SU1091024A1 - Level indicator - Google Patents

Abstract

A level meter containing two sensors associated with two normalizing converters, a current stabilizer connected to one of the sensors, two comparators, a reference signal source connected to one of the comparators, and a summing and scaling device, characterized in that accuracy and reliability of measurement; two differential amplifiers, a second reference source, an inertial link, a differentiating chain, a single vibrator, an AND circuit consisting of three analog switches, a device memory, the second level sensor is made of thermoelectric level converters located along the height of the measured level, while the output of the normalizing converter of the first level sensor is connected to the inputs of two differential amplifiers with the inputs of the inertial link and the first input of the summation device link is connected to the second input of the first differential amplifier, the output of which is connected to the inputs of the first and second comparators, the second inputs of which are connected with the outputs of the first and second sources of reference signals, and the outputs of the comparators are connected to the control inputs of two analog-g output switches of the And circuit, the output of the second normalizing converter is connected to the input of the second differential amplifier and through a differentiating chain to the input of the single-oscillator, the output of which is connected to the control the input of the third analog key of the circuit And, while the output of the second differential amplifier through the analog keys of the circuit And connected to the input of the memory device, the output of which is connected to V Orym VHO-Lamay. the house of the summation and scaling device, the output of which is the output of the level gauge.

Description

The invention relates to a measuring technique and is intended for use in control and regulation systems for the level of aggressive liquid media E of hermetic objects with high power parameters with increased requirements for reliability and accuracy. Discrete level gauges with thermoelectric converters are known - capable of operating in nuclear reactors, containing thermoelectric converters located along the height of the measured level and a conversion unit. Such level gauges have a high accuracy of measuring the s / r of the controlled medium at discrete points of the static modes, have a high operational level, integrity), due to the reliability of the primary transducers and are capable of operating under aggressive media conditions, high temperatures and pressures 1, their disadvantage is the decisiveness of the solution, which is due to 3, the initial measurement error of the level of interruptions at discrete points, the interchangeable error of the error at discrete points, especially when measuring enii ponizhagaschegos urovnYar due to long time evaporation residue teplonos bodies on Tergi yuelektricheskih preobrazozatel ho of -techenie which OTcy-j. There is a change in the information of each level of the level gauge .- which together does not allow them to use the systems for regulating the level of heat-generating power plants (NPP). Increasing the number of thermoelectric conversions E. fuse to increase accuracy leads to significant hardware costs, complicates This device also reduces its reliability. Also known are discrete poplar head level gauges containing a differential transducer sensor and measuring converter “These gauges are intended to be used for slaves on condition. X high temperatures up to pressures up to 40 ML IG the investigator are suitable for the purpose of measuring the level of the heat carrier of NPI 2. Their disadvantage is the low accuracy f inherent in discrete level gauges. The closest to the invention is a two-channel level measurement system consisting of two differential transformer sensors, one of two normalizing transducers, two power stabilizers for the primary circuit of the sensors, the source of the reference signal of two coders ,. The four, e.x managed keys of the summation and scaling device are i 3. 1 The disadvantages of the known system are low accuracy and insufficiently high measurement reliability. The low accuracy of the system is due to the non-linearity of the sensor characteristics and their dependence on the change in temperature in the test object, resulting in a system error of at least 2.5% of the upper limit of measurement. The system informational lowness is due to the fact that only failures are eliminated in the system, caused by interruptions in the sensor windings and in the communication line, the metrological failures, the increase in the error of measuring channels arising in the process of the level gauge, The purpose of the invention is to improve the accuracy and reliability of the measurement. The goal set is attained; that in a level meter containing two level sensors associated with two normalizing converters, a current stabilizer connected to one short-circuit of the sensors, two comparators, a source of a reference signal connected to one to 1-13 comparators, and usgrost. in cy v world and scaling, two differential amplifiers were introduced, the second source of the reference signal., an inertial link, differentiating the chain, one-shot, I and I. scheme consisting of three analog slots, a memory device, and the second level sensor is made of thermoelectric G5 The generators ypoBMHf are located along the height of the metering level, while the output of the normalizing transducer of the first sensor is connected to the inputs of two differential amplifiers, with the inputs of the inertial unit and the first input of the device to the second unit the input of the first differential amplifier, the output of which is connected to the inputs of the first and second comparators, the second BKODLY of which are connected to the outputs of the first and second sources of reference signals of different sources. The j.paTopOB terminal is connected to the control Nlodes of the two-analog switches AND, the output of the EiToporo normalizing pre-distributor is connected to the input of the second differential amplifier and through a differentiating chain with a single-vibrator one whose output is connected to the control input of the third analog key K, Thereby, the output of the second differential amplifier is connected via analog switches c.xsf / s to the memory device, the output of which is connected to the second input of the summation and scaling device, the output of which is the output level vnemera. Increasing accuracy and informational reliability is performed in the proposed level gauge by introducing a constant effective correction into the output signal of the level gauge. The magnitude of the correction signal is determined by comparing the output signals of the first normalizing converter and the second normalizing converter when the output signal of the output signal is varied to practically zero the dynamic signal. errors in the working thermoelectric level converter. In the gage circuit, the detection of the moments of equality to zero of the dynamic error of the working thermoelectric converter is provided by an inertial link, the first differential amplifier and two comparators, which reveal the permissible value and sign of the rate of level change. The moment of discrete change in the output of the second normalizing converter is detected by means of a differentiating chain. A comparison of the output signals of the first and second normalizing transducers is provided by a second differential amplifier. To provide the possibility of introducing a permanent correction of the output signal of the level gauge, use is made of a memory device, a summation and scaling device, and a one-shot that specifies the time required for the comparison result to be written to the memory device, and three analog keys of the AND circuit required for information input. Correction to the memory device controlled by the output signals of the comparators and the one-shot. The drawing shows the structures on the circuit of the gage. The level gauge contains differentially transformer sensor 1 level N thermoelectric converters 2 level stabilizer 3 current, first normalizing converter 4, second normalizing converter 5, two differential amplifiers 6 and 7, integrating element 8, differentiating chain 9, two sources 10 and 11 of the reference signal, - one-shot 12, two comparators 13 and 14, memory device 15, AND circuit 16, consisting of three analog switches 17–19, device 20 summation and scaling. When the level of the monitored medium changes, a signal proportional to the measured level is generated at the output of the converter 4. At the same time, at the output of the converter 5, an output signal is generated, the magnitude of which is discretely increased or decreased in the time when the medium-controlled location of the corresponding thermoelectric converter is reached. The output signal of the converter 4 is fed to the first input of the device 20, to the first input of the amplifier 6, the second input of the amplifier 7j and through the device 8 to the first input of the amplifier 7.1. . The output signal of the amplifier 7 is fed to the first inputs of the comparators 13 and 14, the second inputs of which receive signals from sources 10 and 11 The output signals of the comparators 13 and 14 are fed to the control inputs of keys 18 and 19 of the circuit 16. The output signal of the converter 5 is fed to the second input of the amplifier b and to the input of the device 9. At the output of the amplifier 6, a signal is generated between the signals of the converters 4 and 5, which is fed to the information input of the switch 19 of the circuit 16. The output signal of the device 9, generated only at the moment of discrete change in the output signal of the converter 5, is fed to the input of the one-shot 12, the output of which is fed to the control input of the key 17 of the circuit 16. The output signal of the circuit 16 is fed to the second input of the device 20. The output signal of the amplifier 7 proportional to the difference of the instantaneous value of the output signal of the converter 4 and its previous value, directly using the device 8, carries information about the speed and sign of the level change. The comparator 13 generates a signal closing the switch 18 of the circuit 16 at a rate of change of level less than the allowable value determined by the output signal of the source 10. Comparator 14 using a source 11 generates a signal of the closing switch 19 of the circuit 16 only when the level does not change or increase , since in this case the output signal of the amplifier 7 has, for example, a positive polarity, the value of which is greater than or equal to zero. Thus, the input of the device 15 comes from the output of the device 6, the correction signal equal to the difference between the output signals of the converters 4 and 5 only at the moments of discrete change of the output signal of the converter 5 and the dynamic error is zero, because only at these moments are the keys

