SU773967A1 - Device for regulating the temperature of resistive heating plant - Google Patents

Description

The purpose of the invention is to improve the accuracy of temperature control.

This goal is achieved by the fact that the specified connection of the temperature controller with the adjustable voltage source is made through the control unit connected to one voltage source, and the output unit to the second input of which the total power sensor is connected,

The drawing shows a block diagram of a device for the three-phase implementation of heaters.

The device contains a section 1 of the heater connected to the power input of the source 2 of an adjustable voltage and sections 3 and 4 connected through the power inputs of the controlled commutator elements 5 and 6 with a source of unregulated voltage.

The temperature sensor 7 is connected to the input of the temperature controller 8. The inputs of the maximum 9 and minimum voltage alarm 10 are connected to the control output of the variable voltage source, and their outputs, via the control unit 11, are connected to the control inputs of the switching elements. 5 and b

The output of the temperature controller 8 is connected to one input of the control unit 12, the WELCOD of the full power sensor 13 to another input of the control unit, the output of which is connected to the control input of the source 2 of the regulated voltage.

The power of section 1 is significantly greater than the power of section 3 or 4, for example, by 40-50%. This eliminates the appearance of an auto-oscillation regime.

The device works as follows.

As the setpoint temperature T is increased, the output signal of temperature regulator 8 will also increase, the source 2 of the regulated voltage will increase the power of section 1 to the desired value. The output of the full power sensor 13 will increase and become equal to the output of the temperature controller 8.

The power of the electric heater will be set at the level of the required value. With a further increase in the power to be tried (output signal of temperature regulator 8), the output signal, control unit 12 and power of section 1 reach the maximum value, the signaling device 9 of the maximum value of the regulated voltage will operate, control unit 11, will act on the switching element 5, connect section 3 The total power at this will increase abruptly by the power of section 3. The signal of the full load sensor 13 will exceed the signal of the temperature controller 8, the control unit 12 will reduce the command to the source 2 of the control voltage, will release the power of section 1 by the amount of power of section 3, the full power of the electric heater will become equal to the desired value (the output signals of the sensor 13 and the regulator 8 will become equal to each other). The maximum power alarm 9 is turned off. However, the control unit 12 will keep section 3 on.

With further increase in power, the power in section 1 will again reach the maximum value, the annunciator 9 will work again, the control unit 11, affecting the switching element b, connect section 4. The control unit 12 will again reset the power of section 1 to the corresponding value compliance with the required (controller output 8) and real (output of the output power sensor 13) power

Thus, as the temperature control signal changes from zero to the maximum value, the total power of the sectional heater gradually changes from zero to 1200 kW.

Let, for example, a part of the electric heater section burned out, the power abruptly decreased by a certain amount, the temperature began to decrease, the output signal of power sensor 13 almost instantaneously decreased and became less than the signal of temperature regulator 8, control unit 12 almost instantly increased its output signal, source 2 controlled voltage almost instantaneously increases the power of section 1, the full power of the heater returns to its previous value, the signal from sensor 13 becomes equal to the signal of regulator 8. Comp The power reduction will occur almost instantaneously and the temperature will remain at the desired value.

A similar transition process will occur when the resistance of the sections changes from any causes and voltage fluctuations in the electrical network.

The device also provides a higher quality of temperature control due to the linearity of the system characteristics: the output signal of the temperature controller is the power of the sectioned electric heater, and thus the optimal settings of the temperature controller1 1 are maintained throughout the entire power range.

Thus, the proposed device provides an increase in temperature control accuracy.

The device is made on serial devices, simple and convenient to implement and configure, does not require the adjustment of the power sections, their number may be different.

Claims (1)

SUMMARY OF THE INVENTION A device for controlling the temperature of a resistive heating installation, comprising one section of an electric heater connected to a power output of a variable voltage source and at least one section connected through a power input of a controlled switching element to an unregulated voltage source, a temperature sensor whose output is connected to an input temperature regulator connected by its output to the control input of the regulated voltage source, signaling devices of maximum and m the minimum value of the regulated voltage, the inputs of which are connected to the control output of the regulated voltage source, and their outputs through the control unit with the control input of the switching element, characterized in that, in order to increase the accuracy of temperature control, the indicated temperature controller is connected to the regulated voltage source through connected by one input to the regulator, and by an output to a voltage source, a control unit, to the second input of which a full power sensor is connected .