SU1157321A1 - Device for automatic control of air temperature and humidity in ventilated and heated room - Google Patents

Abstract

1. DEVICE FOR THE AUTOMATIC CONTROL OF TEMPERATURE AND HUMIDITY AND AIR VENTILATED OTASHSHVAEMOM spaces containing electric heater and a fan provided with switches connected to vrsodami comparing elements, temperature sensors and humidity in the room and the sawtooth generator, the output of which is coupled to the inputs elements of comparison, characterized in that, in order to provide an economical control of the indoor microclimate with significant fluctuations in the outdoor temperature In winter and transition periods, the device is equipped with an outdoor temperature sensor, a functional converter, a correction pulse shaping unit with a setting unit, fan control units for outdoor temperature and indoor air temperature, control units for the electric air heater for outdoor temperature and air humidity in a room, programmed by a generator of impulses of a generator and a relay element, with the output of an outdoor temperature sensor connected through The control units for the fan and the electric heater for outdoor air to the inputs of the comparison elements, the input and output of the burdock element are connected respectively to the output of the generator and the inputs of the setpoint generator and the pulse shaping unit, the input of the functional converter is connected to the output of the outside temperature sensor control of the ventilator (Lum according to the air temperature in the room, the output of the pulse shaping unit is connected to the inputs of the fan control units and electric calories erom respectively the temperature and humidity in the room, and the outputs of these units 01 are connected to the inputs of control units venti | liter and electric air heater at the temperature of outdoor air. 2, the device according to claim 1, tl and tN9 that the control units of the fan and the electric reef, respectively, on the temperature and humidity of the air in the room contain setting parameters of the air in the room, additional comparison elements, logic elements And with two inputs, reversible counters and digital-analog multipliers; moreover, sensors and setting indicators of air parameters in the room are connected to the inputs of additional comparison elements, and

Description

logic gates AND are connected in series with reversible counters and digital-analog multipliers.

3. The device according to claim 1j is that the outdoor temperature sensor has a digital output, fan and electric air heater control units are equipped with a code forming unit and digital analogue converters according to the outdoor air temperature, and the code generation unit inputs are connected to the temperature sensor outside air, and the outlets with digital-to-analog converters.

4. The device of claim 1, wherein the outdoor temperature sensor has an analogue output; and the control units for the fan and the electric air heater according to the outdoor temperature contain series-connected voltage amplifiers, blocks for the formation of a driving voltage and matching amplifiers, with the outdoor temperature sensor connected to the inputs of the voltage amplifiers.

The invention relates to air conditioning technology.

The purpose of the invention is to provide an economical control of the microclimate in a room with significant fluctuations in the outside air temperature during the winter and transition periods.

FIG. 1 shows the main functional diagram of the device; in fig. 2 is a simplified version of the scheme without a correction pulse shaping unit; in fig. 3 shows the dependences of the capacity L of the fan and the power P of the heater, as well as the task of the temperature of the air inside the room and the temperature of the outside air.

A device for automatically controlling the temperature and humidity of the air in a ventilated and heated room 1 contains a fan 2 and an electric air heater 3 equipped with switches 4 and 5 connected to the outputs of elements 6 and 7 of the comparison, sensors 8 and 9 of the temperature and humidity of the air in the room 1 and a sawtooth voltage generator 10, the output of which is connected to the inputs of elements 6 and 7 of the comparison of the outdoor temperature sensor 11, the functional converter 12, the correction pulse shaping unit 13 with the setting device 14,

blocks 15 and 16 of control of fan 2 according to outdoor temperature and on air temperature in room 1, blocks 17 and 18 of control of electric air heater 3 on outdoor temperature and on air humidity in room 1, programmable setting unit 19 of generator 10 pulses and relay element 20, The sensor output 11 of the outdoor air temperature is connected via the blocks 16 and 17 of the control of the fan 2 and the electric air heater 3 according to the temperature of the external air to the inputs of the comparison elements 6 and 7, the input and output of the relay element 20 are connected to responsibly with the generator output 10 and the inputs of the setting device 19 and the pulse shaping unit 13, the input of the functional converter 12 is connected to the output of the outdoor temperature sensor, and the output is connected to the input of the fan control unit 16 according to the air temperature in room 1, the output the pulse shaping unit 13 is connected to the inputs of the blocks 16 and 18 of the control of the fan 2 and the electric air heater 3, respectively, according to the temperature and humidity of the air in the room 1, and the outputs of these blocks 16 and 18 are connected to the inputs of the blocks 15 and 17 of the control of the fan ohm elekGrokaloriferom 2 and 3 to the outdoor temperature.

