SU387347A1 - B1-1BLIS P; 1KL - Google Patents

Description

Temperature control devices are known, comprising a voltage source, a thyristor connected to a heating element circuit, a diode and a voltage divider consisting of a series-connected resistor and a thermistor. To the midpoint of the voltage divider is connected, an inistor, the cathode of which is connected to the control electrode of the thyristor, the anode of which is connected to the anode of the diode, connecting | 1: connected to the voltage divider and isotomiz.

The proposed device is characterized in that it contains a capacitor and a diode connected to the midpoint, the cathode of which is connected to the dynistor anode through a capacitor to the common bus of the voltage source.

This allows to increase the reliability of the device.

The drawing shows the proposed device.

It contains a thyristor /, a heating element 2, a resistor 3 and a thermistor 4, forming a voltage divider, a dynistor 5, a capacitor 6 and a diode 7. A thermistor 4 is placed in a thermostat.

The thyristor 1 is designed to switch the power circuit of the heating element 2. The voltage divider consisting of the resistor 3 and the thermistor 4 is a measuring circuit. Dinistor 5 is an element of comparison. Diode 7 is required to charge capacitor 6 only during the positive half-period of the supply voltage.

In the initial state, in the positive half-period of the supply voltage, the capacitor 6 is charged through the source, resistor 3, diode 7, capacitor 6 and source. The voltage on the capacitor 6 grows and rises to a value determined by the parameters of the divider, which are chosen so that at a temperature in the temperature-controlled volume below the required maximum voltage drop on the thermoresistor exceeds the voltage

switching on the dynistor 5. Therefore, the voltage on the capacitor 6 at a certain point in time will become equal to the turn-on voltage of the dynistor 5. The dynistor 5 is turned on, and the discharge of the capacitor 6 begins through the tyrnstor control transition. The thyristor / is turned on, and a current begins to flow through the thermostat heating element 2. At the moment of time when the current through the thyristor / becomes less than the current level, the thyristor is turned off and the power supply circuit of the heating element 2 is interrupted before the next half-transition of the supply voltage. In the next positive voltage voltage range, charge again occurs.

capacitor 5 etc

Thus, the temperature in the thermostat starts to rise. The temperature rises in the thermostat until the capacitor 6 is charged to a voltage equal to the switching voltage of the dynistor 5. Because of the decrease in the resistance of the thermistor 3, the voltage in the thermostat increases to capacitor 6 is charged. Therefore, at a certain point in time, dynistor 5 is no longer turned on. No control pulse is generated in the circuit of the control electrode of the thyristor. Tiri stor / not unlocked. The flow of current through the heating element 2 stops. The temperature in the thermostat starts to decrease, and the resistance of the thermistor 3 increases. The fall of the voltage on the thermistor 3 increases. The voltage on the capacitor 6 rises. Upon reaching the voltage on the capacitor 6, the turn-on voltage of the dynistor 5, it turns on. A turn-on pulse of the thyristor 7 is formed in the control electrode circuit. The thyristor 1 is unlocked again, and current flows through the heating element 2.

Subject invention

A temperature control device containing a voltage source and a heating element connected through a thyristor to a dynistor and a voltage divider, characterized in that, in order to increase

the reliability of the device operation, the oao contains a capacitor and a divider connected to the midpoint, the cathode of which is connected to the dynistor ayode and through a capacitor to the common bus of the voltage source.