SU1196933A1 - Device for detecting dangerous gas-laden conditions of object - Google Patents

Abstract

1. DEVICE FOR DETECTING DANGEROUS IGNITION OF AN OBJECT containing a sensor of concentration of hazardous substances, the output of which is connected to the input of the first threshold unit and the first input of the second threshold unit, the output of the first threshold unit is connected to the second input of the second threshold unit and to the first inputs of the alarm unit and the reversing unit counting and indication of time, the first output of which is connected to the second input of the signaling unit, characterized in that, in order to improve the accuracy, an analog switch is inserted into it, with counter, controlled divider, pulse shaper, trigger and level setting unit, the output of which is connected to the first input of an analog switch, the output of which is connected to the third input of the second threshold unit, the output of which is connected to the input of the pulse shaper and the first input of the counter, output of the first threshold unit connected to the first input of the trigger and to the second input of the counter, the output of which is connected to the second input of the analog switch, the third input of the alarm unit and the first input of the controlled divider whose second input is connected to the second output of the reversible counting and time indication unit, the output of the controlled divider is connected to the second input of the reversing counting unit (L and time indication, the output of the pulse former is connected to the third input from the reversing counting and time indication unit and the second trigger input , the output of which is connected to the fourth input of the block of the reverse account and time indication.

Description

The invention relates to devices for automatically controlling the gas contamination of an object and predicting a dangerous level of concentration of explosive substances in the air and can be used in automatic systems for protecting industrial premises of chemical plants from gas contamination by hazardous substances.

The purpose of the invention is to increase the accuracy of the predicted time.

In FIG. 1 presents a structural diagram of the proposed device; in FIG. 2 is a block diagram of a reverse counting and time display. ₍

The device includes a hazardous substance concentration sensor 1, first 2 and second 3 threshold blocks, a reverse counting and time indication unit 4, an alarm unit 5, a level setting unit 6, an analog switch 7, a counter 8, a controlled divider 9, a pulse shaper 10 and trigger 11.,

Block 4 reverse counting and time display contains a generator 12, a delay element 13, an OR element 14, summing 15 and subtracting 16 counters and node 17 Indications.

The device operates as follows.

In the initial state (there is no gas contamination), the level from the output of the first threshold block 2 keeps the trigger 11, counter 8 and totalizing counter 15 of the reverse counting and time indication block 4 in the zero state, and also holds the second threshold block 3 and the signaling block 5 off. In block 6 of setting the levels, intermediate values of concentrations are stored, starting from the second, which, with the help of an analog2 switch 7, controlled by a code from the output of counter 8, are supplied as reference to the third input of the second threshold block 3. The counter code 8 also controls the division factor a controlled divider 9, which ensures that the ratio of the intervals between the intermediate levels of concentration and the level of K _l (a given concentration level) is taken into account.

The appearance of gas concentration leads to the appearance of an analog signal at the output of sensor 1, which is proportional to the concentration level. When the signal reaches the first threshold, the first threshold block 2 is activated, enabling the trigger 11, counter 15, totalizer 15 in the counter 4 of the reverse counting and time indication and the second threshold block 3, while the signaling block 5 detects the appearance of the first concentration.

In addition, in the initial state, in accordance with the code “0” of counter 8, the second predetermined intermediate level is set to the second threshold block 3 and the first division coefficient to the controlled detector ₅ 9, and, therefore, to the summing counter 15 of the reverse counting unit 4 and the time indication pulses begin to arrive, the amount of which is proportional to time with the coefficient where П | „are intermediate thresholds of concentration levels.

A further increase in the concentration triggers the second threshold block 3, the signal from the output of which 35 transfers the counter 8 to the next state, thus setting the next preset value of the intermediate level 3, and also starts the pulse shaper 10, the output signal of which, in turn, , rewrites the contents of the totalizing counter 15 in the subtracting counter 16 of the block 4 of the reverse counting and time display, and then resets the totalizing counter 15 to the zero state through the delay element 13. Thus, in the subtracting counter 16, a forecast value is obtained, which is indicated by the indication unit 17 and from which the current real time is subtracted. In the totalizing counter 15 accumulates the following value of the updated forecast. Further, the process is repeated, and on the alarm unit 5, the status of the counter 8 is displayed, which makes it possible to judge the concentration threshold reached.

