RU2514100C1 - Information measuring system for monitoring working condition parameters - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: information measuring system for monitoring working condition parameters comprises a monitoring unit, signal converters, temperature, noise and illumination sensors, noise and illumination signal converters for each sensor, devices for setting maximum and minimum temperature values, maximum allowable noise and illumination levels, a comparator for each device for setting allowable values of measured temperature, noise and illumination parameters, logic elements for maximum and minimum temperature values, noise values, illumination, ROM for maximum and minimum temperature values, noise and illumination levels, four shift registers, counters for maximum and minimum temperature, noise and illumination values, a control unit and a generator, wherein the system further includes a magnetic flux density sensor with a converter, a magnetic flux density setting device, a comparator for the magnetic flux density setting device, a logic element for maximum values of magnetic flux density, ROM for maximum values of magnetic flux density, a shift register, a counter for maximum values of magnetic flux density.

EFFECT: broader functional capabilities of monitoring the actual level of working condition parameters by further monitoring the level of magnetic flux density.

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Description

The invention relates to the field of monitoring parameters of working conditions, in particular to monitoring and controlling the actual levels of factors of working conditions, such as temperature, noise, light, magnetic flux density at workplaces of industrial enterprises.

A device for controlling the microclimate in storages is known [A.s. 334559, MKI G05D 23/19. The device for controlling the microclimate / R.M. Slavin. - Publ. in BI 12, 1972], containing the reference unit, converters, temperature sensors.

Its disadvantages are the difficulty of laying a significant number of communication lines, the decrease in accuracy due to errors introduced by the communication lines, the lack of information about the moisture content of the controlled environment.

A device for controlling temperature and relative humidity [A.s. 691812, MKI G05D 27/02. Device for regulating the temperature and relative humidity in the room / P.N. Grotov. - Publ. in BI 38, 1979], containing a control unit, converters, temperature and humidity sensors, each of which is connected by a separate three-wire communication line to the control unit.

Its disadvantages are the low accuracy of monitoring the actual level of physical factors of the production environment.

The closest in technical essence to the claimed device is selected as a prototype device for remote monitoring of the parameters of the industrial environment [A.s.2279704, IPC G 05 D 27/02. Device for remote monitoring of the parameters of the production environment / E.M. Sokolov, V.M. Panarin, D.V. Dergunov, G.V. Pavpertov, E.A. Shurygina, T.A. Korotkova. TulSU. - Publ. in BI 19, 2006 (prototype)], comprising a control unit, temperature sensor parameters converters, temperature sensors, signal converters from a temperature sensor, a noise sensor and an ambient light sensor, noise and ambient light signal converters for each sensor, setters for maximum and minimum temperature values, a setter for the maximum permissible noise level, a setter for the maximum permissible level of illumination, a comparator for each setter of the maximum permissible values of the measured parameters (temperature, noise, illumination), l logical elements for each controlled factor (logic element of maximum temperature values, logic element of minimum temperature values, logic element of noise values, logic element of illumination values), storage device for maximum temperature values, storage device for minimum temperature values, storage device noise levels, read-only memory of light levels, shift registers, which in turn are connected to control lock, and generator.

Its disadvantage is the limited number of control parameters of the actual level of physical factors of the production environment.

The objective of this technical solution is to expand the functionality of monitoring the actual level of parameters of working conditions.

This is achieved by the fact that in the device for monitoring the parameters of working conditions, comprising a control unit, signal converters, a temperature sensor, a noise sensor and a light sensor, noise and light signal converters for each sensor, setters for maximum and minimum temperature values, a setpoint for the maximum permissible noise level, adjuster of the maximum permissible level of illumination, a comparator for each switch of the maximum permissible values of the measured parameters of temperature, noise, illumination, logic element max minimum temperature values, the logic element of the minimum temperature values, the logic element of the noise values, the logic element of the illumination values, the permanent storage device for the maximum temperature values, the permanent storage device for the minimum temperature values, the permanent storage device for noise levels, the permanent storage device for light levels, four shift registers, maximum temperature counter, minimum temperature counter, noise counter , an illumination value counter, a control unit and a generator, a magnetic flux density sensor with a converter, a magnetic flux density adjuster, a comparator to a magnetic flux density adjuster, a logic element for the maximum magnetic flux density values, a permanent memory device for maximum magnetic flux density values, the fifth shift the register, the counter of the maximum values of the magnetic flux density, and the input of the control unit is connected to the outputs of five shift registers, the first in the moves of the shift registers are connected to the outputs of five read-only memory devices and the second inputs of the five shift registers are connected to the outputs of the counters of the maximum temperature, minimum temperature, maximum magnetic flux density, noise, illumination values, to the first inputs of which the outputs of the maximum logic element are connected temperature values, logical element of minimum temperature values, logical element of maximum values of magnetic density the current, the logic element of the noise values, the logic element of the illumination values, and the outputs of five comparators are connected to the inputs of five logic elements, in turn, all the logic elements are interconnected with the first output of the generator, the second output of which is connected to the input of the control unit, the outputs of the last connected to the third inputs of the five shift registers, with the second inputs of the counters of the maximum temperature, minimum temperature, maximum magnetic flux density, values of noise, illumination values with inputs of permanent storage devices, maximum temperature values, minimum temperature values, maximum values of magnetic flux density, noise values, brightness values, the temperature sensor output is connected to the converter input, the output of the magnetic flux density sensor with the converter input, sensor output noise with the input of the converter, the output of the light sensor with the input of the converter, and the outputs of the converters are connected to the first inputs of the corresponding mparatorov, to the second inputs are connected to outputs komparatov setting devices, namely, the maximum output temperature setpoint values, the setpoint output values of the minimum temperature, maximum setpoint output values of the magnetic flux density, maximum setpoint output values of noise, the output of minimum illumination set point values.

