RU2759208C1 - Method for measuring the level of liquid and mass in fuel tanks and reservoirs during rolling and tilting and apparatus for implementation thereof - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to measuring equipment, namely, to methods and means for measuring the level, volume and mass of liquids in reservoirs with petroleum, petroleum products, liquefied gases, etc., and can be applied in apparatuses for measuring the fuel reserves in tanks of vessels and vehicles. Substance: the inventions use a three-link phasing RC-chain containing capacitive level sensors and external resistances and together with an amplifier forming a generator, the frequency whereof is used to determine the level and mass of the liquid. The capacitive level sensors are made in the form of flat capacitors made of foiled fibreglass laminate plates, the upper plates whereof are located on a floating roof or at the top of the reservoir, and the lower common plate is located at the bottom of the reservoir. The upper plate of the central capacitor of the capacitive sensor therein has an area twice as large as the area of each of the other four plates arranged uniformly symmetrically along the axes of symmetry of the reservoir. One link of the three-link phasing RC chain includes the upper plate of the central capacitor with an external resistance, and the other two links include the upper plates of the capacitors arranged uniformly symmetrically along one axis, connected in parallel, and external resistances. The mass of the liquid is determined accounting for the shape of the inner cavity of the reservoir, and the calculations are adjusted depending on the temperature, permittivity and density of the liquid. The program of the microcontroller included in the apparatus is equipped with a graduated characteristic of the dependence of frequency on the mass of the liquid, accounting for the shape of the inner cavity of the reservoir, as well as an adjustment of the calculations of level and mass from the sensors of the temperature, permittivity and density of the liquid, supplied to the input thereof.

EFFECT: possibility of continuous measurement of the level of liquid when the position of the reservoir in space changes, possibility of calculating the mass accounting for the shape of the inner cavity of the reservoir and the corrections for temperature, density and permittivity, simplified requirements for the structure of the measured object.

2 cl, 3 dwg

Description

The invention relates to measuring technology, namely to methods and means for measuring the level, volume and mass of liquids in tanks with oil, oil products, liquefied gases, etc., and can be used in devices for measuring the fuel supply in the tanks of ships and vehicles.

A known frequency method for measuring the liquid level (RF patent No. 2624978, publ. 11.07.2017, G01F 23/16, bull. No. 20) by measuring an electrical parameter functionally related to the measured level, which consists in the fact that the upper plate of the capacitor is placed on a floating the roof, and the lower one - at the bottom of the tank and is connected to three external resistances and two capacitors forming a phasing chain of the generator, the frequency of which is set in accordance with the measured electrical parameter. In this case, through the functional frequency-code converter, the result is fed to the level indicator.

The disadvantage of the analogue is the impossibility of measuring the unsteady liquid level in fuel tanks and tanks during their pitching and tilting.

The closest in technical essence are a method for measuring the level of a liquid when the position of the tank changes and a device for its implementation (RF patent No. less than five, pivotally suspended to maintain their vertical position during tank oscillations in two planes, located evenly along the axes of its symmetry and forming, together with external resistors, a phasing RC-chain of a harmonic oscillator connected through a frequency meter of nominal values and a controller, the program of which is provided with a graduated characteristic the dependence of the frequency on the mass of the liquid and taking into account the shape of the internal cavity of the tank, as well as the possibility of correcting the values of the dielectric constants of various liquids, the instrumental measurement error during calibration after installing the capacitive level sensors in the tank, setting the frequency value, respectively the minimum mass of liquid in the tank, upon reaching which an additional indication mode is switched on, to the indicator of the level and mass of the liquid.

The disadvantages of the prototype are the use of capacitive level sensors, at least five, pivotally suspended to maintain their vertical position during tank vibrations in two planes, which reduces the measurement speed and requires additional maintenance of the pivot joints to reduce friction; no corrections for the temperature and density of the liquid required to calculate the mass.

