RU2643109C1 - Device for remote control of labour conditions parameters with temperature correction - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: device contains a control unit, temperature sensors, relative humidity, air speed, signal converters, dials for maximum and minimum temperature, relative humidity and air speed, comparators for each dial, logic elements, permanent-memory devices, shift registers, counters of maximum and minimum values of temperature, relative humidity and air speed, a control unit, a generator, an adjuster of the maximum and minimum values temperature values dial, adders, scaling amplifiers, correction units of maximum and minimum temperature values by the relative humidity, correction units of maximum and minimum temperature values by the air speed, inverters, correction amplifiers of temperature values by relative humidity and air speed.

EFFECT: improved quality of the device.

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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 physical factors of working conditions, such as temperature, relative humidity, air velocity at the workplaces of industrial enterprises.

A device for controlling the microclimate in storages is known [A.S. 334559, IPC ⁸ G05D 23/19. Climate control device / PM 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 regulating temperature and relative humidity [A.S. 691812, IPC ⁸ 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.

A device for remote monitoring of the parameters of the industrial environment [Pat. RF 2279704, IPC ⁸ G05D 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], which contains a control unit, temperature sensors, setpoints for maximum and minimum temperature values, a comparator for each setpoint of maximum permissible temperature values, logic elements for each controlled factor, permanent storage device for maximum and minimum temperature values, shift registers, generator control unit.

The disadvantage of this device is the limited number of parameters for monitoring the actual level of physical factors of the production environment.

Closest to the technical nature of the claimed device is selected as a prototype device for remote monitoring of parameters of working conditions [Pat. RF 2335795, IPC ⁸ G05D 27/02. Remote control device for the parameters of working conditions / E.M. Sokolov, V.M. Panarin, V.G. Pavpertov, O.N. Khaustova, R.V. Sokolovsky, G.V. Pavpertov. TulSU. - Publ. in BI 28, 2008 (prototype)], which contains a control unit, temperature, relative humidity, air velocity sensors, signal converters, maximum and minimum temperature and relative humidity sensors, a setpoint for the maximum permissible level of air speed, comparators, logic elements, permanent storage devices of maximum values of temperature, relative humidity and air velocity, permanent storage devices of minimum temperature values and relates Flax moisture, shift registers, counters maximum values of temperature, relative humidity and air velocity meters, the minimum values of temperature and relative humidity, and the generator control unit.

The disadvantages of the device are the low accuracy of the assessment of working conditions at a controlled workplace due to 1 lack of correction of the tasks of maximum and minimum temperature values depending on the relative humidity and air velocity.

The objective of this technical solution is to improve the quality of the device for remote monitoring of parameters of working conditions by introducing the correction of the tasks of maximum and minimum temperature values depending on the relative humidity and air velocity at a controlled workplace.

