SU840919A1 - Device for monitoring industrial waste liquor toxicity - Google Patents

Description

I

The invention relates to devices for the automatic control of wastewater toxicity and can be used in the pulp and paper, chemical, petrochemical industries and other types of industries associated with the need to conduct biological control of wastewater toxicity.

A device containing a decoder, a counter, an actuator is known. The disadvantage of the known device is its low functionality and reliability.

The closest to the proposed technical entity is a device that contains sensors, amplifiers, an actuator, a display node, a counter, a switch 2,

A disadvantage of the known device is low accuracy, fast response and reliability.

The purpose of the invention is to increase accuracy, speed and reliability.

Claims (2)

The goal is achieved by the fact that device B, for controlling the toxicity of industrial wastewater, contains sensors whose outputs are connected to the inputs of the respective amplifiers, an actuator, a display unit, a first counter, a switch, the first output of which is connected to the input of the first counter, a second counter , register, decoder, divider comparison circuit, two threshold elements, AND-NOT element, amplifier, registration unit, the outputs of the first and second amplifiers are connected to the inputs of the registration unit and the black Without the first and second threshold elements, respectively, with the inputs of the NAND element, the output of which is connected to the first input of the switch, the second input of which is connected to vyo (the first threshold element, the second output of the switch, through the second counter is connected to its third input, the output of the first counter connected to the fourth input of the switch, the third output of which is connected to the input of the divider, the output of which through the decoder is connected to the first input of the comparison circuit; the output of the register through the comparison circuit is connected to the input of the third force ate, whose output is connected to the input node E indicating and actuating mechanism, ria drawing shows a block diagram of the device. The device contains an aquarium 1 with an ichtioobject .2 placed in it and sensors 3, amplifiers 4-6, registration block 7, switch 8, counters 9 and 10, decoder 11, register 12, comparison circuit 13, actuator 14, display node 15 , threshold elements 16 and 17, element I-HE-18, divider 19, The device operates as follows, t When entering the flow aquarium 1 of waste water with standard conditioning parameters, biopotentials occur at the sensors 3, the frequency of which corresponds to the respiratory rate and heartbeat ichthyology 2. C The signals received from sensors 3 are amplified by amplifiers 4 and 5, are recorded by block 7, and are fed to threshold elements 16 and 17, which have a value of trigger thresholds corresponding to the amplitudes of the breathing and heartbeat signals. When a signal of a smaller amplitude appears at their inputs (induced by sensors 3 from breathing ichthyobject 2), only threshold element 17 is triggered and signal 1 appears at its output. and its outputs appear 1, which is written by the second counter 10, when both signals appear at the inputs of the threshold elements 16 and 17 of a larger amplitude, signals 1 appear at their outputs, just one from the threshold element 16 is recorded directly in the counter 9, Signals. Corresponding to I, the arrival of t kzhe and the input element 18, Hc, -on Kof opogo output is on, the state of counters: snip 10 is not changed. The pulses formed by the threshold elements 16 and 17 are counted by counters 9 and 10 for a certain period of time, after which the switch 8 6t.powers the inputs of these counters, and outputs the results of counting to divider 19, the value corresponding to the particular is converted by the decoder, 1 1 to a binary code and goes to one of the inputs of circuit 13, to the other input of which a signal is received recorded in binary code in register 12 and corresponding to the ratio of respiration and heartbeat frequencies that occurs in ichthyobject 2 when it is located in the conditioned effluent. When the ratios obtained from the divider 19 and the register 12 are equal, the output of the comparison circuit 13 is a signal equal to 1, the node. 15 is lit, the actuator 14 ensures that waste water is received into the aquarium 1. When non-conforming wastewater enters the aquarium 1 with a concentration of toxic substances above the permissible level, the ratio between the respiration and heartbeat frequencies, the ichthyoobject 2 changes, which leads to a mismatch of circuit 13, O appears at the exit, node 15 does not light up, and the executive mechanism 14 blocks the flow of waste water and supplies it to the aquarium. 1 clean water. Since the adaptation of ichthyoobject 2 to new conditions of existence takes place for some time, node 5 remains off during this time, after which the ratio of respiration and heartbeat frequencies of ichthyobiect 2 is restored, at the output of circuit 13 it is. I, node 15 lights up, actuator 14 is turned on and supplies wastewater to the aquarium. If by this time the contamination of water with toxic substances has not been eliminated, the whole process is repeated. The invention improves the technical and economic indicators due to the integral assessment of the biological quality of the production of various industries, reducing the volume of skilled labor and generally reducing the number of staff, reducing the measurement time, lack of assessment subjectivity due to full automation of control, reliability of the device design. The invention The device for controlling the toxicity of industrial wastewater, containing sensors, the outputs of which are connected to the inputs of the respective amplifiers, the actuator, the display unit, the first counter, the switch, the first output of which is connected to the input of the first counter, characterized in that To increase the accuracy of speed and reliability, a second counter, a register, a decoder, a divider, a comparison circuit, two Lorog elements, an NAND element, an amplifier, a registration block, and the outputs of the first The second amplifiers are connected to 94 inputs of the registration unit and through the first and second threshold elements respectively to the inputs of the NAND element, the output of which is connected to the first input of the switch, the second input of which is connected to the output of the first threshold element, the second output of the switch is connected to its second counter via the third input, the output of the first counter is connected to the fourth input of the switch, the third output of which is connected to the input of the divider, the output of which through the decoder is connected to the first input of the comparison circuit, the output The register through a comparison circuit is connected to the input of the third amplifier, the output of which is connected to the inputs of the display unit and the actuator. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 267498, cl. G 01 N 27/52, 1968. 2. USSR author's certificate No. 611150, cl. G 01 N 33/18, 1976 (prototype).