The objective of the invention is to create a new approach to measuring the level and mass of a liquid using a simplified scheme for constructing a phasing chain of the generator, which makes it possible to measure non-stationary levels by the frequency method with automatic correction of the calculation program from the temperature, dielectric constant and density sensors entering the controller input.

The problem is solved by using a method for measuring the liquid level and mass in fuel tanks and tanks during pitching and tilting, including the use of a three-link phasing RC-chain containing capacitive level sensors and external resistances and forming, together with an amplifier, a generator, the frequency of which determines the level and mass of the liquid , characterized in that the capacitive level sensors are made in the form of flat capacitors made of foil-clad fiberglass plates, the upper plates of which are located on the floating roof or at the top of the tank, and the lower common plate - at the bottom of the tank, and the upper plate of the central capacitor of the capacitive sensor has an area twice is larger than the area of each of the other four plates, located evenly symmetrically along the axes of symmetry of the tank, moreover, one link of the three-link phasing RC-chain includes the upper plate of the central capacitor with an external resistance, and two other links are connected in parallel the th upper plates of the capacitors, located uniformly symmetrically along one axis, and external resistances, while the mass of the liquid is determined taking into account the shape of the internal cavity of the tank and the calculations are corrected depending on the temperature, dielectric constant and density of the liquid.

The task is also solved by a device for measuring the level of liquid and mass in fuel tanks and tanks during rolling and tilting, containing a three-link phasing RC-chain, including capacitive level sensors and external resistances and forming, together with an amplifier, a generator connected through a microcontroller with a digital indicator, which differs the fact that the capacitive sensors are made in the form of flat capacitors made of foil-clad fiberglass plates, the upper plates of which are located on the floating roof or at the top of the tank, and the lower common plate is at the bottom of the tank, the upper plate of the central capacitor of the capacitive sensor has an area twice the area of each of the other four plates, located uniformly symmetrically along the axes of symmetry of the tank, and, moreover, one link of the three-link phasing RC-chain includes the upper plate of the central capacitor with an external resistance, and the other two links contain the upper plates of the condenser connected in parallel The microcontroller program is equipped with a graduated characteristic of the frequency dependence on the mass of the liquid, taking into account the shape of the internal cavity of the tank, as well as correction of the level and mass calculations from temperature, dielectric constant and density sensors entering its input liquids.

The technical result achieved from the implementation of the claimed group of inventions consists in continuous measurement of the liquid level when changing the position of the tank in space using the original circuit of capacitive level sensors and a microcontroller that calculates the mass taking into account corrections for temperature, density and dielectric constant, and a graduated characteristic of the shape of the internal cavity reservoir; in simplifying the requirements for the design of the object of measurement, which expands the possibilities of using sensors and reduces the cost of their installation.

In addition, the essence of the technical solution is illustrated by drawings, where:

- figure 1 shows a schematic diagram of the phasing chain;

- figure 2 shows a diagram of the arrangement of the plates of the capacitors in the tank;

- figure 3 shows a block diagram of the level gauge.

Essence: the method is implemented by using flat capacitors made of foil-clad fiberglass in the phasing chain of an RC generator, the upper plates of which are located on the floating roof or at the top of the tank, and the lower common plate is at the bottom of the tank, and connected to three external resistances, the frequency of which is set in accordance with measured level, then through a microcontroller the result is fed to a digital indicator.

The recommended layout of the capacitor plates of the capacitive level sensor along the reservoir, which are elements of the phasing circuit of the RC generator, and its electrical circuit are shown in Fig. 1 and Fig. 2, respectively. The plates are positioned along the axes of symmetry of the tank. When the tank is tilted in different planes, the total capacitances of the capacitors connected in parallel in pairs

C _2-1 + C _2-2 = C _6-1 + C _6-2 = C ₄ = C

do not change, because as far as the capacitance of the capacitor, for example, C _2-1, increases from the slope due to a decrease in the level h, so the capacitance of the capacitor C _2-2 will decrease, keeping the total capacity equal to C ₂ = C at a given tilt of the tank or fuel tank.