The invention is illustrated in the drawing, which shows a structural diagram of an information-measuring system for monitoring the parameters of working conditions.

The information-measuring system contains a control unit 1, to the input of which the outputs of the shift registers 2, 5, 8, 11, 14 are connected.

The following elements are connected to the shift registers: to the input of the shift register 2, the output of the counter of the maximum temperature 4 and the output of the read-only memory 3, to the input of the shift register 5 - the output of the counter of the minimum temperature 7 and the output of the read-only memory 6, to the input of the shift register 8 - the output of the counter of the maximum values of the magnetic flux density 10 and the output of the permanent storage device 9, to the input of the shift register 11 - the output of the counter of the noise values 13 and the output of the permanent storage device property 12, to the shift register 14 - the counter of the values of the illumination 16 and the permanent storage device 15.

The outputs of the following elements are connected to the inputs of the counters of the values of the factors of the production environment: to the input of the counter of maximum temperature 4, the output of the logic element of the maximum temperature 17 is connected, to the counter of the minimum temperature 7 is the logic element of the minimum temperature 18, to the input of the counter of the maximum magnetic flux density 10 - output of the logical element of the maximum values of the magnetic flux density 19, to the input of the counter of noise values 13 - the output of the logical ele ment of the noise values 20, to the input of the counter of the values of the illumination 16 the output of the logical element of the values of the illumination 21, which provide the push signal to the counter.

The inputs of the counter of maximum temperature 4, the counter of minimum temperature 7, the counter of maximum magnetic flux density 10, the counter of noise 13, the counter of illumination 16 are connected by wire lines to the output of the control unit 22, to the input of which a signal generator 23 is connected.

The logic elements that make up the structure of the system 17, 18, 19, 20, 21 are interconnected, and the following elements are attached to them: comparator 24 has an output to the input of the logic element of the maximum temperature values 17, comparator 25 has an output to the input of the logic element the minimum temperature 18, the comparator 26 has an output to the input of the logic element of the maximum values of the magnetic flux density 19, the comparator 27 has an output to the input of the logic element of the noise values 20, the comparator 28 has an output to the input of the logic element and luminance values 21 and to inputs of logic elements is the output of the generator 23.

At the same time, the inputs of the comparators are connected: to the input of the comparator 24 - the output of the setpoint for maximum temperature 38, to the input of the comparator 25 - the output of the setpoint for minimum temperature 39, and to both inputs of the comparators 24, 25 - signal converter 41.

The input of the comparator 26 is connected to the output of the master of the maximum values of the magnetic flux density 35, and a signal converter 37 is connected to the input of the comparator 26.

The input of the comparator 27 is connected to the output of the master of the maximum permissible noise level 32 and to the input of the signal converter 34. The input of the comparator 28 has the outputs of the master of the maximum permissible levels of illumination 29 and the signal converter 31.

The values of the actual levels of factors of the working environment are recorded by temperature sensors 40, magnetic flux density 36, noise 33, and light 30. The signal from the sensors is transmitted to signal converters. This is achieved by connecting the output of the temperature sensor 40 with the input of the signal converter 41, the output of the magnetic flux density sensor 36 with the input of the signal converter 37, the output of the noise sensor 33 with the input of the signal converter 34, the output of the light sensor 30 with the input of the signal converter 31.