This is achieved by the fact that in the device for remote control of parameters of working conditions with temperature correction, containing a control unit, temperature sensor, relative humidity sensor, air velocity sensor, signal transducers of temperature, relative humidity and air velocity for each sensor, maximum and minimum values of temperature and relative humidity, setter for the maximum permissible level of air velocity, comparators for each setter, maximum permissible real values of the measured parameters of temperature, relative humidity and air velocity, logical elements of the maximum temperature, relative humidity and air velocity, logic elements of the minimum temperature and relative humidity, permanent storage devices of the maximum temperature, relative humidity and air velocity, read-only memory devices for minimum temperature and relative humidity, shift registers, counters the maximum temperature, relative humidity and air velocity, the minimum temperature and relative humidity counters, the control unit and the generator, the input of the control unit being connected to the outputs of all shift registers, the first inputs of the shift registers connected to the outputs of the permanent storage devices, respectively, the second the inputs of the shift registers are connected to the outputs of the counters of the maximum temperature, minimum temperature, maximum relative th humidity, minimum values of relative humidity, maximum values of air velocity, the outputs of the logic element of the maximum temperature values, the logic element of the minimum temperature values, the logic element of the maximum values of relative humidity, the logic element of the minimum values of relative humidity, the logic element of the maximum values are connected to the first inputs of the counters air velocity, and comparator outputs are connected to the inputs of logic elements respectively, the second inputs of the logic elements are interconnected with the first output of the generator, the second output of the generator is connected to the input of the control unit, the outputs of the control unit are connected to the third inputs of all shift registers, with the second inputs of the counters of maximum and minimum values and inputs of permanent storage devices , the outputs of the temperature sensors, relative humidity and air velocity through the converters are connected to the first inputs of the respective comparators, with the second inputs of the outputs of the relative humidity setpoints and the maximum values of the air velocity are connected; the maximum temperature setpoint corrector, the minimum temperature setpoint corrector, the maximum temperature correction adder, the minimum temperature correction adder, the scaling relative humidity amplifier, the maximum temperature correction unit for relative humidity, block for correction of minimum temperature relative humidity, inverter and correction amplifier of maximum temperature for relative humidity, inverter and correction amplifier of minimum temperature for relative humidity, scaling amplifier for air velocity, block for correction of maximum temperature values for air velocity, block for correction of minimum temperature values for air velocity , the correcting amplifier of the maximum temperature values for air velocity, correcting the amplifier of the minimum temperature values for air velocity, a setter, a comparator, a logic element, a permanent storage device, a shift register, a counter for minimum values of the air velocity, and the output of the setpoint for maximum temperature values through the corrector of the setpoint for maximum temperature values is connected to the comparator of maximum temperature values , the output of the setpoint for the minimum temperature through the corrector of the setter for the minimum temperature is connected to the comparator rum of the minimum temperature values, the correction inputs of the correctors for the maximum and minimum temperature values are connected to the outputs of the maximum and minimum temperature correction adders, respectively, the first input of the maximum temperature correction adder through an inverter, a correction amplifier, and a block for the correction of maximum temperature values for relative humidity are connected to the output scaling relative humidity amplifier, the second input of the adder correction maximum temperature values through a correction amplifier and a block for correcting maximum temperature values for air velocity connected to the output of a scaling amplifier for air velocity, the first input of an adder for correcting minimum temperature values through an inverter, a correction amplifier and a block for correcting minimum temperature values for relative humidity connected to the output of a scaling amplifier relative humidity, the second input of the adder correction of the minimum temperature values through to a correction amplifier and a block for correcting minimum temperature values for air velocity are connected to the output of the scaling air velocity amplifier, the input of the scaling relative humidity amplifier is connected to the output of the relative humidity transducer, the input of the scaling air velocity amplifier is connected to the output of the air velocity transducer, the output of the minimum setter values of the air velocity through the comparator and the logic element is connected to the input the minimum value of the air velocity, the first input of the shift register of the minimum values of the velocity is connected to the input of the permanent storage device, the second input is connected to the output of the counter of the minimum values of air velocity, the third input is connected to the output of the control unit, the second input of the counter of the minimum values of speed air is connected to the output of the control unit, the second input of the logic element is connected to the first output of the generator, the output of the shift register is the minimum s air velocity is coupled to an input control unit.

Figure 1 shows the structural diagram of a device for remote monitoring of parameters of working conditions with temperature correction.

The device comprises a control unit 1, to the input of which the outputs of the shift registers 2, 3, 4, 5, 6, 7 are connected.

The outputs of the elements are connected to the inputs of the shift registers: to the input of the shift register 2, the outputs of the counter of the maximum temperature values 8 and read-only memory 9, to the input of the shift register 3 - the outputs of the counter of the minimum temperature values 10 and read-only memory 11, to the input of the shift register 4 - outputs of the counter of maximum values of relative humidity 12 and a permanent storage device 13, to the input of the shift register 5 - outputs of the counter of minimum values of relative humidity 14 and post stantly-storage unit 15, to the input of the shift register 6 - counter outputs the maximum values of air flow rate 16 and constantly-storage device 17 to the input of the shift register 7 - counter outputs minimum values of air flow rate 18 and the continuously-storage device 19.

The outputs of the following elements are connected to the inputs of the counters of the values of the physical factors of the production environment: to the counter 8, the logic element of the maximum temperature values 20 is connected, to the counter 10 the logic element of the minimum temperature values 21, to the counter 12 the logic element of the maximum values of relative humidity 22, to the counter 14 the logical element the minimum values of relative humidity 23, to the counter 16 is a logical element of the maximum values of the air velocity 24, to the counter 18 is the logical elements minimum values of air velocity 25, which provide the push signal to the counter.