FIG. 2

Claims (3)

I with ABOUT) with so 00 2. The device according to claim 1, characterized in that the reversible counting and time indication unit comprises an OR element, a summing counter, a subtracting counter, an indication unit, a delay element and a generator, the first input of the OR element is the first input of the reverse counting and time indication unit the second input of the element OR is connected to the output of the delay element, and the output to one input of a summing counter, the other input of which is the second input of the reversible counting and time indication unit, the output of the summing counter connected to the first input do subtractive meter, the second input of which combined with the input of the delay element and is the third input of the reversible counting and time indication block, the first output of the counting counter is the first output of the reverse counting and timing block, the second output of the counting counter is connected to one input of the display unit, the second input of which is the fourth input the reversible counting and time indication unit, the generator output is connected to the third input of the subtracting counter and is the second output of the reverse counting and time indication unit. one The invention relates to devices for automatic monitoring of gas pollution of an object and prediction of a dangerous level of concentration of explosive substances in air and can be used in automatic systems for protecting production premises of chemical plants from gas pollution by hazardous substances. The purpose of the invention is to increase the accuracy of the predicted time. FIG. 1 shows a block diagram of the proposed device; in fig. 2 is a block diagram of the reverse counting and time indication. The device includes a sensor 1 of concentration of hazardous substances, the first 2 and second 3 threshold blocks, block 4 of the reversing counting and time indication, block 5 sigtalization, block 6 setting levels, analog switch 7, counter 8, controlled divider 9, driver 10 pulses and trigger 11. The block 4 of the reverse counting and time indication contains a generator 12, a delay element 13, an OR 14 element, summing 15 and subtracting 16 counters, and a Display unit 17. The device works as follows. In the initial state (there is no gas) the level from the output of the first threshold unit 2 keeps the trigger 11 in the zero state, the counter 8 and the summing counter 15 of the reverse counting and time indication unit 4, and also keeps the second threshold unit 3 in the off state and block 5 alarm. In block 6, the task levels are stored intermediate values of concentrations, starting with the second, which, using an analog switch 7, controlled by a code from the output of the counter 8, are sent as reference to the third input of the second threshold unit 3. Counter code 8 also controls the division ratio of the controllable divider 9, which ensures that the ratio between the intermediate concentration levels and the level of the Kl (the specified concentration level) is taken into account. The appearance of gas concentration leads to the appearance of an analog signal at the output of sensor 1, which is proportional to the level of concentration. When the signal reaches the first threshold, the first threshold unit 2 is triggered, allowing the trigger 11, counter 8, summing counter 15 in block 4 of the reverse counting and time indication and the second threshold unit 3 to work, and the first concentration is detected by the alarm unit 5. In addition, in the initial state, in accordance with the code "About Counter 8, the second specified intermediate level is set to the second threshold unit 3 and the first division factor to the controlled divider 9, and therefore to the summing counter 15 of the reverse counting and time indication unit 4 impulses are received, the number of which is proportional to time with a coefficient tn - К -Ш П2-П, where P | ,, - intermediate thresholds of levels concentration. A further increase in concentration leads to the triggering of the second threshold unit 3, the signal from the output of which puts the counter 8 into the next state, thus setting the next specified value of the intermediate level, and also starts the pulse shaper 10, the signal from the output of which, in turn, rewrites the contents of the summing counter 15 into the subtracting counter 16 of the block 4 of the reversing counting and time indication, and then, via delay element 13, resets the counter 15 to the zero state. Thus, in subtractive counter 16 is obtained Fi.2. the value of the forecast, which is indicated by the display unit 17 and from which the current real time is subtracted. In summing counter 15, the next value of the updated forecast is accumulated. Further, the process is repeated, and the state of the counter 8 is displayed at the block 5 of the alarm, which allows to judge about the achieved concentration threshold.