трехзвенной фазирующей цепочки определяется из выраженияQuasi-resonance frequency

a three-link phasing chain is determined from the expression

where R is the resistance of the phasing chain.

Let us determine the dependence of the generator frequency on the liquid level in the tank. The capacitance of a flat capacitor C level measure is

where ε ₀ - electrical constant;

ε is the relative dielectric constant of the liquid;

S is the area of the plate of the capacitor C;

h - liquid level.

Substituting the value (2) into (1), we obtain

from which we derive the dependence of the unsteady liquid level on the generator frequency

Knowing the base area of the tank or reservoir, as well as the density and temperature of the liquid entered from the corresponding sensors into the microcontroller, it calculates the mass and displays it on a digital indicator.

A device for measuring the level of liquid and mass in fuel tanks and tanks during rolling and tilting (Fig. 3) contains a phasing chain 1 of external resistances and capacitive level sensors in the form of a flat capacitor, forming, together with amplifier 2, a generator 3 connected through a microcontroller 4 with digital indicator 5.

The microcontroller program is equipped with a graduated characteristic that takes into account the shape of the internal cavity of the tank or fuel tank, as well as correction of the level and mass calculations from the temperature, dielectric constant and density sensors entering its input.

The device works as follows. With changes and fluctuations in the liquid level in the tank or fuel tank, the values of the capacities of the level sensors change, and the total capacities of the pairwise connected sensors are unchanged, and form a homogeneous phasing chain 1 of the generator 3 with the central capacitance and external resistances. the frequency of the generator 3, which is processed by the microcontroller 4 into units of level and mass and is indicated on the digital indicator 5.

So, the claimed invention allows you to continuously measure the level and mass of the liquid when changing the position of the tank or fuel tank in space using flat capacitors as capacitive level sensors, which ensures high reliability of the method and low cost.

Claims (2)

1. A method for measuring the level of liquid and mass in fuel tanks and tanks during pitching and tilting, including the use of a three-link phasing RC-chain containing capacitive level sensors and external resistances and forming, together with an amplifier, a generator, the frequency of which determines the level and mass of the liquid, which is different the fact that the capacitive level sensors are made in the form of flat capacitors made of foil-clad fiberglass plates, the upper plates of which are located on the floating roof or at the top of the tank, and the lower common plate at the bottom of the tank, and the upper plate of the central capacitor of the capacitive sensor has an area twice the area each of the other four plates, located uniformly symmetrically along the axes of symmetry of the tank, and one link of the three-link phasing RC-chain includes the upper plate of the central capacitor with an external resistance, and the other two links include the parallel connected upper plates of the capacitors, located They are uniformly symmetrical along one axis, and external resistances, while the mass of the liquid is determined taking into account the shape of the internal cavity of the tank and the calculations are corrected depending on the temperature, dielectric constant and density of the liquid. 2. A device for measuring the level of liquid and mass in fuel tanks and tanks during rolling and tilting, containing a three-link phasing RC-chain, including capacitive level sensors and external resistances and forming, together with an amplifier, a generator connected through a microcontroller with a digital indicator, characterized in that, that the capacitive sensors are made in the form of flat capacitors made of foil-clad fiberglass plates, the upper plates of which are located on the floating roof or at the top of the tank, and the lower common plate is at the bottom of the tank, the upper plate of the central capacitor of the capacitive sensor has an area twice the area of each of the other four plates arranged evenly symmetrically along the axes of symmetry of the tank, and one link of the three-link phasing RC-chain includes the upper plate of the central capacitor with external resistance, and the other two links include parallel-connected upper plates of capacitors located evenly symmetrically along one axis, and external resistances, and the microcontroller program is equipped with a graduated characteristic of the frequency dependence on the mass of the liquid, taking into account the shape of the internal cavity of the tank, as well as correction of the level and mass calculations from the temperature, dielectric constant and density sensors entering its input.

Images