CS257232B1 - Connection for temperature regulation directly heated resistence heatings - Google Patents

Abstract

The solution concerns the connection to regulation temperature of direct heating heating, comprising a control system formed heating transformer, transfer contact equipment, heated material, a regulator actuator and real sensors values of the controlled variable. The essence of the solution is that the temperature outputs sensor and current sensor current sensor or voltage sensor are connected to inputs, commutation circuit together with the set value of the controlled variable obtained from a power-supplied potentiometer reference voltage, with commutation outputs the circuit are connected to the adder the control amplifier point (9) in parallel switchable feedback and the commutation circuit is controlled by a switch control mode selection.

Description

The invention relates to a circuit for controlling the temperature of direct-heating resistive heaters, comprising a control system consisting of a heating transformer, a transfer contact device, the material to be heated, a controller actuator and the actual value sensors of the controlled variable. The essence of the solution is that the outputs of the temperature sensor and the current sensor of the RMS current or voltage sensor are connected to the inputs of the commutation circuit together with the reference of the controlled variable obtained from the potentiometer supplied from the reference voltage source. (9) a control amplifier with a switchable feedback member in parallel and a commutation circuit being controlled by a control mode selection switch.

The invention solves the connection for temperature regulation of direct-heating resistive heaters with switching of regulation mode and regulator transmission according to the technological choice of the actual value of the controlled variable.

The hitherto used circuits for regulating the temperature of direct heating resistive heaters do not use the switching of the regulation mode and the transfer of the regulator according to the technological conditions of rolling or forging of the heated material. Each of the control methods below has in itself advantages and disadvantages that are manifested either in temperature fluctuations during the processing process or in the possibility of burning them.

The above-mentioned drawbacks eliminate the wiring for controlling the temperature of direct-heating resistive heaters comprising a control system consisting of a heating transformer, a transfer contact device, heated material, a controller actuator and actual value sensors according to the invention. the RMS values of the current or memory sensor are connected to the inputs of the commutation circuit together with the reference voltage source supplied via the potenoiometer, the commutation circuit outputs being connected to the control amplifier addition point with the switchable feedback member connected in parallel and the commutation circuit controlled by the control mode selection switch.

The possibility of selecting the control mode together with the possibility of selecting the optimum transfer of the regulator relative to the selected sensor of the actual value of the controlled quantity significantly improves the technological process of heating material processed by continuous rolling or hot drawing or forging with intermittent linking. Said control method according to the invention guarantees a temperature tolerance not exceeding ± 8 ° C.

The attached drawing shows an example of a circuit diagram according to the invention.

The input terminal of the actuator 2 is connected to the power terminal 21 via the RMS current sensor 5 ^and its output is connected to the primary winding of the heating transformer 2. The secondary winding of the heating transformer 2 is connected to the contact transmission device 2 ^and voltage sensor 6. material to be heated 22nd radiant energy from the heated material 22 is transmitted to the temperature sensor 2 ³ that the output of the temperature sensor 2 s ^e connected to the third input 17 of the commutation circuit 10 and the sensor output 5 RMS current or voltage sensor 6 is connected to the first The commutation circuit 10 is connected to the second input 15 of the commutation circuit 10 and the reference value from the potentiometer 12 is connected to a reference voltage source 20.

The first, second and third outlets 22 »A®. ^and A5. the switching circuit 10 is coupled to the addition point 2 of the control amplifier T, with a parallel switchable feedback member 8 being connected between the input and output of the control amplifier 7, which is simultaneously connected to the fourth output 19 of the switching circuit 10; A control mode switch 11 is connected to the commutation circuit 10 to control the outputs 22 ' i ' Ai ^{and the} 19th commutation circuit 10:

After the control system is connected to the supply terminal 21 with the heated material 22 in the transfer contact device 2 ^{and by the} switch 11, the constant temperature control mode is selected. At the appropriate time, a reference voltage source 20 is connected to the potentiometer 12. Simultaneously with the selection of the temperature control mode, in the commutation circuit 10 its second V3tup 15 is connected to the second output 16 and the third input 17 to the third output 22 '

The constant temperature control mode a 'is selected for the first phase of approaching the technological speed of the material to be heated 22 and during the adjustment, e.g. After the technological conditions have stabilized, the control mode is switched over by the switch 11 to constant control. At that time, in the commutation circuit 10, the connection of the third input 17 and the third output 18 and the connection of the second input 15 to the second output 16 are disconnected. The setpoint value of the controlled value from the potenoi meter 12 is reconnected to the second output 16 only after the first input 13 is connected to the first output 14, i.e., the P ° connection of the RMS current sensor or voltage sensor 6. At the same time The PX transmission controller selects PX transmission in the feedback circuit 2.

Transfer current sensor or voltage sensor 3 2 3 ^e is selected such that after switching from regulation to a constant y / to regulate constant power P not to alter the desired temperature regime of the heated material 22nd

Claims (2)

SUBJECT OF THE INVENTION Wiring for controlling the temperature of direct-heating resistive heaters, comprising a control system consisting of a heating transformer, a transfer contact device, the material to be heated, a controller actuator and actual value sensors of a controlled value, characterized in that the outputs of the temperature sensor (4) and the current sensor (5) the RMS values of the current or voltage sensor (6) are connected to the inputs (13, 15, 17) of the commutation circuit (10) together with a reference voltage source (20) connected via a potentiometer (12), the outputs (14, 16, 18) the commutation circuit (10) is connected to the addition point (9) of the control amplifier (7) with the switchable feedback element (8) connected in parallel and the commutation circuit (10) is connected to the control mode selection switch (11). Wiring according to claim 1, characterized in that the temperature sensor (4) is a radiant pyrometer with an amplifier.