The inputs of the counters are connected to the output of the control unit 26, to the input of which a signal generator 27 is connected.

The logic elements that are part of the structure of the system 20, 21, 22, 23, 24, 25 are interconnected, and the following outputs of the elements are connected to their inputs: the output of the comparator 28 - to the input of the logic element of the maximum temperature 20, the output of the comparator 29 - at the input of the logic element of the minimum values of temperature 21, the output of the comparator 30 - at the input of the logic element of the maximum values of relative humidity 22, the output of the comparator 31 - at the input of the logic element of the minimum values of relative humidity 23, the output of the comparator 32 - n and the input of the logic element of the maximum values of the air velocity 24, the output of the comparator 33 - to the input of the logic element of the minimum values of the air velocity 25 and the inputs of the logic elements - the output of the generator 27.

The outputs of the elements are connected to the inputs of the comparators: to the input of the comparator 28 through the corrector of the setpoint for maximum temperature values 34 the output of the setter of maximum temperature values 35, to the input of the comparator 29 through the corrector of the setpoint for minimum temperature 36 the output of the setpoint for minimum temperature 37, as well as to both inputs comparators 28, 29 signal converter output 38.

The input of the comparator 30 is connected to the output of the setpoint generator of the maximum values of relative humidity 39, and the input of the comparator 31 is connected to the output of the setter of the minimum values of relative humidity 40, and the output of the signal converter 41 is connected to both inputs of the comparators 30, 31.

The input of the comparator 32 is connected to the output of the master of the maximum values of the air velocity 42, and the input of the comparator 33 is connected to the output of the master of the minimum values of the air velocity 43, and the output of the signal converter 44 is connected to both inputs of the comparators 32, 33.

Values of actual levels of physical factors of the production environment are recorded by temperature sensors 45, relative humidity 46, air velocity 47. The signal from the sensors is transmitted to signal converters. This is achieved by connecting the output of the temperature sensor 45 with the input of the signal converter 38, the output of the relative humidity sensor 46 with the input of the signal converter 41, the output of the air velocity sensor 47 with the input of the signal converter 44.

The correcting input of the corrector of the setpoint for maximum temperature values 34 is connected to the output of the adder of correction 48 of the maximum temperature, the correcting input of the corrector of the setter of minimum temperature values 36 is connected to the output of the adder of correction 49 of the minimum temperature.

The first input of the correction adder 48 of the maximum temperature through the inverter 50 and the correction amplifier 51 of the maximum temperature in relative humidity is connected to the output of the correction unit 52 of the maximum temperature in relative humidity.

The first input of the correction adder 49 of the minimum temperature value through the inverter 53 and the correction amplifier 54 of the minimum temperature value of relative humidity is connected to the output of the correction unit 55 of the minimum temperature value of relative humidity.

The inputs of the correction unit 52 of the maximum temperature in relative humidity and the correction unit 55 of the minimum temperature in relative humidity are connected through a scaling relative humidity amplifier 56 to the output of the relative humidity signal converter 41.

The second input of the correction adder 48 of the maximum temperature through a correction amplifier 57 of the maximum temperature by air speed is connected to the output of the correction unit 58 of the maximum temperature by air speed.

The second input of the correction adder 49 of the minimum temperature values through the correction amplifier 59 of the minimum temperature values by air velocity is connected to the output of the correction unit 60 of the minimum temperature values by air velocity.

The inputs of the correction unit 58 of the maximum temperature values for air velocity and the correction unit 60 of the minimum temperature values for air velocity are connected through a scaling amplifier 61 in air velocity to the output of the signal converter 44 in air velocity.

A device for remote monitoring of parameters of working conditions is as follows.

After applying power, the generator 27 begins to generate electrical signals. The current values of the parameters of working conditions from temperature sensors 45, relative humidity 46, air velocity 47 are fed through the corresponding normalizing transducers 38, 41 and 44 to the comparators.

The comparator 28 is triggered if the current temperature value received from the temperature sensor 45 through the normalizing transducer 38 exceeds the level of the signal supplied to the comparator 28 from the corrector of the set point 34 of the maximum temperature values.