Claims (1)

LEVELER, containing two sensors connected to two normalizing converters, a current stabilizer connected to one of the sensors, two comparators, a reference signal source connected to one of the comparators, and a summing and scaling device, characterized in that, in order to improve accuracy and measurement reliability, two differential amplifiers are introduced into it, a second reference signal source, inertial link, differentiating chain, one-shot, I circuit, consisting of three analog keys, a memory device, Moreover, the second level sensor is made of thermoelectric level converters located along the height of the measured level, while the output of the normalizing converter of the first level sensor is connected to the inputs of two differential amplifiers, to the inputs of the inertial link and to the first input of the summation and scaling device, the output of the inertial link is connected with the second input of the first differential amplifier, the output of which is connected to the inputs of the first and second comparators, the second inputs of which are connected to the outputs of the first and second sources of the reference signals, and the outputs of the comparators are connected ^ to the control inputs of two analog-§ output keys of the circuit AND, the output of the second normalizing converter is connected to the input of the second differential amplifier and through a differentiating circuit with the input of a single-vibrator, the output of which is connected to the control input of the third analog the circuit key And, while the output of the second differential amplifier through the analog keys of the circuit And is connected to the input of the memory device, the output of which is connected to the second bxo-Lc ^ a device summation and scaling, the output of which is the output of the level gauge. 1 About 910 2 "