The control unit 16 and 17 of the fan 2 and the electric heater 3, respectively, according to the temperature and humidity of the air in room 1, contain setting units 21 and 22 of the air parameters in room 1, additional comparison elements 23 and 24, logic elements 25-28 And with two inputs, reversible counters 29 and 30 and digital-analog multipliers 31 and 32, moreover, sensors 8 and 9 and unit 21 and 22 parameters of air in room 1 are connected to the inputs of additional elements 23 and 24 of the comparison, and connected in series to the outputs through logic elements 25-28 Reversible counters 29 and 30 and digital to analog multipliers 31 and 32.

The sensor 11 outdoor temperature has a digital output. The control units 15 and 17 of the fan 2 and the electric air heater 3 are equipped with outdoor air temperature units 33 and 34 of the code generation and digital-analogue converters 35 and 36, and the inputs of the code generation units 33 and 34 are connected to the outdoor temperature sensors 11, and the outputs with digital to analogue converters 35 and 36.

The outdoor temperature sensor 11 has an analog output. The units 15 and 17 of the control of the fan 2 and the electric air heater 3 according to the temperature of the outside air contain voltage-connected voltage amplifiers 37 and 38 in series, a set voltage setting units 39 and 40 and matching amplifiers 41 and 42 The sensor 11 of the temperature of the direct air is connected to the inputs of the voltage amplifiers 37 and 38.

A device for automatically controlling the temperature and humidity of the air in a ventilated and heated room works as follows.

The program by the world setter 19 of the cycle sets the duration of the pulses and the number of their repetitions in the common cycle, and the unit t4 sets the number of pulses per correction interval. In addition, the sensor 21 and 22 are set to the temperature and humidity of the air inside the room 1.

After the device is turned on, the sawtooth voltage generator 10 starts up, the sensors 11 and 8 of the temperature and the humidity sensor 9 begin to enter information, and the counters 29 and 30 are reset, at which output a code of about half the maximum possible value is output. By digital to analog multipliers 31 and 32, these codes are converted to voltage and assigned to the inputs of digital to analogue converters 35 and 36.

The digital code of the outside air temperature from the output of the sensor 11 is supplied to the inputs of the blocks 33 and 34 of the formation of the code for the fan 2 and the electric air heater 3, for which the limit values of task codes 2 128 units are set. For example, in FIG. Zo and 35 at an outdoor air temperature of 5 ° C, the setting code for the performance of the fan 2 is 71 units, and the setting code for the power of the electric air heater is 39 units. After converting these codes, digital-to-analog converters 35 and 36 with the voltage at the inputs of the reference voltage, for example, 10 V, their outputs will be respectively 10 / 128x71 5.6 and 10 / 128x39 3.1 V. These voltages in the elements 6, 7 comparisons are compared with the output voltage of the generator 10. If the voltage of the generator 10 is greater than the voltage at the output of the digital-to-analog converters 35 and 36, then the outputs of the elements 6, 7 will be low level signals. As soon as the voltage of the generator 10 is less than the voltage at the output of the D / A converter 35, then a high level signal is output at the output of the reference element 6. Similarly, the high level signal at the output of the reference element 7 is Vits when the voltage of the generator 10 is less than the voltage at the output of the digital-to-analog converter 36. The high voltage from the outputs of the comparison elements 6 and 7 opens the switches 4 and 5, including the fan 2 and electroheater 3. As soon as the voltage of the generator 10 is greater than the voltages at the output of the digital-to-analogue converters 35 and 36, the fanstrator 2 and the static caliper 3 are turned off. In the pauses between switching on, the fan 2 is in the free-run state. In this case, given the performance code of the fan 2, the duration of the pulses of the generator 10 should be such that during the pause between successive switching on, the fan 2 never stops. This circumstance facilitates the operation of the fan 2 in a pulsed mode.

