SU393591A1 - I ALL-UNION - Google Patents

Description

one

The invention relates to the field of instrumentation and is intended to measure fluid flow in weight units, for example, to measure fuel consumption on aircraft.

In the known flow meters, the correction for the change in density is carried out by switching electromagnetic elements, which reduces the reliability of the system, especially in conditions of high and low temperatures.

The purpose of the invention is to increase the accuracy of measurement of fluid flow and increase reliability.

This goal is achieved by the fact that the density correction circuit is made in the form of a pulse counter on density, one output of which is connected via a linear decoding converter with a comparison circuit, and the other two outputs are connected to decipherors and a control trigger connected via an AND circuit to pulse counter. density, while the comparison circuit is connected through the circuit "And with a reversible pulse counter, and the density meter is connected to the second input of the comparison circuit through the threshold device, decryptors, circuit" And also to the reverse ivnomu pulse counter.

The block diagram of the proposed flow meter shown in the drawing.

The circuit contains a volume flow sensor 1, a pulse shaper 2, a frequency divider 3, an OR 4 circuit, a reversible pulse counter 5, a counting device 6, a delay circuit 7, an AND 8 circuit, a correction pulse pulse 9, a linear decoding converter 10 , comparison circuit 11, density meter 12, And 13 and 14 circuits, inverter 15, Amendment markers 16 and 17 decoders, And 18 circuits, weight counter 19, control trigger 20 and switch 21.

The pulses from the sensor volumetric flow of fluid 1 through the driver 2 and the pulse divider 3 is fed to the input of two channels of passage of pulses. The first channel provides for the passage of pulses directly from the volume flow sensor 1 through the OR 4 circuit and the reversible pulse counter 5 to the input of the counting device 6. The pulses entering the counting device 6 through the first channel correspond to the previously calculated average fluid density (for example at

change in density from, 7 to mouths 0.9, the average calculated density will be pcp 0.8), which is achieved by selecting the gear ratio of the gearbox in the sensor / or by selecting the appropriate division factor of the frequency divider 3. Thus, the input

but-recording device 6 on this channel pimpuls having average calculated weight are received.

The pulses on the second channel — the density correction channel — come from the output of frequency divider 5 through delay circuit 7. The pulses go through the “AND S” circuit and arrive at the input of the counter 9 pulses for density correction, which operates in the self-reset mode to zero. The outputs of trigger pulses of the correction meter 9 are connected to a line-decoding converter 10, the output of which is connected to the comparison circuit P. The other input of this circuit receives voltage from the density meter circuit 12, which is proportional to the density of the liquid being measured. As a result of the introduction of a correction pulse to the pulse counter 9, the voltage on the linear-decoding converter 10 will increase stepwise. With equal t / ldp and voltage U, proportional to the density of the liquid, with .Pmiii 0.7, coming from the density meter 12, the comparison circuit // works. The high potential from the output of the comparison circuit 11 (“-1) opens the“ AND 13 ”circuit. Since its other input will also have a high potential“ -1 ”from the decryptor of the amendment sign 16. Passing through the“ 13 ”circuit, the delayed pulses go to the reversing a pulse counter 5, where they are subtracted from the number of pulses having a weight at pcp 0.8, which provides an amendment to the density of the liquid. The decipher sign of amendment 16 provides the opening of the valve "And 13 in the range of change in the density of the fluid from pmin 0.7 to Pcp 0.8, and the deciphering sign of amendment 17 provides the opening of the circuit" And 14 in the range of density from ppc 0.8 to Ptah 0.9 .

Assume that the density of the fluid increases and becomes equal to p 0.85. In this case, the comparison circuit // outputs “O. Pa output of the inverter 15 as a result of this will be a high potential “-1, which opens the circuit“ And 14, since a high potential “-1 from the decalifier of the correction mark 17 will be output to the second input of this circuit. The pulses delayed by the delay circuit 7 pass through The circuit "AND 14" is received through the circuit "OR 4 to the input of the reversible pulse counter 5, where they are summed with the pulses having" weight at ppc 0.8. As soon as the voltage of the linear-decoding converter 10 becomes equal to the voltage coming from the density measurement circuit 12, the comparison circuit 11 outputs the potential -1 to the input of the inverter 15. Lack of output capacity

Inverter 15 closes the & M circuit, thereby terminating the amendment of this cycle.

The measurement cycle for the weight of the fluid portion is determined by the number of pulses of the pulse counter 19. Filling the counter with 19 pulses at a density of ppc 0.8 corresponds to the "weight of the fluid portion that is corrected when the density changes." Pulse

the overflow of the counter 19 switches the trigger of the control 20, determining the beginning of the amendment to the fixed weight of the liquid portion. Triggering control trigger 20 ensures the closure of the And 18 scheme (termination of the access of pulses to the counter 19) and the opening of the And 8 scheme (the beginning of the amendment). After density correction, the overflow pulse of counter 9 reverts control trigger 20 to its original state.

a state in which the access of pulses to the counter 9 is closed through the AND-8 scheme and the access of the pulses to the counter 19 through the AND-18 scheme, which determines the next correction cycle. In the event of a channel failure, the corrections from the output of the density measurement circuit 12 will be given out zero potential, which is fed to the threshold switch 21. When activated, the threshold switch 21 with its contacts P delivers

the zero potential at the inputs of the circuits “And 13 and 14. The circuits“ And 13 and 14 are closed, and the reversible pulse counter 5 receives impulses directly with the sensors 1. Thus, the channel is corrected for density

will be eliminated, and the weight flow meter will measure the fuel consumption by the average calculated density pcp 0.8.

Subject invention

A mass flow meter comprising a volume flow meter, a pulse shaper, a reversible pulse counter, a counting instrument, a density meter, and a correction circuit characterized in

that, in order to increase measurement accuracy and increase reliability, the correction circuit is made in the form of a density emulsion counter, one output of which is connected via a linear-decoding converter with a comparison circuit, and the other two outputs are connected to decoders and a control trigger. to the pulse counter by density, while the comparison circuit is connected through the schemes "And with a reversible pulse counter, and the density meter is connected to the second input of the comparison circuit and through the threshold device, the decoder tori circuit "and also to the reversible pulse counter.