SU622068A1 - Temperature regulator - Google Patents

Description

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This invention relates to the field of automatic control.

Temperature controllers are known that contain a thyristor included in the circuit of the heating element and use thermocouples and thermal resistance to control the temperature of the temperature. To control the thyristor, they used amplifiers of a slowly varying voltage or current of sensor 1.

The disadvantages of these systems are their complexity and low sensitivity.

Of the known temperature regulators, the closest to the technical essence of the invention is a regulator containing a series-connected thyristor switch KI connected to a power source, a heater, a control unit configured on a saturation throttle, to the first input winding of which a temperature converter is connected, and - control circuit of a thyristor non-switch 2.

Phase control of the thyristor causes mains power in the form of current surges, low sensitivity makes it difficult to use this temperature controller with a thermocouple sensor due to significantly lower thermocouple currents.

In order to improve accuracy and improve performance, the proposed controller contains a read pulse generator, a threshold element made on a dynistor, and a memory element made on a capacitor, the input of the read pulse generator is connected to the power supply and the output to the second input winding saturation droplet, the dynistor is connected in parallel to the output winding of saturation droplet and in series with a capacitor connected between the cathode-control electrode of the thyristor circuit eklyuchatel, nodsoedinen to power istochiku.

The drawing shows a regulator circuit.

The temperature regulator consists of a thyristor switch 1 and a heater 2 connected in series to a power source. A diode 3 is turned on in parallel with the thyristor switch 1.

The control electrode circuit of the thyristor switch 1 includes a diode A, a resistor 5 and a memory element made on the capacitor 6. One lead of the capacitor 6 is connected to the common connection point of the resistor 5, the anode of the diode 4 and the threshold element on the dynistor 7 and. the output winding of the control unit on the throttle 8 saturation, and the second output of the capacitor with the bus power source. The cathode of the dynistor 7 is connected through a nodisciplinaryly connected capacitor 9 and a diode 10 with another output of the output winding of the saturation throttle 8.

An adjustable resistor Ni and a temperature converter 12, for example, a thermocouple, are connected in series in the primary winding of saturation throttles 8. A generator of 13 readout pulses is connected to the secondary winding of saturation throttles.

The regulator works as follows

When voltage is applied to the regulator, the thyristor switch 1 opens a positive half-wave supply voltage through a resistor 5 and diode 4 and a current flows through heater 2, and a negative half-wave passes to the heater through diode 3. At the same time, each negative half-cycle starts a generator 13 of read pulses In the secondary winding of the throttles 8 saturation packs of three, four read pulses that saturate the choke 8.

As the temperature of the heater increases, the current of the thermocouple flowing through the adjustable resistor 11 and the primary winding of the saturation throttle 8 increases, which leads to its magnetization reversal.

As a result, synchronously with the operation of the generator of read pulses, voltage pulses appear in the output winding of the saturation throttles, which, through the 10 HI diode and capacitor 9, open the dynistor 7.

The capacitor 6 is charged in the negative half-period through the open dynistor 7. A negative voltage of the charged capacitor 6 is applied to the anode of the diode 4, which is followed by the thyristor switch 1.

As the heater 2 cools down, voltage pulses disappear in the output winding of saturation throttles 8, the HI cycle of operation of the temperature regulator repeats.

Claims (2)

1. For Japan No. 43-19341, published. 08.08.71. 2. US patent number 3369108, cl. 219-501, 1968. one