RU2783730C1 - Apparatus for determining the degree of contamination of an object - Google Patents

Abstract

FIELD: computing technology.

SUBSTANCE: invention relates to automation and computing technology. The technical result is achieved by adding a group of fourth registers, a third group of comparison circuits, and a third group of OR elements into the apparatus for determining the degree of contamination of an object; the output of the group of fourth registers is connected to the first input of the third group of comparison circuits, the second input whereof is connected to the output of the analogue-to-code converter and the output is connected to the first input of the third OR element, the second input whereof is connected to the output of the first group of comparison circuits and the output is connected to the like input of the second OR element.

EFFECT: higher reliability of operation of the apparatus in the settings of continuous dynamics and constant changes in the external factors.

1 cl, 1 dwg

Description

The invention relates to automation and computer technology and can be used to determine the degree of infection of an object under conditions inherent in the real process of its functioning - in conditions of continuous dynamics and constant changes in parameters (some of which cannot be higher than the permissible, while others cannot be lower than the permissible ) external conditions and taking into account the influencing factors, as well as warning the maintenance personnel about the threat of object contamination.

Known control device for determining the degree of infection of the object [1], which allows you to determine the degree of infection of the object in the conditions inherent in the real process of its operation.

The disadvantage of this device is the impossibility of determining the degree of infection of the object under the conditions inherent in the real process of its functioning in the dynamics of the operation of a complex object, in which some parameters cannot be higher than the permissible ones, while others cannot be lower than the permissible ones.

The operation of the device is based on the fact that maintenance of an object in a confined space is associated with the impact on the maintenance personnel of harmful fumes and emissions from the object, which impede the effective work of the maintenance personnel. Under such conditions, maintenance personnel must be warned of the danger in a timely manner.

The objective of the invention is to create a device for determining the degree of infection of an object and issuing a danger signal to service personnel in conditions where some parameters cannot be higher than the permissible values, while others cannot be lower than the permissible values.

This solution is achieved by the fact that in the device for determining the degree of contamination of an object, containing sensors of contamination of the object (1 _j ) (j=1,…n), analog-to-code converters (2 _j ) (j=1,…n), the first registers (7 _j ) (j=1,…n), group of first comparison circuits (4 _j ) (j=1,…n), second registers (10 _j ) (j=1,…n), third register (21) , a group of multiplication blocks (11 _j ) (j=1,…n), a group of first delay elements (8 _j ) (j=1,…n), a group of first AND elements (9 _j ) (j=1,…n) , second AND element (14), decoder (12), counter (13), second delay element (15), third delay element (16), fourth delay element (17), adder (19), second group of comparison circuits (20 ), a clock generator (23), the output of which is connected to the first input of the second element AND (14), the second input of which is connected to the input (24) of the device, and the output is connected to the input of the second delay element (15) and to the first input of the counter ( 13), the output of which is connected to the input of the decoder (12), each output of which is connected to the input of the first th delay element (8 _j ) (j=1,…n) and to the control input of the multiplication block (11 _j ) (j=1,…n), the second input of which is connected to the output of the second register (10 _j ) (j=1 ,…n), the third input - to the output of the analog-to-code converter (2 _j ) (j=1,…n), and the output - to the first input of the first group of elements AND (9 _j ) (j=1,…n), the second input of which is connected to the output of the first delay element (8 _j ) (j=1,…n), and the output - to the input of the first element of the same name OR (18), the output of the first delay element (8 _n ) is connected to the input of the third delay element ( 16), the output of which is connected to the control input of the second group of comparison circuits (20) and the input of the fourth delay element (17), the output of which is connected to the reset input of the counter (13) and to the reset input of the adder (19) to zero, the control input of the adder ( 19) connected to the output of the second delay element (15), the second input - to the output of the first element OR (18), the output of the adder (19) is connected to the first input of the second group of comparison circuits (20), the second input of which oh is connected to the output of the third register (21), and the output is connected to the first input of the second element OR (22), the output of which is the output (25) of the device, the first input of the first group of comparison circuits (4 _j ) (j=1,…n) , connected to the output of the first register (7 _j ) (j=1,…n), the second input - to the output of the analog-code converter (2 _j ) (j=1,…n), sensor output (1 _j ) (j= 1,…n) is connected to the input of the analog-to-code converter of the same name (2 _j ) (j=1,…n), a group of fourth registers (6 _j ) (j=1,…n) is introduced, the third group of comparison circuits (5 _j ) (j=1,…n), the third group of elements OR (3 _j ) (j=1,…n), the output of the group of fourth registers (6 _j ) (j=1,…n) is connected to the first input of the third group of the circuit comparison (5 _j ) (j=1,…n), the second input of which is connected to the output of the analog-to-code converter (2 _j ) (j=1,…n), and the output - to the first input of the third element OR (3 _j ) (j=1,…n), the second input of which is connected to the output of the first group of the comparison circuit (4 _j ) (j=1,…n), and the output is connected to the input of the same name of the second element OR (22).

