SU445251A1 - Automatic control of chlorination station productivity - Google Patents

Description

one

The invention relates to devices for controlling the performance of a chlorination station and can be used in the chemical industry.

A known automatic performance regulator of the chlorination station, comprising a water-chlorine ratio control unit, is associated with water and chlorine flow meters and a residual chlorine sensor.

However, in such a controller, when the bypass is turned on (off), there is always a change in performance by the same amount. In a number of cases this leads to a significant overshoot and, consequently, to an overrun of reagents and even the development of an oscillatory process.

In order to ensure smooth control of the plant's performance over its entire operating range, a proposed solenoid valve installed on the adjustable chlorinator is controlled by a solenoid valve controlled by a logic unit containing interconnected inverter, triggers and coincidence circuits connected to sensors of the extreme positions of the working orgal and electric drive; chlorine supply valve.

The drawing shows the scheme of the proposed automatic controller.

The scheme contains a regulator /, providing chlorine dosing proportional to the water consumption with correction of the proportionality coefficient according to the residual chlorine analyzer 2; logic block 3, which provides a change in the number of working chlorinators and contains logic elements "Hi ..." HT, "HEi ..." HE and the Triggers Tr, ... Tag; chlorinators 4, 5 and 6 containing solenoid valves 7, 8, 9 for chlorine and ejectors 10, 11, 12.

Chlorinator 4 contains an adjustable chlorine microventil 13 controlled by an actuator mechanism 14 equipped with limit switches 15 and 16 for 1 valve positioning of the valve ("fully open and" fully closed).

All chlorinators 4, 5, 6 operate from a single tank / 7, containing chlorine gas, from the common source water pipeline 18 ;; common mixer 19.

Solenoid valves 7, 8, 9 can take only two positions ("open and" closed); logic block 3 controls them. Microventil 13 can smoothly adjust chlorine flow from 0 to 100% of its nominal capacity. Limit switches 15 and 16 block the electrical circuits of the actuator 14 in order to protect it from overloading and protect micro-voltage 13. In addition, signals from limit switches 15 and 16 are input to logic block 3. Executive mech) iism 14 vn from the TG and Tr2 triggers, which, in turn, are controlled both from the / regulator (in the normal mode) and from block 3 (in the transient mode). The automatic controller works as follows. Let the current capacity of the chlorination station be such that adjustable chlorinator 4 and unregulated chlorinator 5 work. As long as the change in the demand for chlorine does not exceed the limits of the chlorinator 4, regulation is carried out solely by changing the position of microventil 13 using the controller /. But if the need for chlorine increases so much that the microventil 13 is fully opened, the signal from the limit switch 15 is fed to the input of the "Hi. If the trigger Тг2, controlled from the regulator 1, confirms the need to increase the chlorine supply, then at the output of the element “Hj by Wits Impulse, exciting trigger trigger Тгз. This trigger feeds the input element HEi, blocks and actuates the trigger Tr2, preventing the latter from activating the actuator 14 to open, and energizes the actuator 14, causing it to close the micro ventilation 13. Since the output of the element HEi energizes the solenoid valve 7 of the chlorinator 4, the excitation the element “HEj from the trigger Tgz causes the closing of the solenoid valve 7. At the same time, the signal from the element“ Hi noCTy: ia € T to the inputs of the elements “Нз и“ Н4. Since the solenoid valve 8 was previously turned on, i.e. the trigger Trg was energized, the element “Nl Sl is blocked, and the element, on the contrary, is unlocked. Therefore, the signal from the element H4 passes to the inlet of the TGB trigger, and the latter is energized, including the solenoid valve 9. Thus, in general, the following operations are performed: the solenoid valve 9 is opened, the chlorinator 6 is turned on for full capacity and the solenoid valve 7 is closed, the micro ventilation 13 of the maximum capacity mode (fully open) is not switched to the mode when it is fully closed. After that, the signal of the limit switch 16 turns on the trigger Tgz, the element HEi is unlocked, the solenoid valve 7 reopens and further the regulator /, acting on the microventil 13, sets the required performance of the chlorination station ;. If the chlorine requirement is sharply reduced and the actuator 14 moves the microvent 13 to the closed position, the signal from the output of the latter goes to the regulator 1. If the trlgsr TG) confirms the need to decrease the performance of the chlorination station, the output of the element H2 from Wits impulse, including the trigger Tr 4. The signal from the trigger Tr4 blocks the element HEi (and the solenoid valve 7 is turned off), blocks the trigger Tr1 and turns on the actuator 14 to open. When the latter moves the microventil 13 to the “fully open” position, the signal from the final switch 15 through the element “Well goes to the elements“ HS and “On. But the latter is blocked by the signal from the element “NO, but getting; they, in turn, receive the signal from the trigger TGZ (since the solenoid valve 8 is on). Hoetho: vIy from the element “Nmmmulse is not active only through the element“ Nz to the shut-off input of the trigger Tr5, which you turn off, disconnecting the solenoid valve 8. The trigger TG is disconnected simultaneously and the element “HEi is unlocked, so the solenoid key 7 is turned on. Next, the controller 1 adjusts the position of the mi; croBentil 13, providing the specified 1nr0: productivity. The subject matter of the invention is the automatic regulator of water purification of chlorine, which contains a water-to-chlorine ratio control unit associated with water and chlorine flow meters and a sensor; residual chlorine powder, characterized in that, in order to ensure smooth control ( its operating range is not; on a regulated chlorinator, a solenoid valve is installed, y1 | ra: which is a block of a vane, containing interconnected inverter, triggers; i schemes sovnadeii, connected (with Danes-extreme; and ana elektrolri-: vodom gate nodachi chlorine №.

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