the suction side of an air aspirator and opened into a combination of smaller fiber bundles and individual fibers as they exit from the pressure side of the aspirator. The combination of smaller fiber bundles and individual fibers passes through a chamber and is deposited onto a screen in the bottom of an enclosure. The enclosure is supported so that there is an open space under the screen, thereby allowing the air which is transporting the combination when the combination is deposited on the screen to pass through the screen and exit from the apparatus. The volume of the combination of smaller fiber bundles and individual fibers deposited on the screen in the enclosure is measured, and the density of the dry fibers is calculated using the measured weight and volume of the sample.

Abstract: The disclosed apparatus is presented, for ease of comprehension, in terms of apparatus for servicing refrigeration systems, the disclosed apparatus using readily obtainable temperatures, rather than using the prior-art method of breaking into a refrigeration line for the purpose of measuring pressures.An added feature is the ability of the apparatus to provide either absolute temperature read-outs for the temperature at the desired locations, or a differential temperature read-out for the temperatures between two desired locations. Moreover, the disclosed apparatus permits vacuum read-outs and pressure read-outs, again without the necessity of breaking into the refrigeration lines.Since various refrigeration systems use different refrigerants, the disclosed apparatus also has the ability to convert the temperature read-outs to pressure read-outs that are associated with specific refrigerants.

Abstract: A pulse echo device with a concave transmitter-receiver surface located to direct ultrasonic energy to a focal point spaced therefrom transversely of a conduit, the focal point being a distance transversely of the conduit less than twice the thickness of the conduit.

Abstract: A device for underwater detection of flaws in welds, especially lap welds as distinguished from butt welds wherein a filleted weld is made, said device embodying ultrasonic transducers arranged to emit and receive a sonic beam at angles such as to pass through the weld at an angle corresponding substantially to the inclination of the weld and to be adjustable for welds of different inclination and for beam travel through different configurations of weldments.

Abstract: A self-contained unit integrally operable in conjunction with a gas meter registers equivalent standard gas volume by correcting actual gas volume for both pressure and temperature. A magnetic couple provides a drive input to the correction unit at a rate proportional to the operational rate of the meter. Separate temperature and pressure sensitive mechanisms exposed to the gas flow each provide a linear displacement proportional to changes in their absolute condition. Respective displacement of each is supplied independently to a dual input single output multiplying mechanism from which an integrated output serves to position a limiting cam in angular correlation therewith. Position of the cam effectively modifies the drive input from the magnetic couple through a crank arrangement that drives the corrected register at a rate correlated to the integrated function of absolute pressure and temperature of the metered gas.

Abstract: Method and apparatus for measuring mass flow rate of a fluid substance flowing in a conduit by reciprocating a section of conduit at an end thereof with the other end thereof pivotally mounted, and measuring the torque generated by the Coriolis force, and preferably reciprocating two similar sections of conduit at the inlet end of one and the outlet end of the other, both being pivotally secured at the nonreciprocated ends, to substantially balance inertial forces, the torque preferably being measured at peak angular velocity of the conduit section.

Abstract: A fuel dispensing system having a positive displacement vane type fuel meter with an enclosed rotor assembly mounted within a fluid tight housing and connected to a fluid inlet and outlet of the housing to be rotated in direct proportion to the volume of gasoline conducted through the meter and two alternative embodiments of electrical pulse generating means with two Hall effect pickups mounted externally of the housing, ferromagnetic plugs extending through the housing and ferromagnetic means mounted on the rotor assembly to cooperate with the ferromagnetic plugs to generate an electrical pulse with each pickup for each predetermined increment of gasoline conducted through the meter.

Abstract: Flow of fluid through a heated electrically conductive conduit is measured by detecting changes in resistance of the conduit caused by the flow. A resistance bridge is connected to spaced points along the conduit for performing the measurement.

Abstract: A device for ultrasonic examination, comprising a flat mosaic of a row of transmission transducers and a number of rows of receive transducers which are symmetrically arranged with respect thereto. The device furthermore comprises means for applying actuation pulses to one transmission transducer at a time, and means for enabling receive transducers in the time interval following each actuation pulse, and for at the same time displaying on an image display device an image of a section of the examined body in a plane perpendicular to the plane of the mosaic and through the line of transmission transducers.

Abstract: Apparatus and method for grey-level ultrasonic imaging employing a storage oscilloscope. In medical diagnostic uses, a patient originated ultrasonically reflected wave is converted into an electrical signal which is so modulated as to result in grey-level type display on a bistable type storage oscilloscope or otherwise recorded or displayed. This display may be directly produced and immediately viewed.

Abstract: An electromagnetic transducer is provided for ultrasonically inspecting conductive material as the material moves relative to the transducer. A coil is positioned in the field created by a magnet so that the conductors of the coil are transverse to the magnetic field. The coil is located predominately near the leading side of the magnet where flux is concentrated as the magnet and material move toward each other.