A search in the known scientific and technical literature did not reveal the presence of such technical solutions.

The essence of the invention is illustrated in the drawing.

The device for determining the degree of contamination of an object (Fig. 1) contains sensors for contamination of the object (1 _j ) (j=1,…n), analog-to-code converters (2 _j ) (j=1,…n), OR elements (3 _j ) (j=1,…n), comparison circuits (4 _j ) (j=1,…n), comparison circuits (5 _j ) (j=1,…n), registers of permissible upper levels of contamination by the j-th parameter (6 _j ) (j=1,…n), registers of permissible lower pollution levels for the j-th parameter (7 _j ) (j=1,…n), delay elements (8 _j ) (j=1,…n) , group of elements AND (9j) (j=1,…n), registers of normalization coefficients (10 _j ) (j=1,…n), multiplication blocks (11 _j ) (j=1,…n), decoder (12 ), counter (13), AND element (14), delay element (15), delay element (16), delay element (17), group of OR elements (18), adder (19), comparison circuit (20), register permissible level of total contamination of the object (21), OR element (22), clock pulse generator (23), input (24), output (25) of the device.

In the initial state, the counter (13), the adder (19) are in the zero state. Registers (6j) (j=1,…n) store codes of permissible upper levels of contamination of the j-th parameter. The registers (7 _j ) (j=1,…n) store the codes of permissible lower pollution levels of the j-th parameter. The registers (10 _j ) (j=1,…n) store the codes of the normalization coefficients, the register (21) stores the code of the permissible level of the total contamination of the object.

After the trigger signal is applied at the input (24) to the control input of the AND element (14), the pulses from the output of the generator (23) through the open element AND (14) begin to arrive at the input of the delay element (15) and at the input of the counter (13), from the output which the code is fed to the input of the decoder (12). Each output of the decoder (12 _j ) (j=1,…n) is connected to the input of the delay element (8 _j ) (j=1,…n) and to the control input of the multiplication block (11 _j ) (j=1,…n) , where the code from the output of the register (10 _j ) (j=1,…n) is multiplied by the normalization coefficient by the code value from the output of the analog-to-code converter (2 _j ) (j=1,…n). Normalization here means bringing various input data in various units of measurement and ranges of values to a single form that will allow them to be compared with each other or used to calculate the similarity of objects.

The code from the output of the multiplication block (11 _j ) (j=1,…n) is fed to the first input of the group of elements AND (9 _j ) (j=1,…n), the second input of which receives a signal from the output of the delay element (8 _j ) (j=1,…n). The delay element (8 _j ) (j=1,…n) delays the signal for the time of reliable operation of the multiplication block (11 _j ) (j=i,…n).

The code from the output of the group of elements AND (9 _j ) (j=1, ... n) enters the input of the group of elements of the same name OR (18), from the output of which the code enters the first input of the adder (19), the control input of which receives a signal from the output delay element (15). The delay element (15) delays the signal for the time of reliable operation of the multiplication block (11 _j ) (j=1,...n), the group of elements AND (9j) (j=1,...n) and the OR element (18).

The code from the output of the adder (19) is fed to the first input of the comparison circuit (20), the second input of which receives the code from the output of the register (21). If the code at the output of the adder (19) exceeds the code from the output of the register (21), a single alarm signal appears at the output of the comparison circuit (20), which is fed through the OR element (22) to the output (25) of the device. In addition, an alarm signal may also appear at the output of the comparison circuit (4 _j ) (j=1,…n) or the comparison circuit (5j) (j=1,…n), the first inputs of which receive codes from the outputs of the registers (7j ( j=1,…n) and registers (6 _j ) (j=1,…n), respectively, and to their second inputs - codes from the output of the analog-to-code converter (2 _j ) (j=1,…n). from the output of the comparison circuit (4 _j ) (j=1,…n) or the comparison circuit (5 _j ) (j=1,…n) through the OR element (3 _j ) (j=1,…n) enters the input of the same name element OR (22), and then to the output (25) of the device.

