SU1156028A1 - Temperature controller - Google Patents

Abstract

TEMPERATURE REGULATOR, containing a temperature measuring transducer - a pulse duration, a power switch and a heater connected in series and connected to the network, as well as a correction unit controlling the input connected to the network, characterized in that, in order to increase efficiency and reduce power consumption, the unit correction is performed on the And element, the resistor optocoupler, the capacitor and the diode, and the capacitor is connected to the power source through an optocoupler photoresistor, the common output of the photoresistor and the capacitor It is connected with the first input of the element I and with the anode of the diode, the cathode connected to the output of the temperature measuring transducer - the pulse duration and to the second input of the element AND connected to the control input of the power switch, and from (L) is a control input correction block.

Description

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rj The invention relates to automatic temperature control and can be used to control the temperature in electric resistance furnaces. The purpose of the invention is to increase the efficiency and reduce the power consumption of the temperature regulator. The drawing shows the functional diagram of the temperature regulator. The temperature regulator contains a temperature measuring transducer - a pulse duration which is connected to the input of the correction unit 2, the output of which is connected to the power switch 3 and the heater 4 connected in series and the heater 4, the correction unit 2 consists of a resistor optocoupler 5 with an emitter 6 and the photoresistor 7, the capacitor 8, the diode 9 and the element AND 10. The capacitor is connected to the power source through the photoresistor 7, their common output is connected to the first input element And 10 and the anode of the diode 9, the cathode of which is connected the second input of AND gate 10. The input unit 2 will tion-compensation second input of AND gate 10, a control input unit PFC - .6 photocoupler emitter 5, which is connected to the network, and the output - the output of the AND 10. The apparatus operates as follows. The measuring transducer is temperature - the duration of the pulses generates pulses, the duration of which varies in accordance with the magnitude of the deviation of the temperature of the object from the specified value. These pulses are then transmitted through the correction unit 2 to the control input of the power switch 3, which regulates the electric power consumed by the heater 4, in accordance with the pulse duration. With fluctuations in the supply voltage, the magnitude of the voltage at the input of the resistor optocoupler (on the switch of the resistor 6 resistor opto pair) changes. Depending on the magnitude of the voltage on the radiator 6, the voltage of the photoresistor 7 of the resistor optocoupler is 5. The influence of the change in the brightness of the photoresistor 7 when the voltage value changes at the input of the resistor optocoupler 5 changes the value of the resistance of the photoresistor. As a result, the time constant of the driver circuit consisting of the photoresistor 7 and the capacitor 8 changes. In the absence of a signal at the output of the transmitter, the temperature is the pulse duration 1 The capacitor 8 is shunted by the diode 9 and the output resistance of the transmitter is the pulse duration. When a pulse appears at its output, the diode 9 turns off and the charge of the capacitor 8 starts. The output pulse at the output of the element 10 does not form until the voltage on the capacitor 8 exceeds the sensitivity threshold of the input of the element 10. As a result, the moment of formation of the pulse at the output of the element, And 10 will be shifted by the delay time relative to the moment of input pulse input, while the pulse duration in the code of correction unit 2 is equal to the input pulse duration minus the delay time. The delay time depends on the magnitude of the resistance of the photoresistor 7 and, therefore, on the magnitude of the voltage at the input of the resistor optocoupler 5. For example, as the voltage increases, the illumination of the photoresistor 7 increases, which leads to a decrease in its resistance and, consequently, a decrease in the delay time. This in turn leads to a decrease in the duration of the pulses at the output of the correction unit 2 and, consequently, to a decrease in the power consumed by the heater 4. When the voltage on the radiator 6 of the resistor optocoupler 5 decreases, the duration of the pulses at the output of the correction unit 2, on the contrary, increases which allows to increase the power consumed by the heater 4. Thus, in the temperature controller, the voltage fluctuations of the network on the heater 4 are compensated. Correction unit 2 in the proposed device is complete and a capacitor 8, a diode 9, as well as a resistor optocoupler 5 and an And 10 element that consumes negligible power.

311560284

This makes it possible, compared with voltage, to load, by deciding to simplify the design of the setpoint and setpoint unit and thereby saves the device by increasing the efficiency and reducing the magnet amplifier's power consumption. hieratury.

Claims (1)

TEMPERATURE REGULATOR, comprising a temperature and temperature measuring transducer, a power switch and a heater connected in series and connected to the network, as well as a correction unit connected to the network by a control input, characterized in that, in order to increase the efficiency and reduce power consumption, the correction unit is made on the element And, the resistor optocoupler, the capacitor and the diode, and the capacitor is connected to the power source through the photoconductor of the optocoupler, the common output of the photoresistor and the capacitor is connected a first input AND gate and the anode of the diode, 'a cathode connected to the output of the transducer temperature - pulse duration and to the second input of the AND gate, the output connected to the control input of the power switch and photocoupler emitter resistor is the control input of the correction block. SU ... 1156028