RU204012U1 - DEVICE FOR CONTROL AND CORRECTION OF TEMPERATURE-HUMIDITY AND GAS MEDIUM IN THE STRUCTURE - Google Patents

Abstract

The utility model solves the problem of automating the control and correction of the temperature and humidity regime and the gas environment in the structure during the operation of special weapons. For this, the parameters from the temperature sensors 1, relative humidity 2, gas 3 are recorded in the data processing unit 4. If the registered the parameters of the sensors will exceed the reference parameters of the dials 11, 12, 13, 14, 15, 16, associated with the comparators 5, 6, 7, 8, 9, 10, respectively, then a signal is sent to the control unit 18, which, in turn, sends a control impact on the matching device 19 to activate the piezoelectric element 25 and the LED 26, and on the control unit 13 for the subsequent correction of the measured parameters. Correction is carried out using auxiliary devices. Measurement results can be presented in digital and graphical form and displayed on any medium.

Description

The device relates to automation, in particular to systems of measurement, control, regulation of temperature and humidity conditions and gas environment in the structure.

Known device for remote control of parameters of the production environment (RF patent No. 2279704, 2006), containing a control unit, temperature sensors, setters for maximum and minimum temperature values, a comparator for each setter of maximum permissible temperature values, logic elements for each controlled factor, permanent memory maximum and minimum temperature values, shift registers, control unit, generator.

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

The closest in technical essence to the proposed utility model is a device for monitoring and correcting the temperature and humidity conditions in a building (RF patent No. 193765, 2019), containing a temperature sensor, a relative humidity sensor, a setter for maximum temperature values, a setter for maximum values of relative air humidity, setter of minimum temperature values, setter of minimum values of relative air humidity, comparator of maximum values of temperature, comparator of maximum values of relative humidity of air, comparator of minimum values of temperature, comparator of minimum values of relative humidity of air, permanent memory of values of temperature and relative humidity of air, control unit, moreover, the output of the control unit is connected to the input of the read-only memory, a data processing unit, a matching device, an information output device, a stepping motor, reinforced on the end wall of the housing and connected to the output of the control unit, and the output of the temperature sensor and the output of the relative humidity sensor are connected to the input of the data processing unit, the output of which is connected to the inputs of the comparator of maximum temperature values, comparator of minimum temperature values, comparator of maximum values of relative air humidity, comparator of minimum values of relative air humidity, outputs of the setter of maximum values of temperature, setter of maximum values of relative air humidity, setter of minimum values of temperature, setter of minimum values of relative air humidity are connected to the input of the comparator of maximum values of temperature, comparator of maximum values of relative humidity, comparator of minimum values of temperature , the comparator of the minimum values of the relative humidity of the air, respectively, the inputs of the control unit are connected to the outputs of all comparators and the output of the data processing unit, the output of the control unit is connected to the input of the information output device and the input of the matching device, the input of the stepping motor, the output of the read-only memory device is connected to the input of the setters for the maximum and minimum values of temperature and relative humidity, as well as to the input of the control unit, the device is equipped with a fan and two nozzles mounted on the end of the body, a heating element mounted on the opposite end of the body, connected to the outputs of the matching device.

The disadvantages of the device are low information content, the inability to display and correct the measured parameters and determine the average daily values of parameters other than nominal.

The task of the utility model is to increase the information content and reliability, as well as the ability to display the recorded values of the results in digital, graphical and tabular form.

The essence of the utility model lies in the fact that a known device for monitoring and correcting the temperature and humidity regime and the gaseous environment in a structure, containing a temperature sensor, a relative humidity sensor, a setter of maximum temperature values, a setter of maximum values of relative air humidity, a setter of minimum temperature values, setter of minimum values of relative air humidity, comparator of maximum values of temperature, comparator of maximum values of relative humidity of air, comparator of minimum values of temperature, comparator of minimum values of relative humidity of air, permanent memory of values of temperature and relative humidity of air, control unit, output of control unit is connected to read-only memory input, data processing unit, matching device, information output device, stepper motor mounted on the end wall of the case and connected to the output One of the control unit, the output of the temperature sensor and the output of the relative humidity sensor are connected to the input of the data processing unit, the output of which is connected to the inputs of the comparator of maximum temperature values, comparator of minimum temperature values, comparator of maximum values of relative humidity, comparator of minimum values of relative humidity, outputs setter of maximum temperature values, setter of maximum values of relative air humidity, setter of minimum values of temperature, setter of minimum values of relative air humidity are connected to the input of the comparator of maximum values of temperature, comparator of maximum values of relative humidity of air, comparator of minimum values of temperature, comparator of minimum values of relative humidity of air, accordingly, the inputs of the control unit are connected to the outputs of all comparators and the output of the data processing unit and the input of the matching unit. the input of the stepper motor, the output of the memory unit is connected to the input of the setters of the maximum and minimum values of temperature and relative humidity of the air, as well as to the input of the control unit, the device is equipped with a fan and two nozzles mounted on the end of the case, a heating element installed on the opposite end of the case connected to the outputs of the matching unit, a gas sensor, a setter of maximum gas values, a setter of minimum gas values, a comparator of maximum gas values, a comparator of minimum gas values are introduced, and the output of the gas sensor is connected to the input of the data processing unit, the output of which is connected to the inputs of the comparator of maximum values gas, comparator of minimum gas values, outputs of the setter of maximum gas values, setter of minimum gas values are connected to the input of the comparator of maximum gas values, comparator of minimum gas values, respectively, the inputs of the control unit are connected to the outputs of all comparators, the top panel of the control unit is equipped with light and sound indicators connected to its output.