When the counter (13) reaches the number n, a single signal appears at the output of the delay element (8P), which is fed to the input of the delay element (16), which delays the signal for the time of reliable operation of the OR element (18) and the adder (19). A single signal from the output of the delay element (16) is fed to the input of the delay element (17), which delays the signal for the time of reliable operation of the adder (19) and the comparison circuit (20), after which the single signal from the output of the delay element (17) resets to zero adder (19) and counter (13).

The frequency of GTI signals (23) is selected taking into account the sequence of reliable operation of the AND element (14), counter (13), decoder (12), multiplication unit (11), AND elements (9), OR (18), adder (19), comparison circuit (20), OR element (22).

The proposed device for determining the degree of infection of an object in the composition of elements 1-22 (see Fig. 1) can be built on well-known standard microcircuits produced by the domestic industry.

Thus, the technical result of the claimed invention is achieved using the technical means (blocks and elements) mentioned in the description of the operation of the device.

This device provides determination of the degree of infection of an object under conditions inherent in the real process of its functioning, the issuance of an alarm signal when certain parameters of the contamination of the environment or the total value of the contamination of the environment go beyond the range of permissible values in conditions of continuous dynamics and constant changes in the parameters of external conditions and taking into account influencing factors, which significantly expands the scope of the device.

Literature

1. SU №2704736, 2019.

Claims (1)

A device for determining the degree of contamination of an object, containing sensors for contamination of the object (1 _j ) (j=1,…n), analog-to-code converters (2 _j ) (j=1,…n), first registers (7 _j ) (j= 1,…n), group of first comparison circuits (4 _j ) (j=1,…n), second registers (10 _j ) (j=1,…n), third register (21), group of multiplication blocks (11 _j ) (j=1,…n), group of first delay elements (8 _j ) (j=1,…n), group of first elements AND (9 _j ) (j=1,…n), second element AND (14) , decoder (12), counter (13), second delay element (15), third delay element (16), fourth delay element (17), adder (19), second group of comparison circuits (20), clock generator (23 ), the output of which is connected to the first input of the second element AND (14), the second input of which is connected to the input (24) of the device, and the output is connected to the input of the second delay element (15) and to the first input of the counter (13), the output of which is connected to the input of the decoder (12), each output of which is connected to the input of the first delay element (8 _j ) (j=1,… n) and to the control input of the multiplication block (11 _j ) (j=1,…n), the second input of which is connected to the output of the second register (10 _j ) (j=1,…n), the third input is connected to the output of the analog converter code (2 _j ) (j=1,…n), and the output to the first input of the first group of elements AND (9 _j ) (j=1,…n), the second input of which is connected to the output of the first delay element (8 _j ) (j=1,…n), and the output - to the input of the same name of the first element OR (18), the output of the first delay element (8 _n ) is connected to the input of the third delay element (16), the output of which is connected to the control input of the second group of comparison circuits (20) and the input of the fourth delay element (17), the output of which is connected to the reset input of the counter (13) and to the reset input of the adder (19) to zero, the control input of the adder (19) is connected to the output of the second delay element (15), the second input - to the output of the first element OR (18), the output of the adder (19) is connected to the first input of the second group of comparison circuits (20), the second input of which is connected to the output of the third relay hyster (21), and the output - to the first input of the second element OR (22), the output of which is the output (25) of the device, the first input of the first group of comparison circuits (4 _j ) (j=1, ... n) is connected to the output of the first register (7 _j ) (j=1,…n), the second input is connected to the output of the analog-to-code converter (2 _j ) (j=1,…n), the sensor output (1 _j ) (j=1,…n) is connected to the input of the analog-to-code converter of the same name (2 _j ) (j=1,…n), characterized in that it additionally contains a group of fourth registers (6 _j ) (j=1,…n), the third group of comparison circuits (5 _j ) (j=1,…n), the third group of elements OR (3 _j ) (j=1,…n), the output of the fourth register group (6 _j ) (j=1,…n) is connected to the first input of the third group comparison circuit (5 _j ) (j=1,…n), the second input of which is connected to the output of the analog-to-code converter (2 _j ) (j=1,…n), and the output - to the first input of the third element OR (3 _j ) (j=1,…n), the second input of which is connected to the output of the first group of the comparison circuit (4 _j ) (j=1,…n), and the output is connected to the input of the same name of the second element of the IL And (22).

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