초록 ▼

Acoustic volume indicators comprise a resonator, a frequency detector, and an indicator. The resonator can be an impactor or a vibration generator. The detector responds to vibration signals provided from the tank wall, which signals will show a significant increase in amplitude at the resonant freq

Acoustic volume indicators comprise a resonator, a frequency detector, and an indicator. The resonator can be an impactor or a vibration generator. The detector responds to vibration signals provided from the tank wall, which signals will show a significant increase in amplitude at the resonant frequency of the tank and its contents. The detector can be an accelerometer designed to record the received signal. The recorded signal is converted/analyzed by the frequency detector, and is compared to a known preprogrammed specific frequency vs. volume characteristic of the tank. Various audible and/or visual output or indicator devices can be used to indicate whether the liquid volume measurements within or outside of a predetermined volume range based on the known tank characteristics.

대표청구항 ▼

1. An acoustic volume indicator comprising:(a) a resonating means for vibrating a wall surface of a container comprising a volume of liquid disposed therein, and further comprising a bladder disposed within the container and in contact with the liquid, the bladder comprising a volume of pressurized

1. An acoustic volume indicator comprising:(a) a resonating means for vibrating a wall surface of a container comprising a volume of liquid disposed therein, and further comprising a bladder disposed within the container and in contact with the liquid, the bladder comprising a volume of pressurized gas therein, the resonating means being positioned noninvasively outside of the container and adjacent to the outside surface of the container wall surface; (b) a resonating detecting means for receiving vibration data from the container wall surface, the resonating detecting means being positioned noninvasively outside of the container and adjacent the container wall surface; (c) a frequency detection means for receiving a data signal from the detecting means, converting the data signal to frequency information, and comparing the frequency information to stored frequency and volume information for the container; and (d) an indicating means for providing a desired visual or audible output. 2. The acoustic volume indicator as recited in claim 1 wherein the resonating means is an impactor that vibrates the container wall surface by striking the container with an impulse.3. The acoustic volume indicator as recited in claim 1 wherein the resonating means is an electromechanical vibration generator that vibrates the container wall surface by generating a sweep frequency.4. The acoustic volume indicator as recited in claim 1 wherein the resonating detecting means is an accelerometer, and is adapted to record the received vibration data.5. The acoustic volume indicator as recited in claim 1 wherein the frequency detection means comprises a microprocessor, and includes storage means for storing frequency and volume information for more than one liquid container.6. The acoustic volume indicator as recited in claim 1 wherein the resonating means, resonating detecting means, and frequency detection means are all packaged within a common housing.7. An acoustic volume indicator comprising:(a) an impactor for physically striking an outside surface of a liquid container with an impulse to momentarily vibrate the liquid container, the liquid container comprising a volume of liquid disposed therein, and further comprising an internal bladder disposed therein, the internal bladder comprising a volume of pressurized gas therein, the impactor being disposed noninvasively outside of the liquid container; (b) a detector for receiving and recording vibration information provided by the liquid container, the detector being positioned noninvasively outside of the liquid container; (c) a processor for receiving a data signal from the detector, converting the data signal to frequency information, and comparing the frequency information to stored frequency and volume information for the liquid container to determine the liquid volume in the liquid container; and (d) an indicator for providing an output indication of the determined liquid volume. 8. The acoustic volume indicator as recited in claim 7 wherein the detector is an accelerometer.9. The acoustic volume indicator as recited in claim 7 further comprising storage means for storing frequency and volume information for more than one liquid container.10. The acoustic volume indicator as recited in claim 7 wherein the impactor, detector, and processor are all packaged within a common housing.11. An acoustic volume indicator comprising:(a) a resonator positioned noninvasively adjacent an outside wall surface of a container to impose a sweep frequency onto the wall surface of the container, the container including a volume of liquid disposed therein; (b) an accelerometer for receiving and recording vibration information provided by the liquid container, the accelerometer being positioned noninvasively outside of and adjacent to the wall a surface of container; (c) a processor for receiving a data signal from the accelerometer, converting the data signal to frequency information, and comparing the frequency information to stored frequency and volume information for the container to determine the liquid volume in the container; (d) storage means for storing frequency and liquid volume information for more than one container; and (e) an indicator for providing an output indication of the determined liquid volume; (f) wherein the liquid container comprises a pressurized gas filled bladder disposed therein. 12. The acoustic volume indicator as recited in claim 11 wherein the resonator, accelerometer, processor, storage means, and indicator are all packaged within a common housing.13. A fluid containment system comprising:(a) a liquid container comprising a volume of liquid and a pressurized gas filled bladder disposed therein; (b) a resonator for vibrating force an outside wall surface of the liquid container, the resonator being positioned noninvasively outside of the liquid container and adjacent to the outside wall surface; (c) a detector for receiving and recording vibration information provided by the liquid container, the detector positioned adjacent noninvasively outside of the liquid container and adjacent to the outside wall surface of the liquid container; (d) a processor for receiving a data signal from the detector, converting the data signal to frequency information, and comparing the frequency information to stored frequency and volume information for the liquid container to determine the liquid volume in the liquid container; and (e) an indicator for providing an output indication of the determined liquid volume. 14. A noninvasive method for measuring a liquid level within a liquid container comprising the steps of:(a) vibrating an outside wall surface of the liquid container from a position outside of the liquid container, the liquid container comprising a volume of liquid disposed therein, and further comprising an internal pressurized gas filled bladder disposed therein; (b) receiving vibration data from the liquid container by use of a device positioned outside of the container and in contact with the outside wall surface of the liquid container; (c) converting the vibration data into frequency; (d) comparing the frequency to stored frequency and liquid volume data for the liquid container to determine a liquid volume; and (e) providing an output indicative of the determined liquid volume. 15. The method as recited in claim 14 wherein the step of vibrating comprises striking the liquid container to cause a momentarily vibration.16. The method as recited in claim 14 wherein the step of vibrating comprises generating a sweep frequency vibration in the liquid container.17. The method as recited in claim 14 further comprising the step of storing the vibration data.