The information-measuring system for monitoring the parameters of working conditions works as follows: after power is supplied, the generator 23 starts to generate electrical signals, a temperature sensor 40, a magnetic flux density sensor 36, a noise sensor 33, an ambient light sensor 30 begin to measure the actual level of factors of working conditions. From them, the measurement information is fed to signal converters 41, 37, 34, 31. After a certain time interval, a digital code corresponding to the value of the signal read from the sensors appears at the output of the signal converters from the sensor inputs. At this moment, the comparators 24, 25, 26, 27, 28 compare the signals received from the primary signal converters and the information from the key settings of the critical values of the measured factors: maximum temperature 38, minimum temperature 39, maximum magnetic flux density 35, maximum value noise levels 32, the minimum value of illumination levels 29. Depending on the results of comparing the actual temperature level, magnetic flux density, noise, illumination, with their critical values read from the settings 38, 39, 35, 32, 29, the signal is transmitted to the logic elements 17, 18, 19, 20, 21, if the actual level of the factor is outside the extreme values and is not transmitted if they are normal. The control unit 22 after the signal from the generator 23 provides a train of pulses for controlling the shift registers 2, 5, 8, 11, 14, counters 4, 7, 10, 13, 16, permanent memory devices 3, 6, 9, 12, 15. The signals coming from the logic elements are read by counters 4, 7, 10, 13, 16. The received information is stored by the permanent storage devices 3, 6, 9, 12, 15. The data stored in the permanent storage devices are processed (scaling, filtering and other necessary transformations), and then are written into shear re histories 2, 5, 8, 11, 14, which encode the data and transmit it via the communication lines to the control unit 1. After the data transfer is completed, the shift registers go into standby mode.

Thus, the information-measuring system for monitoring the parameters of working conditions provides an extension of the functionality for monitoring the actual level of parameters of working conditions by introducing a magnetic flux density sensor with a converter, a magnetic flux density setter, a comparator to a magnetic flux density setter, a logical element of the maximum magnetic flux density values, permanent storage device of maximum values of magnetic flux density, fifth shear register, counter of maximum values of magnetic flux density. In this information-measuring system, there are blocks of signal converters, comparators, logic elements, counters, read-only memory devices, shift registers that provide the exchange of digital signals with the control unit via one common communication line. Digital transmission of information signals ensures the elimination of errors introduced by information lines.

Claims (1)

Information-measuring system for monitoring the parameters of working conditions, containing a control unit, signal converters, a temperature sensor, a noise sensor and a light sensor, noise and light signal converters for each sensor, maximum and minimum temperature settings, a setpoint for the maximum permissible noise level, a setter for the maximum permissible the level of illumination, a comparator for each setpoint of the maximum permissible values of the measured parameters of temperature, noise, illumination, logic element max minimum temperature values, the logic element of the minimum temperature values, the logic element of the noise values, the logic element of the illumination values, the permanent storage device for the maximum temperature values, the permanent storage device for the minimum temperature values, the permanent storage device for noise levels, the permanent storage device for light levels, four shift registers, counter of maximum temperature values, counter of minimum temperature values, counter of maximum noise values, a counter of minimum values of illumination, a control unit and a generator, characterized in that a magnetic flux density sensor with a converter, a magnetic flux density adjuster, a comparator to a magnetic flux density adjuster, a logic element of maximum magnetic flux density values, a permanent storage device of maximum magnetic flux density values, a shift register, a maximum magnetic flux density counter are introduced into it moreover, the input of the control unit is connected to the outputs of five shift registers, the first inputs of the shift registers are connected to the outputs of five constant data storage devices and the second inputs of the five shift registers are connected to the outputs of the counters of the maximum temperature, minimum temperature, maximum magnetic flux density, maximum noise, minimum illumination, to the first inputs of which are connected the outputs of the logic element of the maximum temperature, logic element minimum temperatures, logic element maximum values of magnetic flux density, logic element noise, the logic element of the illumination values, and the outputs of five comparators are connected to the outputs of five comparators, in turn, all the logic elements are interconnected with the first output of the generator, the second output of which is connected to the input of the control unit, the outputs of the last are connected to the third inputs of five shift registers, with the second inputs of the counters of the maximum temperature, minimum temperature, maximum magnetic flux density, maximum noise, minimum luminance values with inputs of permanent storage devices of maximum temperature values, minimum temperature values, maximum values of magnetic flux density, noise values, illumination values, the output of the temperature sensor is connected to the converter input, the output of the magnetic flux density sensor with the converter input, the output of the noise sensor with the input of the converter, the output of the light sensor with the input of the converter, and the outputs of the converters are connected to the first inputs of the corresponding compara tori, the outputs of the settings are connected to the second inputs of the comparators, namely, the output of the setpoint for maximum temperature values, the output of the setter of minimum temperature values, the output of the setter of maximum values of the magnetic flux density, the output of the setter of maximum noise values, the output of the setter of minimum illumination values.