SU725277A1 - Method and device for control of thermal mode of induction holding equipment - Google Patents

Description

products inside the inductor connected to the third input of the regulating unit.

The drawing shows a block diagram of a variant of the two-zone furnace furnace.

Inductor 1 is read from source 2, which smoothly adjusts the power supply to inductor 1.

The temperature of product 3 is monitored by sensors 4 and 5, and speed by sensor 6, the signals from which are sent to the control unit 7.

When operating in a steady-state mode at a constant speed, the signals from sensor 6 and sensor 5 act on the regulating units 7, which select the deviation signals of the actual temperature at the exit from each zone to a predetermined setting as my function of the product's moving speed.

In a transient mode of changing the speed of the metal in the furnace, the signals of the sensor 6 and the sensors 4 act on the functional control units 7 that control the power sources 2 of the inductor 1 in such a way that a time program for changing the heat power of the heater ensures high accuracy of maintaining the desired metal temperature at the outlet of treat. A time program for varying the furnace power is implemented, which ensures a high stability of the metal temperature at the exit of each heater zone in transient conditions, however, inside these zones, the temperature of the blanks undergoes a change over time.

Hence, it is possible to implement a temporary program for changing the heat power of the furnace, which ensures high temperature stability of the metal at the heater output, possibly using the functional control units to calculate the calculated thermal power versus the temperature of the metal inside each furnace zone.

The proposed system improves the accuracy of maintaining a predetermined metal temperature at the exit of the heater in transient modes of varying the rate of advancement of the metal in the furnace, since the power of the heater power sources varies according to a calculation program obtained from the condition that the temperature of the metal at the exit of the heater is equal to a given value at any moment of time. Improving the accuracy of maintaining the set temperature of the metal at the exit from the heater In the transitional regimes, it will be possible to eliminate scrap from overheating of the metal with a sharp decrease in the speed of movement of the heated billets, to save electricity and time spent on heating the metal going to scrap or return.

Claims (2)

1. A method for controlling the thermal regime of a methodical induction installation, in which the product temperature at the inductor outlet and the speed at which the product moves relative to the inductor is measured in a steady state, and the product temperature at the outlet is controlled according to the measured parameters, in order to improve the accuracy control, additionally measure the temperature of the product inside the inductor during the transitional regime of change of speed and regulate the temperature of the product at the outlet according to the specified parameter until reaching the steady state. 2. A device for implementing the method according to claim 1, comprising an inductor connected to the output of a regulated power source, the input of which is connected to the output A regulating unit, the first input of which is associated with a sensor for moving the product, and the second with a temperature sensor of the product at the inductor outlet, characterized in that it is equipped with a temperature sensor inside the inductor connected to the third input of the regulating unit. Sources of information taken into account in the examination 1. US Patent No. 3845268, .cl. 219-10.77, 1974. 2. V.I. Astsaturov et al. On the issue of automation of continuous induction heating of alloyed steels. - Sat. Electrotherms "Informelectro, vol. 96 1970, p. 17