Apparatus for measuring the weight of fuel remaining in a fuel tank on a flying object
First Claim
1. An apparatus for measuring weight of fuel remaining in a fuel tank on a flying object, said tank having an excess pressure, said apparatus comprisingthree fuel level detectors (13a, 13b, 13c) comprising three absolute pressure measuring transducers of a type outputting a pressure in a form of a frequency signal, said pressure transducers being immersed in said fuel to detect fuel level, and said pressure transducers being provided on the bottom of said fuel tank at predetermined distances from each other in the same plane (k,l) so as to calculate an angle of inclination of fuel surface, fuel level and density while cancelling the component of acceleration included in a detected value outputted from each of said pressure transducers;
- an auxiliary fuel level detector (24) comprising at least one pressure transducer positioned at a predetermined distance (μ
) substantially directly above at least one of said fuel level detectors and within said fuel tank;
an internal pressure detector (15) comprising an absolute pressure measuring transducer of a type outputting an internal pressure value in a form of a frequency signal, said internal pressure transducer being disposed within said fuel tank alone at a position which is out of contact with said fuel to measure internal pressure of said fuel tank which is in an excess pressure state as an absolute pressure value, said measured internal pressure being provided to eliminate a detected pressure value of said fuel tank in an excess pressure state which is included in the detected values outputted from said fuel level detectors and said auxiliary fuel level detectors; and
a processor unit connected to said fuel level detectors, said auxiliary fuel level detector and said internal pressure detector, and comprising a memory (26) for storing information concerning predetermined fuel level, predetermined inclination angle and predetermined volume characteristics matched with the shape of said fuel tank and calculated information required to calculate weight of remaining fuel, a frequency input interface (27) supplied with outputs from said fuel level detectors, said auxiliary fuel level detector and said internal pressure detector, a calculation function circuit (29) for calculating angle of inclination of fuel surface and fuel level in a form wherein the component of acceleration included in each measured pressure value is cancelled by dividing the pressure values outputted from said fuel level detectors by the pressure values outputted from said auxiliary fuel level detectors, on basis of information inputted to said frequency input interface and information stored in said memory, for obtaining volume of fuel from said stored information concerning predetermined fuel level, predetermined inclination angle and predetermined volume characteristics, for calculating density of fuel on basis of pressure values outputted from said auxiliary fuel level detector and one of said fuel level detectors disposed vertically opposite thereto, pressure values outputted from two of said three fuel level detectors and values relating to distances between said three fuel level detectors, and for obtaining a weight of remaining fuel by multiplying together said fuel volume and said fuel density, and an output interface (30) for outputting the results of calculation performed by said calculation function circuit.
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Accused Products
Abstract
An apparatus for measuring the remaining weight of fuel in a fuel tank on a flying object, comprising a first set of pressure transducers for detecting the level of fuel in the tank and its density and for outputting the corresponding pressure values; another pressure transducer for detecting the absolute pressure in the tank; and a processor unit connected to the respective transducers for receiving pressure information therefrom and for calculating the remaining weight of the fuel utilizing the pressure information and relevant data stored in a memory. The apparatus is substantially smaller in weight and less expensive than any conventionally known apparatus, and has a high degree of accuracy and reliability of performance.