The comparator 29 is triggered if the current temperature value becomes lower than the level of the signal supplied to the comparator 29 from the corrector of the set point 36 of the minimum temperature values.

The comparator 30 is triggered if the current value of the relative humidity coming from the relative humidity sensor 46 through the normalizing transducer 41 exceeds the level of the signal supplied to the comparator 30 from the set point generator 39 of the maximum relative humidity.

The comparator 31 is triggered if the current value of relative humidity becomes less than the level of the signal supplied to the comparator 31 from the setter 40 of the minimum values of relative humidity.

The comparator 32 is triggered if the current value of the air velocity coming from the air velocity sensor 47 through the normalizing transducer 44 exceeds the level of the signal supplied to the comparator 32 from the master 42 of the maximum air velocity.

The comparator 33 is triggered if the current value of the air velocity becomes less than the level of the signal supplied to the comparator 33 from the setter 43 of the minimum values of the air velocity.

If the comparators are triggered, the signals are transmitted to the corresponding logic elements 20, 21, 22, 23, 24, 25. If the actual values of the factors are within acceptable limits, then the comparators do not work and the signals are not transmitted.

The signals from the logic elements are read by counters 8, 10, 12, 14, 16 and 18. According to the control signal from the control unit 26, signals from read-only memory devices 9, 11, 13, 15.17, 19 and counters 8, 10 , 12, 14, 16, 18 are transferred to the corresponding shift registers 2, 3, 4, 5, 6, 7, which encode the data and transmit them via the communication lines to the control unit 1. After the data transfer is completed, the shift registers go into standby mode.

The working conditions of workers by the temperature factor significantly depend on the relative humidity and air velocity at the controlled workplace.

To correct the tasks of maximum and minimum temperature values depending on the value of relative humidity and air velocity at the controlled workplace in real time, the corrector of the setpoint of maximum temperatures 34 and the corrector of setter of minimum values of 36 were applied to the control inputs of which signals from the correction adder 48 maximum temperature values and correction adder 49 minimum temperature values, respectively.

Correction for relative humidity for maximum temperatures is performed by applying a signal from a relative humidity converter 41 through a relative humidity scaling amplifier 56, a correction unit 52 that realizes the maximum allowable temperature as a function of relative humidity, a maximum temperature correction amplifier 51 and an inverter 50 to the first input of the adder correction of 48 maximum temperature values.

Correction for relative humidity for minimum temperature values is carried out by supplying a signal from a relative humidity converter 41 through a relative humidity scaling amplifier 56, a correction unit 55 realizing the dependence of the minimum allowable temperature on relative humidity, a minimum temperature correction amplifier 54 and an inverter 53 to the first input of the adder correction of 49 minimum temperature values.

Correction in air velocity for maximum temperatures is performed by applying a signal from the air velocity transducer 44 through a scaling amplifier 61 in air velocity, correction unit 58 that implements the dependence of the maximum allowable temperature on air velocity, correcting amplifier 57 of the maximum temperature in the second input of the correction adder 48 maximum temperature values.

The correction of the air velocity for the minimum temperature is performed by applying a signal from the transducer 44 of the air velocity through the scaling amplifier 61 to the air velocity, a correction unit 60 that implements the dependence of the minimum allowable temperature on the air velocity, the correction amplifier 59 of the minimum temperature input of the correction adder 49 minimum temperature values.

As a result, a correction signal is generated at the output of the correction adder 48 of the maximum temperature, which, through the corrector of the setpoint 34 of the maximum temperature, changes the allowable response value of the comparator 28 depending on changes in relative humidity and air velocity at the workplace. Similarly, at the output of the correction totalizer 49 of the minimum temperature values, a correction signal is generated which, through the corrector of the setpoint 36 of the minimum temperature values, changes the permissible response value of the comparator 29 depending on changes in relative humidity and air velocity at the workplace.

Thus, in the device for remote monitoring of parameters of working conditions with temperature correction, correction of the tasks of maximum and minimum temperature values is provided depending on the relative humidity and air velocity at the controlled workplace in real time, which helps to improve the quality of the device.