Abstract: A leak detecting apparatus comprises an opened-bottom box having a peripheral seal and a transparent top. Air is removed from the box by means of an ejector to provide a vacuum to inspect membrane for leaks and water pumped into the box to permit easy movement over membrane being tested.

Abstract: A method and apparatus for ultrasonic nondestructive testing of workpieces include automatic compensation of echo responsive electrical signals commensurate with preprogrammed test parameters. The test parameters include at least one of the following: depth dependent correction of the individual DGS (distance, gain, size) values for each respective probe; correction for material related properties of the workpiece and coupling medium; correction for temperature affecting the testing of the workpiece. Preferably, a compensating signal generated commensurate with the sum of the correction signals is used for varying either the gain of a receiver amplifier or a predetermined level provided to a comparator circuit or both. Embodiments disclosed are applicable for processing both analog and digital echo responsive electrical signals.

Abstract: Device for the inspection of tubes by ultrasonics comprising a probe constituted by an ultrasonic transducer fixed to a mirror which receives the ultrasonic wave emitted by the transducer and centered on the axis of the probe, means for moving the probe within the tube to be inspected and means for detecting the ultrasonic echos reflected by the tube, wherein it also comprises means for introducing an acoustic coupling liquid into the volume between the tube, transducer and mirror when the probe penetrates the tube to be inspected and for discharging said liquid when the probe leaves the tube, said means substantially comprising a flexible pocket reservoir filled with liquid and placed in the lower part of the probe and connected to the volume to be supplied with liquid, whereby said pocket is flattened when it penetrates the tube to be inspected following the probe, which has the effect of expelling part of the liquid contained therein in the direction of said volume, the said liquid returning by gravity int

Abstract: In a sound level meter the output voltage of the microphone is fed to a voltage-frequency converter by way of an exponentially operating circuit, such as a squarer, and the output of the converter operates a binary counter having an indicator unit associated therewith. A gate circuit is controlled by a timing generator and is interposed between the voltage-frequency converter and the binary counter. The indicator unit includes a plurality of indicating elements which are connected at the outputs of the successive counter stages and each of the indicator elements is associated with a particular indicia carried on a dB scale. With a squarer as the exponential circuit the dB scale has a 3 dB incrementation for the respective indicator elements.

Abstract: Moving section plane pictures of a specimen are produced by contacting a predetermined peripheral portion of an ultrasonic transducer head with the specimen in the section plane. The transducer head has a circular internal cavity in which a wheel is mounted eccentrically for rotation about an axis. A plurality of ultrasonic transducers are mounted peripherally on the wheel. The gap formed between a transducer and the internal surface of the transducer head is a minimum along the peripheral portion where contact to the specimen occurs. Each transducer is energized only when passing through the sector subtended by the peripheral portion in contact with the specimen and echoes received by the transducer are displayed on a screen whose base line is synchronized to the movement of the ultrasonic beam.

Abstract: A real-time ultrasonic imaging system includes a display which is compensated for the non-ideal characteristics of the search beam profile. Echo responsive electrical signals are provided to a preprogrammed computing means for being processed to compensate for the characteristics of the test probe. The processed signals are displayed as being in focus at all distances from the probe, thereby resulting in an image exhibiting improved resolution.

Abstract: A system for continuously determining the eccentric characteristics of a tube wall, including a positioning assembly supported by the tube when it travels in its lengthwise direction. Two thickness sensors are supported by the positioning assembly and have sensing axes disposed in a predetermined angular relation with respect to one another about the periphery of the tube. The two sensors continuously measure the wall thickness of the tube at the predetermined angular locations as the tube moves in its lengthwise direction. Signal processing circuits are provided for continuously computing the eccentricity characteristics of the tube based entirely upon the comparative values of the thickness readings of the sensors.

Abstract: A device is provided for reducing internal reflections from the tire of an ultrasonic search wheel probe or from within the material being examined. The device includes a liner with an anechoic chamber within which is an ultrasonic transducer. The liner is positioned within the wheel and includes an aperture through which the ultrasonic sound from the transducer is directed.

Abstract: In order to increase the speed at which a workpiece is tested by the ultrasonic pulse-echo method, the dead time between individual measurement time intervals is shortened by providing a minimum predetermined time interval selected for the specific test conditions. When an echo responsive signal is manifest in the receiving circuit, in order to prevent the occurrence of phantom echo signals arising in the following measuring interval, the generation of the succeeding transmit signal is inhibited for the predetermined time interval after receipt of the last echo responsive electrical signal of the measuring interval having an amplitude exceeding a predetermined minimum amplitude. The test speed therefore, is made adaptive to the condition of the receipt of the number of echo responsive electrical signals exceeding a predetermined minimum amplitude.