SU752244A1 - Device for proportioning flows - Google Patents

Description

(54) DEVICE FOR REGULATING RATIO

EXPENSE

one

The invention relates to the regulation of non-electrical quantities and can be used in the refining industry and the petrochemical industry.

Currently known devices for controlling flow rates of liquids in a given ratio.

A device is known for automatic JQ1 1} Regulation of the ratio of fluid flow, which contains two flow meters with a pulse output, a comparison unit, an integrator and an actuator that changes one of the flow rates 1.

Modern technology requires high precision control with regard to changes in product parameters. This device is controlled without taking into account the temperature of liquids.

The closest in technical essence is a device for controlling the ratio of costs, with-25 holding the first temperature sensor installed in the first pipeline: and the first flow sensor, the .jBO installed by the second pipeline actuator and the second flow sensor, and

also the first thermocorrection unit, the first and second inputs of which are connected respectively to the first temperature sensor and the first flow sensor, and the output to the first input of the comparison unit, the second input to which is connected to the second flow sensor, and the output to the actuator 2.

The disadvantages of this device are relatively large adjustment error and low reliability.

 The aim of the invention is to improve the accuracy and reliability of the device.

Claims (2)

This goal is achieved by introducing a second temperature sensor and a second thermocorption unit, the first and second inputs of which are connected to the second temperature sensor and the second flow sensor, respectively, and the output to the second input of the comparison unit, as well as the thermal correction unit. contains a serially connected unit for changing a unit volume, a modulo converter, a functional multiplier, a frequency divider and an adder, as well as a zero-body whose output is connected to the second input of the converter according to the input and the second input of the adder, and the input with the output of the calculator of unit volume change and the second input of the functional multiplier, the third input of which is connected to the third input of the adder and the second input of the thermocorrection unit, the first input of which is connected to the input of the calculator of unit volume change, and output - with the output of the adder. The drawing shows a block diagram of a device for controlling the cost ratio. The device contains the first temperature sensor 2 and the first flow sensor 3 installed in the first pipeline 1, the second flow sensor 6 installed in the second pipeline 4, and the first thermal correction block 7, the first 8 and second 9 inputs of which are connected respectively the first temperature sensor 2 and the first flow sensor 3 and the output 10 are connected to the first input 11 of the comparison unit 12, the output 13 of which is connected to the actuator 5, the second temperature sensor 14 and the second thermal correction unit 15, the first 16 and the second 17 inputs cat cerned are connected respectively to the second temperature sensor 14 and the second flow sensor 6 and the output 18 to the second input 19 comparing unit 12. The thermocorrection unit 7 (15) contains serially connected unit volume change generator 20, converter 21 modulo a functional multiplier 22, divide frequency 23 and adder 24, and also zero-body 25, output 26 of which is connected to the second input 27 of modulator 21 and the second input 28 of the adder 24, and the input 29 - with the output of the calculator 20 changes the unit volume and with the second input 30 of the functional multiplier 22, the third of the input 31 of which is connected to the third input 32 of the adder 24 and the second input 9 (thermal correction unit 7 (15) ne The first input 8 (1b) of which is connected to the input 33 of the calculator 20 changes in a unit volume, and the output 10 (18), is connected to the output 34 of the adder. The device works as follows. The calculator 20 changes the unit volume in accordance with the parameters: the expansion of the liquid and the signal from the temperature sensor 2 generates an analog signal for a unit volume change relative to the normal temperature. The signal from the output of the calculator 20 causes the null organ 25 and the converter 21 to modulate the corresponding sign and modulus of a unit volume module. The last signal, together with the signal about the unit volume change, goes to the analog moves of the functional multiplier 22, where the pulse frequency is multiplied with sensor 3 consumption per quotient of dividing the modulus of unit volume change by the difference between the reciprocal of the magnification of the multiplication K and the quotient of dividing the unit volume change by the magnitude The scaling of the multiplication factor is K. The frequency signal from the output of the functional multiplier 22, divided by frequency divider 23 by the factor K, is a signal proportional to the modulus of the change in fluid flow relative to the flow rate at normal temperature. With the help of the adder 24, the pulse sequence from the flow sensor 3 is added to the pulse sequence from the frequency divider 23 if the temperature deviation from the normal is positive, or the second sequence is subtracted second if the deviation is negative. The add or subtract mode is determined by the action a control signal from a null organ 25, which captures the sign of said temperature deviation. The generated pulse train from the output of the thermal correction unit 7 (15) is fed to the first input of the comparison unit 12. In accordance with the difference in the following frequencies arriving at the inputs of the pulse sequence comparison unit 12, the latter generates a signal acting on the actuator 5, which changes the flow rate of the fluid. The change in the cost ratio is made by changing the settings of the comparator unit 12. The coefficient K is chosen from the condition of ensuring the operation of the functional multiplier 22 in the entire working range of its output signals. When changing its input signals from minimum to maximum values. The construction of block 7 (15) of thermal correction allows to achieve the minimum dependence of its output signal on errors, temperature sensor 2 (14), calculator 20, converter 21 modulo 21, functional multiplier 22, Zero-deadband 25 also has little effect on the output signal , since it only affects when the minimum deviations of the temperature of the liquid from the normal, when the correction for the temperature is minimal. Increasing the scale of the output signal of the functional multiplier 22 with its subsequent restoration by the frequency divider 23 significantly increases the accuracy of the operation of multiplying the frequency signal by a fractionally rational function of changing the unit volume. The proposed device has an increased accuracy of controlling the flow rates of liquids brought to a normal temperature and an increased reliability of operation. Claims 1. A device for a regulated cost ratio comprising a first temperature sensor and a first flow sensor installed in the first pipeline, an actuator and a second consumption sensor installed in the second pipeline, and a first thermal correction unit, the first and second inputs of which are connected respectively with the first temperature sensor and the first flow sensor, and the output with the first input of the comparison unit, the output of which is associated with an actuator, characterized in that, in order to increase accuracy and reliability of the device; a second temperature sensor and a second thermocorrection unit are introduced into it, the first and second inputs of which are connected respectively to the second temperature sensor / I Both the second flow sensor and the output with the second input of the comparison unit. 2, A device for controlling the flow ratio according to claim 1, characterized in that the thermo-correction unit contains a serially connected unit volume change calculator, a modulo converter, a function multiplier, a frequency divider and a sum-: mat, and also a zero-organ whose output is connected with the second input of the converter in modulus and the second input of the adder, and the input with the output of the transmitter of a unit volume change and with the second input of the functional multiplier, the third input of which is connected to the third input sum ora and termokorrektsii the second input unit having a first input coupled to the input variations calculator unit volume, and output - with output of the adder. Sources of information taken into account in the examination 1. US Patent No. 3089643, cl. 235-151, 2. US patent number 3299258, kl.235-151,34, 1967 (prototype).