RU2008129053A - FUEL MEASURING ELECTRIC CAPACITY SYSTEM - Google Patents

Abstract

Fuel-measuring electric capacitive system, which includes fuel level sensors and fuel level indicators installed in the fuel tank, as well as the first unit for measuring the fuel volume, the unit for calculating the fuel mass and means for determining the spatial position of the free fuel surface connected to one of the inputs of the first unit for measuring the volume fuel, the other inputs of which are each connected to the output of one of the fuel level sensors, and the output of the said unit is connected to the first input of the fuel mass calculating unit, characterized in that a multi-sensor of fuel characteristic parameters installed in the fuel tank is additionally introduced into it, containing an ultrasound velocity sensor in fuel, a fuel temperature sensor and a fuel dielectric constant sensor, in addition, a second unit for measuring the volume of fuel, a unit for measuring fuel density, a signal generating unit and a fuel density comparator, which includes fuel density calculator, as well as the first, second and third fuel density converters, the output of each of which is connected to one of the inputs of the fuel density calculator, while each of the fuel level sensors is an electric capacitive level sensor combined with an ultrasonic level sensor, an electric capacitive sensor level is made in the form of a cylindrical coaxial capacitor with external and internal electrodes, and the ultrasonic level sensor is made in the form of a tubular acoustic waveguide equipped with a first piezoelectric transducer and a float acoustic�

Claims (1)

Fuel-measuring electrical capacitive system, which includes fuel level sensors and fuel level sensors installed in the fuel tank, as well as a first fuel volume measuring unit, a fuel mass calculation unit and a means for determining the spatial position of the free surface of the fuel connected to one of the inputs of the first volume measuring unit fuel, the other inputs of which are each connected to the output of one of the fuel level sensors, and the output of the said unit is connected to the first input of the calculation unit fuel mass, characterized in that it additionally contains a multisensor of fuel characteristic parameters installed in the fuel tank, comprising a ultrasonic velocity sensor in the fuel, a fuel temperature sensor and a dielectric constant of the fuel; in addition, a second fuel volume measuring unit and a density measuring unit are additionally introduced fuel, a signal generation unit and a fuel density comparator, which includes a fuel density calculator, as well as the first, second and third converters fuel density sensors, the output of each of which is connected to one of the inputs of the fuel density calculator, while each of the fuel level sensors is an electric capacitive level sensor combined with an ultrasonic level sensor, the electric capacitive level sensor is made in the form of a cylindrical coaxial capacitor with external and internal electrodes and the ultrasonic level sensor is made in the form of a tubular acoustic waveguide equipped with a first piezoelectric transducer and a float acoustics a reflector, moreover, an internal electrode of an electric capacitive level sensor is used as a tubular acoustic waveguide, inside which a float acoustic reflector is mounted with the possibility of longitudinal movement, the fuel level indicator is a magnetically controlled float switch containing a float with permanent magnets installed in it and a magnetically sensitive module with magnetically controlled contacts, and as a float The fuel was floated using an acoustic reflector of an ultrasonic level sensor, and a magnetically sensitive module of the fuel level indicator is mounted on the external electrode of an electric capacitive level sensor, one of the outputs of the second fuel volume measuring unit is connected to the second input of the fuel mass calculation unit, the third input of which is connected to the output of the density measuring unit fuel, and the fourth input - with the output of the fuel density comparator, one of the inputs of the fuel density measuring unit is connected to the output of the first unit for measuring the volume of fuel, and the other input with the corresponding output of the second unit for measuring the volume of fuel, while the sensors included in the multisensor of the characteristic parameters of the fuel are connected as follows: the fuel temperature sensor is connected to the input of the first transducer of fuel density, the dielectric sensor fuel permeability is connected to the input of the second fuel density transducer and to the corresponding input of the first fuel volume measuring unit, and the speed sensor ice sound in the fuel is connected to the input of the third fuel density transducer and to the corresponding input of the second fuel volume measuring unit, the ultrasound speed sensor in the fuel is made in the form of a cylindrical acoustic waveguide equipped with a reference element and the second piezoelectric transducer, the dielectric permittivity of the fuel is made in the form of a cylindrical coaxial capacitor , the inner electrode of which is the lower part of the cylindrical acoustic waveguide, covered external ring electrode, while the means for determining the spatial position of the free surface of the fuel is equipped with a second output connected to the corresponding input of the second unit for measuring the volume of fuel, the other inputs of which are each connected to the output of one of the ultrasonic level sensors, the output of the unit for calculating the mass of fuel is intended to be connected to external systems, the signal generation unit contains majorization schemes, the inputs of each of which are connected each to the output of one of the magnetically controlled x contacts corresponding to this majorization scheme, the output of each of these schemes being simultaneously the output of the signal conditioning unit, designed to be connected to external systems, the reference element of the ultrasound velocity sensor in the fuel can be either a hole in the wall of a cylindrical acoustic waveguide or a rod, installed in the diametrical section of the latter, at least three permanent magnets are installed in the float acoustic reflector, a signal in the magnetically sensitive module of the fuel level monitor, the number of magnetically controlled contacts was established, which is two higher than the mentioned number of permanent magnets, and the float acoustic reflector is a hollow metal float with a flat lower reflective surface.