FIG. 1 shows a general view of the device for monitoring and correcting the temperature and humidity conditions and the gaseous environment in the structure.

The device for monitoring and correcting the temperature and humidity regime and the gas environment in the structure consists of a temperature sensor 1, a relative humidity sensor 2, a gas sensor 3, as well as a data processing unit (BOD) 4, a comparator of maximum temperature values 5, a comparator of minimum temperature values 6 , comparator of maximum values of relative air humidity 7, comparator of minimum values of relative humidity of air 8, comparator of maximum values of gas 9, comparator of minimum values of gas 10, setter of maximum values of temperature 11, setter of minimum values of temperature 12, setter of maximum values of relative humidity of air 13, set minimum values of relative air humidity 14, setpoint for maximum gas values 15, setpoint for minimum gas values 16, matching unit (BS) 17, memory unit (BP) 18, control unit (CU) 19, heating element (NE), fan, nozzles, stepper motor fir tree, sound indicator made in the form of a piezoelectric element, light indicator made in the form of an LED. Moreover, temperature sensor 1 and relative humidity sensor 2, gas sensor 3 are connected to BOD 4, which is connected to a comparator of maximum temperature values 5, a comparator of minimum temperature values 6, a comparator of maximum values of relative humidity of air 7, a comparator of minimum values of relative humidity of air 8, a comparator maximum gas values 9, a comparator of minimum gas values 10 and BU 19, BP 18 is connected to a setter for maximum temperature values 11, setter for minimum temperature values 12, setter for maximum values of relative air humidity 13, setter for minimum values of relative air humidity 14, setter for maximum values of gas 15, the setter of the minimum gas values 16 and with the BU 19, which is connected to the PSU 18, a stepper motor, a piezoelectric element, an LED and a BS 17, which is connected to a heating element (NE), a fan, nozzles.

The device works as follows. From temperature sensor 1, relative air humidity sensor 2 and gas sensor 3, the measurement results are sent to BOD 4. After processing the results, information about the temperature, relative air humidity, and the presence of gas is transmitted to the comparators: maximum temperature values 5, minimum temperature values 6, maximum values of relative air humidity 7, minimum values of relative air humidity 8, maximum values of gas 9, minimum values of gas 10, as well as on BU 19. Further information on temperature, relative humidity of air, gas enters BP 18, which stores and compares them with reference values. Further, the BP 18 receives a control action on the setters: the maximum temperature values 11, the minimum temperature values 12, the maximum values of the relative air humidity 13, the minimum values of the relative air humidity 14, the maximum gas values 15, the minimum gas values 16. After comparing the obtained temperature results , relative air humidity and gas content in the room, the measured parameters come from all comparators to BU 19, which generates a control action on BS 17 for subsequent correction of the obtained values when compared with the reference parameters of all transmitters. When the temperature parameters increase, the BS 17 control action activates a fan, nozzles, a stepper motor, a piezoelectric element, and an LED. When the temperature drops, the NE is activated. With an increase in the relative humidity of the air, a stepper motor, a fan, and a NE are activated. When the relative humidity of the air drops, the nozzles are activated. If the registered parameters of the gas sensor 3 exceed the reference parameters of the setter of the maximum gas values 15 associated with the comparator of the maximum gas values 9, then a signal is sent to the BU 19, which in turn sends a control action to the BS 17 to activate the fan and injectors. The device is made with the possibility of connecting additional peripheral information output devices to the output of the control unit 19.

The advantage of the proposed utility model is that the information content and reliability of the results obtained are increased due to the introduction of an additional registration channel, as a result of which the safety during the operation of the structure is increased, as well as the possibility of displaying the recorded values in digital, graphic and tabular form is realized.

Claims (1)

A device for monitoring and correcting the temperature and humidity conditions and the gaseous environment in a building, containing a temperature sensor, a relative humidity sensor, a maximum temperature transmitter, a maximum relative air humidity value, a minimum temperature setter, a minimum relative air humidity setter, a maximum value comparator temperature, comparator of maximum values of relative air humidity, comparator of minimum values of temperature, comparator of minimum values of relative humidity of air, control unit, the output of the control unit is connected to the input of the memory unit, the data processing unit, the output of the temperature sensor and the output of the relative humidity sensor are connected to the input of the unit data processing, the output of which is connected to the inputs of the comparator of maximum values of temperature, comparator of minimum values of temperature, comparator of maximum values of relative humidity in air, comparator of minimum values of relative air humidity, outputs of the setter of maximum values of temperature, setter of maximum values of relative air humidity, setter of minimum values of temperature, setter of minimum values of relative air humidity are connected to the input of the comparator of maximum values of temperature, comparator of maximum values of relative humidity of air, comparator of minimum values of temperature, comparator of minimum values of relative humidity of air, respectively, the inputs of the control unit are connected to the outputs of all comparators and the output of the data processing unit, characterized in that a gas sensor, a setter of maximum gas values, a setter of minimum values of gas, a comparator of maximum values of gas, a comparator are introduced minimum gas values, and the output of the gas sensor is connected to the input of the data processing unit, the output of which is connected to the inputs of the comparator of maximum gas values, the comparator and the minimum gas values, the outputs of the setter of the maximum gas values, the setter of the minimum gas values are connected to the input of the comparator of the maximum gas values, the comparator of the minimum gas values, respectively, the inputs of the control unit are connected to the outputs of all comparators, the upper panel of the control unit is equipped with light and sound indicators connected to his exit.

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