27 Citations
5 Claims
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1. An apparatus for measuring weight of fuel remaining in a fuel tank on a flying object, said tank having an excess pressure, said apparatus comprising
three fuel level detectors (13a, 13b, 13c) comprising three absolute pressure measuring transducers of a type outputting a pressure in a form of a frequency signal, said pressure transducers being immersed in said fuel to detect fuel level, and said pressure transducers being provided on the bottom of said fuel tank at predetermined distances from each other in the same plane (k,l) so as to calculate an angle of inclination of fuel surface, fuel level and density while cancelling the component of acceleration included in a detected value outputted from each of said pressure transducers; -
an auxiliary fuel level detector (24) comprising at least one pressure transducer positioned at a predetermined distance (μ
) substantially directly above at least one of said fuel level detectors and within said fuel tank;an internal pressure detector (15) comprising an absolute pressure measuring transducer of a type outputting an internal pressure value in a form of a frequency signal, said internal pressure transducer being disposed within said fuel tank alone at a position which is out of contact with said fuel to measure internal pressure of said fuel tank which is in an excess pressure state as an absolute pressure value, said measured internal pressure being provided to eliminate a detected pressure value of said fuel tank in an excess pressure state which is included in the detected values outputted from said fuel level detectors and said auxiliary fuel level detectors; and a processor unit connected to said fuel level detectors, said auxiliary fuel level detector and said internal pressure detector, and comprising a memory (26) for storing information concerning predetermined fuel level, predetermined inclination angle and predetermined volume characteristics matched with the shape of said fuel tank and calculated information required to calculate weight of remaining fuel, a frequency input interface (27) supplied with outputs from said fuel level detectors, said auxiliary fuel level detector and said internal pressure detector, a calculation function circuit (29) for calculating angle of inclination of fuel surface and fuel level in a form wherein the component of acceleration included in each measured pressure value is cancelled by dividing the pressure values outputted from said fuel level detectors by the pressure values outputted from said auxiliary fuel level detectors, on basis of information inputted to said frequency input interface and information stored in said memory, for obtaining volume of fuel from said stored information concerning predetermined fuel level, predetermined inclination angle and predetermined volume characteristics, for calculating density of fuel on basis of pressure values outputted from said auxiliary fuel level detector and one of said fuel level detectors disposed vertically opposite thereto, pressure values outputted from two of said three fuel level detectors and values relating to distances between said three fuel level detectors, and for obtaining a weight of remaining fuel by multiplying together said fuel volume and said fuel density, and an output interface (30) for outputting the results of calculation performed by said calculation function circuit. - View Dependent Claims (2, 3, 4)
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5. A method of measuring weight of fuel remaining in a fuel tank of an aircraft, said tank having an excess pressure, with an apparatus comprising
three or more fuel level detectors comprising three or more absolute pressure measuring transducers of a type outputting a pressure value in a form of a frequency signal, said pressure transducers being immersed in said fuel to detect a fuel level, and said pressure transducers being provided on the bottom of said fuel tank at predetermined distances from each other and in the same plane so as to calculate angle of inclination of fuel surface, fuel level and density while cancelling component of acceleration included in a detected value outputted from each of said pressure transducers; -
an auxiliary fuel level detector comprising at least one pressure transducer positioned at a predetermined distance substantially directly above at least one of said fuel level detectors and in said tank; an internal pressure detector comprising an absolute pressure measuring transducer of a type outputting an internal pressure value in a form of a frequency signal, said internal pressure transducer being disposed within said fuel tank alone at a position which is out of contact with said fuel to measure internal pressure of said fuel tank which is in said excess pressure state as an absolute pressure value, said measured internal pressure being provided to eliminate a detected pressure value of said fuel tank in an excess pressure state which is included in the detected values outputted from said fuel level detectors and said auxiliary fuel level detector; and a processor unit connected to said fuel level detector, said auxiliary fuel level detector and said internal pressure detector, and comprising as memory for storing information concerning predetermined fuel level, predetermined inclination angle of said fuel surface and predetermined volume characteristics matched with shaped of said fuel tank and calculated information required to calculate weight of remaining fuel, a frequency input interface circuit supplied with outputs from said fuel level detectors, said auxiliary fuel level detector and said internal pressure detector, a calculation function circuit for calculating angle of inclination of fuel surface and fuel level, volume of fuel, density of fuel and weight of remaining fuel, and an output interface circuit for outputting the results of calculations performed by said calculation function circuit, wherein said method comprises the steps of supplying to said input interface circuit output signals from said fuel level detectors, said auxiliary fuel level detectors, and said internal pressure detector; calculating by use of said calculation function circuit angle of inclination of fuel surface and fuel level in forms wherein component of acceleration included in each measured pressure value is cancelled by dividing pressure values outputted from said fuel level detectors by pressure values from said auxiliary fuel level detector, on basis of information supplied to said input interface circuit and information stored in said memory; obtaining by use of said calculation function circuit volume of fuel from stored information concerning predetermined fuel level, predetermined inclination angle of fuel surface and predetermined volume characteristics; calculating using said calculation function circuit density of fuel on basis of pressure values outputted from said auxiliary fuel level detector and said fuel level detector positioned opposite thereto, pressure values outputted from two of said fuel level detectors and values relating to said distances between said fuel level detectors; obtaining by use of said calculation function circuit weight of remaining fuel by multiplying together said fuel volume and said fuel density; and outputting by use of said output interface circuit the results of calculations performed by said calculation function circuit.
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Specification