Claims (1)

A device for remote control of parameters of working conditions with temperature correction, containing a control unit, temperature sensor, relative humidity sensor, air velocity sensor, temperature, relative humidity and air velocity transducers for each sensor, setters for maximum and minimum values of temperature and relative humidity , adjuster of the maximum permissible level of air velocity, comparators for each adjuster of maximum permissible values are measured x parameters of temperature, relative humidity and air velocity, logic elements of the maximum temperature, relative humidity and air velocity, logic elements of the minimum temperature and relative humidity, storage devices for maximum temperature, relative humidity and air velocity, constantly storage devices of minimum values of temperature and relative humidity, shift registers, counters of maximum values temperature, relative humidity and air velocity, minimum temperature and relative humidity counters, a control unit and a generator, the input of the control unit being connected to the outputs of all shift registers, the first inputs of the shift registers connected to the outputs of the permanent storage devices, respectively, the second inputs of the shift registers connected to the outputs of the counters of the maximum temperature, minimum temperature, maximum relative humidity, minimum relative humidity, maximum values of the air velocity, the outputs of the logic element of the maximum temperatures, the logic element of the minimum temperatures, the logic element of the maximum values of relative humidity, the logic element of the minimum values of relative humidity, the logic element of the maximum values of the air velocity are connected to the first inputs of the counters, and the inputs of the logic elements are connected to the outputs of the comparators, respectively, the second the logic element paths are interconnected with the first output of the generator, the second output of the generator is connected to the input of the control unit, the outputs of the control unit are connected to the third inputs of all shift registers, with the second inputs of the maximum and minimum value counters and the inputs of the permanent storage devices, the outputs of the temperature sensors , relative humidity and air velocity through the converters are connected to the first inputs of the respective comparators, the outputs are connected to the second inputs of the comparators s relative humidity setpoints and maximum values of the air velocity, characterized in that a temperature setpoint corrector, a minimum temperature setpoint corrector, a maximum temperature correction adder, a minimum temperature adjustment adder, a scaling relative humidity amplifier, and a maximum correction unit temperature values for relative humidity, block for correction of minimum temperature values for relative th humidity, inverter and correction amplifier of maximum temperature values for relative humidity, inverter and correction amplifier of minimum temperature values for relative humidity, scaling amplifier for air velocity, block for correction of maximum temperature values for air velocity, block for correction of minimum temperature values for air velocity , correction amplifier of maximum temperature values by air velocity, correction amplifier minimum temperature values for air velocity, setpoint for minimum values of air velocity, comparator and logic element for minimum values of air velocity, read-only memory, a shift register and counter for minimum values of air velocity, and the output of the setpoint maximum temperature values through the maximum setter corrector temperature values connected to the comparator of maximum temperature values, the output of the setpoint minimum temperature tours through the corrector of the setpoint for minimum temperature values are connected to the comparator of the minimum temperature setpoints, the inputs of the corrector corrector setters for the maximum and minimum temperature values are connected to the outputs of the adders for correction of the maximum and minimum temperature values, respectively, the first input of the adder for the correction of maximum temperature values through an inverter, a correction amplifier and a correction unit maximum temperature relative humidity connected to the output scaled relative humidity amplifier, the second input of the adder for correction of maximum temperature values through the correction amplifier and the unit for the correction of maximum temperature values for air velocity is connected to the output of the scaling amplifier for air velocity, the first input of the adder for correction of minimum temperature values through an inverter, a correction amplifier, and a unit for correction of minimum relative humidity values are connected to the output of the scaling amplifier with respect to humidity, the second input of the adder for correcting the minimum temperature values through the correction amplifier and the unit for correcting the minimum temperature values for air velocity is connected to the output of the scaling air velocity amplifier, the input of the scaling relative humidity amplifier is connected to the output of the relative humidity converter, the input of the scaling air velocity amplifier is connected with the output of the air velocity transducer, the output of the setpoint minimum values the speed of air movement through the comparator and the logic element is connected to the input of the counter of the minimum values of the speed of air movement, the first input of the shift register of the minimum values of the speed of movement is connected to the input of the permanent storage device, the second input is connected to the output of the counter of the minimum values of air speed, the third input is connected to the output of the control unit, the second input of the counter of the minimum values of the air velocity is connected to the output of the control unit, the second input of the logic element that is connected to the first output generator, the output of the shift register minimum air velocity values connected to the input control block.

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