After repeating a predetermined number of pulses of the generator 10, the minimum duration of the setting device 19 sets the next setpoint of the duration of the pulses and the number of their repetition. The duration of the pulses varies and the turn-on time of the fan 2 and the electric air heater 3 changes proportionally. This continues until the end of the total cycle. After this, the cycle of operation of the programmable driver 19 is repeated. For each

the pulse of the generator 10 to the programmable setting device 19 and to the correction pulse shaping unit 13 the relay element 20 inserts a rectangular pulse. These pulses ensure the functioning of the programmable setting device 19 and the formation of correction pulses. In block 13, the pulses from the relay element 20 are counted, the counted number is compared with the setpoint of the setting device 14, and if the specified and counted numbers match, the correction impulse generation unit 13 causes the transmission gain correction enable pulse across the control blocks 16 and 18.

If there are no increased requirements for indoor air humidity (functional converter 12 is not used), the value of indoor air temperature 1 measured by sensor 8 is compared in comparison element 23 with setpoint setting 21. If the indoor temperature is set, then comparison element 23 outputs a signal More, if lower than the specified, then the signal is Less. The signal of temperature deviation from the norm, in the presence of a correction resolution signal, is transmitted through the -element 25 and 26 and 12 or 14, respectively, to the addition or subtraction inputs of the reversible counter 29, increasing or decreasing the number recorded in the counter 29. The output voltage increases or decreases. digital analog multiplier 31 and, as a result, the voltage at the output of the digital analogue converter 35 in the fan control unit 15, which, when the air temperature inside room 1 exceeds the preset value, causes an increase in productivity of the fan 2, and a value below the set temperature - reduced productivity.

At the same time, the sensor 9 measures the humidity of indoor air 1. The measurement of the humidity value is compared in the comparison element 24 with the setpoint setpoint 22. If the humidity in the room 1 is higher than the specified one, the comparison element 24 produces the More signal, and if it is lower than the specified one, then the Less signal. The humidity deviation signal from the norm in the presence of a correction resolution signal through logic elements 27 and 28 And is applied respectively to the inputs or additions of the reversible counter 30, increasing rsi decreasing the number recorded in the counter 30. Accordingly, the output of the digital analogue multiplier 32 increases and decreases. as a result, the voltage at the output of the D / A converter 36 in the electric air heater control unit 17, which, as the air humidity in the room 1 increases above the setpoint, leads to lichenie power of bodily electrical heater, and at umenshenii humidity - to reduce this capacity.

The introduction of the functional converter 12 during the spring-autumn transition periods, characterized by increased humidity of the outside air at temperatures of this air (-15) - (-15) ° C, more fully observe the humidity conditions inside the room 1. This effect is achieved due to the fact that the functional when the outdoor temperature rises, the converter 12 changes the setpoint of the set temperature supplied to the reference element 23. Due to this, the transmission coefficient through the channel for setting the performance of the fan 2 is reduced, and the supply of humid outside air to the room is reduced. Consequently, an increase in the air temperature inside the room 1, which leads to a decrease in the relative humidity of the air in the room 1. However, the air temperature setpoint supplied by the functional converter 12 cannot be less than that set by the setting device 21.

The blocks 16 and 18 of the control of the fan 2 and the electric air heater 3, according to the temperature and humidity of the air in the room 1, have two features of operation. They react to changes in air parameters periodically. The periodicity of the correction is determined by the setting unit .14, the correction pulse shaping unit 13 and is provided by the elements I. It is caused by the considerable inertia and nonlinearity of the control object and is introduced so that the change in the transmission coefficient along the main channels follows from the established air parameters.

The second feature of control blocks 16 and 18 is that in blocks 16 and 18, information is kept about the deviation of the temperature and humidity of the air inside the room from the set values for the entire duration of the disturbances and the elimination of their consequences. The latter is ensured by the presence in block 16 and 18 of control meters 29 and 30.

