SU930249A1 - Pneumatic control device - Google Patents

Description

(5) PNEUMATIC CONTROL DEVICE

Claims (2)

The invention relates to devices for the automatic control of batch processes for the preparation of solutions and can be used in the chemical, food, oil refining industry and other sectors. A device for controlling the dosing process is known, which contains a measuring device, a batch apparatus, a reagent level sensor in a measuring device, a memory element, a membrane comparison element, three membrane diagrams of comparison, an OR element, setting controls, a trigger pneumo-button, a reagent concentration sensor, an actuator 11. However, this device has an insufficient accuracy in the preparation of a solution with a given concentration due to the supply of constant-sized reagents in each dosing cycle. With a large portion of the dose, an overdose of the reagent is possible, and the degree of deviation of the solution concentration from the specified value is appropriate. Reducing the size of the portion to avoid overdosing of the reagent leads to a decrease in the production of the device, as the number of dosing cycles increases. The closest in technical essence to the present invention is a pneumatic control device containing a proportional regulator, the inputs of which are connected to the input channels, and the output - to the first input: the first comparison element, the second input of which is connected to the generator output linearly, changing pressure, and the output is connected to the output channel of the device, and a start trigger, the output of which is connected to the supply channel of the first reference element and the generator of linearly varying pressure 2. The disadvantage of the known device Twa is an increased power consumption. The purpose of the invention is to reduce the power consumption of the device. The goal is achieved by the fact that in the control device a second comparison element and a time relay are installed, the relay input is connected to the output of the first comparison element, the output from the generator control input is linearly varying state pressure, the second comparison element inputs are connected with input channels, and the output with one of the control outputs of the trigger trigger. FIG. 1 shows a device diagram; in fig. 2 - the schedule of the device. The device contains a measuring device 1, a device 2 of a periodic action sensor 3 concentration of the reagent, a setting device k, a proportional controller, a five-membrane comparison element 5, three-membrane elements 6 and 7 comparison, trigger 8, 9 linearly increasing pressure generator, time relay 1 , three-membrane relay 11, power amplifier 12, constant choke 13, actuator N. The device works as follows. The setting device 4 in the plus cell of the element 5 and the minus chamber of the element 7 is given a signal proportional to the specified concentration of the solution in the apparatus 2. In element 7, the signal from sensor 4 compares the reagent concentration sensor, and element .5 performs the operation of subtracting the signal P of the reagent concentration sensor 3 from the signal P ,, of the sensor 4. Using the external trigger element (not shown) including the signal PjciNjOT trigger 8, which supplies pneumatic supply to element 6 and through throttle 13 to element 11, and also starts a generator 9 of linearly increasing pressure 9. The rate of increase of the output pressure P of the generator is determined by a constant integration time and is upset with resistance and capacitance, incoming to the oscillator circuit. The increase in pressure Pp occurs linearly to a pressure P, the value of which can be adjusted up to the pit pressure PIT in element 6, a comparison of the linearly rising signal of generator 6 with the signal P RZ - P p at the output of element 5. At the same time, si | The value of the signal Pp is larger, the output of element 1 1 is turned off by the output signal of element 6, the actuator 14 is opened through power amplifier 12 and the reagent is dispensed, which enters the device 2 to RPPt Rte POR: while the signal is equal to RR. At these signal values, the output signal from element b removes the signal from the actuator 14 and opens the output of element 11, which turns on the time relay 10, delaying the time required for thorough mixing of the solution after the dosing of the reagent. At the end of the exposure time, the time relay supplies the generator 9 with a pulse, by which the pressure at the output of the generator is reset to zero. This re-opens the actuator AND, and the process of dispensing the reagent into the apparatus 2 is repeated. When the concentration of the solution in the apparatus reaches a predetermined value, the signal Pp from the concentration sensor 3 becomes equal to the value of the P / J signal from the setting device 4 and the output of element 7 is a signal that triggers the trigger 8. At the same time, pneumatic power is removed from elements 6 and 11 and the actuator 14 is closed. From the graphs (Fig. 2) it can be seen that as the concentration of the solution in the apparatus increases, the difference decreases, RP °, at which the pressure P of the actuator 14 disappears with the signal of the linearly increasing pressure P of the generator. At the same time, with each subsequent dosing cycle, the time decreases. The open state of the actuator 14 and, accordingly, a gradual decrease in the portion of the supply of the reagent to the apparatus, which allows a more accurate approach to the predetermined solution concentration. A time delay after each dosing cycle ensures thorough mixing of the solution in order to evenly distribute the concentration of the solution throughout the apparatus and eliminates the error in its measurement by the concentration sensor. The proposed device allows to increase the accuracy of the ratio of components in solution. Claims. . A pneumatic control device JCTBO containing a proportional regulator is connected to input channels, and an output is connected to the first input of the first reference element, the second input of which is connected to the generator output of linear pressure variation, and the output is connected to the output channel of the device, and trigger trigger, the output of which sv About htc 55 13 is connected with the power supply channels of the first reference element and the generator of linearly varying pressure, characterized in that, in order to reduce power consumption, a second comparison element and a time relay are installed in it, the time relay input is connected to the output of the first comparison element, the output is controlled The generator input of the linearly varying pressure, the inputs of the second Comparison element are connected to the input channels, and the output is connected to one of the control inputs of the triggering triggers. Sources of information taken into account in the examination 1. USSR author's certificate fP, cl. G 05 D 11/02, 1976. 2. Birman A. I. Dynamic features and tuning of pneumatic pulse-width SAR. Works TSNIIKA. Issue 15, 1966 (prototype). g f river i -. FIG. 2 RP.