The effect of the operation of control units 16 and 18 on the transmission coefficients is most intense in cases where there are significant disturbances uncorrelated with the outdoor air temperature, as well as EB, when the dependence of the transmission coefficients on the outdoor air temperature for the formation units 33 and 34 The codes are given very approximately without taking into account the peculiarities of the room 1 and the conditions of its operation. Systematically measuring and recording the parameters of outdoor and indoor air, as well as signals at the outputs of digital-to-analogue converters 35 and 36 and digital-to-analogue

multipliers 31 and 32, you can clarify the dependencies and bring them to the form at which the deviations of the parameters of air in room 1 will be minimal.

 In cases where the capabilities are limited and the dependencies for the blocks 33 and 34 of forming the performance codes of the fan 2 and the power of the electric air heater 3 are set fairly accurately, it is possible to use the device according to the second variant (Fig. 2), whose operation differs from the operation of the device basic option only way

mapping voltage conversions.

The voltage from the sensor output 11 of the outdoor temperature is converted by amplifiers 37 and 38 to levels that provide normal

The operation of the setting voltage generating units 39 and 40 in which it varies in accordance with the dependencies shown in FIG. 3, in proportion to the setting of the performance of the fan 2 and the power of the electric air heater 3. Then, the voltages are amplified by the matching amplifiers 41 and 42 and applied to. elements 6 and 7 of the comparison. Otherwise, the operation of the device according to the second variant is similar to the operation of the device according to the main variant.

The use of the proposed device allows for economical regulation of the microclimate in the room with significant fluctuations in the outdoor air temperature during the winter and transition periods, including in the presence of significant disturbances uncorrelated with the outdoor air temperature, and also allows for better maintenance of relative humidity due to changes in the setpoint of the set indoor air temperature and more uniform distribution of air throughout the room, t

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Claims (4)

1. A DEVICE FOR AUTOMATIC REGULATION OF TEMPERATURE AND AIR HUMIDITY IN A VENTILATED AND HEATED ROOM, containing a fan and an electric air heater, equipped with switches connected to the compartments of the comparison elements, temperature and humidity sensors in the room, and a voltage comparison output generator connected to the output characterized in that, in order to ensure economical regulation of the microclimate in the room with significant fluctuations in the temperature of the outdoor air in periods and transition periods, the device is equipped with an outdoor temperature sensor, a functional converter, a correction pulse generating unit with a setpoint, fan control units for outdoor temperature and room temperature, electric air heater control units for outdoor temperature and air humidity in a room, a programmable generator pulse generator and a relay element, and the output of the outdoor temperature sensor is connected via control units the fan and the electric heater according to the outdoor temperature to the inputs of the comparison elements, the input and output of the relay element are connected respectively to the output of the generator and the inputs of the master and the pulse forming unit, the input of the functional converter is connected to the output of the outdoor temperature sensor, and the output to the input of the fan control unit by air temperature in the room, the output of the pulse forming unit is connected to the inputs of the fan control units and the electric heater, respectively temperature and humidity of the air in the room, and the outputs of these blocks are connected to the inputs of the fan control units and the electric heater according to the outdoor temperature. 2. The device according to claim 1, characterized in that the control units for the fan and the electric heater “rifle”, respectively, according to the temperature and humidity of the air in the room, contain the parameters of the air in the room, additional comparison elements, logical elements AND with two inputs, reversible counters and digital-analog smart residents, moreover, the sensors and adjusters of the air parameters in the room are connected to the inputs of additional comparison elements, and to the outputs through, SU ,,,. 1157321 logical elements AND are connected in series down counters, and digital to analog multipliers. 3. The device according to p. ^ Characterized in that the outdoor temperature sensor has a digital output, the fan and electric heater control units for outdoor temperature are equipped with code generation units and digital-to-analog converters, the inputs of the code generation units being connected to the outdoor temperature sensor, and the output - dy - with digital-to-analog converters. 4. The device according to p. ^ Characterized in that the outdoor temperature sensor has an analog output, and the fan and electric heater control units according to the outdoor temperature comprise series-connected voltage amplifiers, set voltage generating units and matching amplifiers, wherein the outdoor temperature sensor is connected to Strengthen the inputs. lei of tension.