SU1096762A1 - Device for powering resistive electric furnace - Google Patents

Abstract

A RESISTANT ELECTRIC POWER SUPPLY DEVICE, containing an alternating voltage source with two power levels, to which the furnace heater is connected via a thyristor switch, the control input of which through a generator, direct carbon pulses G2 is connected to a temperature controller equipped with a measuring unit with a temperature sensor , characterized in that, in order to increase the accuracy of temperature maintenance during power supply voltage fluctuations, the device is provided with a shunt key capacitor, the output of which is connected to the output of the amplitude voltage source rectifier, to the output of the counter-switched stabilized dc source and to the first input of the comparator connected to the second input via the voltage source of the comparison threshold with the second output of the capacitor and the output to An R input (L RS flip-flop, the S-input of which is connected to the output of a square pulse generator made with two pulse frequencies, and the flip-flop outputs are connected to the thyristor control inputs ereklyuchatel and key. Vmitptt.

Description

The invention relates to the heat treatment of parts and tools, for example, in salt baths. The electric furnace is known, consisting of a heater, a temperature sensor, a measuring and regulating device that switches the heater on or off when the furnace passes through the control point C1 3. Due to the thermal inertia of the sensor and the furnace, the accuracy of maintaining a given temperature in a known furnace is insufficient, since the heating is carried out in the on-off mode. To a lesser extent, this disadvantage is inherent in another known furnace, consisting of a heater, a source of electrical energy with two stages A temperature sensor, a measuring and regulating device that switches the power steps when the furnace temperature passes through the control point. The device closest to the proposed technical essence is a device for supplying a resistive electric furnace containing an alternating current source with two power levels. the furnace heater is connected via a thyristor switch, the control input of which is connected to the temperature regulator through a square pulse generator with a In order to ensure the minimum mismatch between the set temperature and the actual temperature, when the heaters are turned on, the power supply unit with the temperature sensor has a slightly lower energy than the heat loss of the furnace (for example, 90% of the heat loss), and when the heaters are turned on, The upper power stage absorbed energy that was slightly higher than the heat loss (for example, 110%). In a known furnace with two power levels, this requirement can be fulfilled only in the case of a constant mains voltage, for example, when the furnace is powered from a weakly loaded line. Under real conditions of the workshop, when the mains voltage fluctuates within 10–15% of the nominal, the known furnace cannot perform the switching of power levels with the required accuracy. If, at the upper power level, the heater emits at nominal voltage U an energy equal to 110% of the heat loss of the furnace, then as the mains voltage decreases by 15% (to 0.85 U), the heater will consume only 110% 0.852 79% on the magnitude of heat loss, i.e. the oven will not be able to maintain the set temperature. The impossibility of precisely maintaining the power steps in a known furnace leads to a lack of accuracy in maintaining the temperature of the furnace. The purpose of the invention is to improve the accuracy of temperature maintenance with fluctuations in the voltage of the power source. To achieve this goal, a device for supplying a resistive electric furnace, comprising a variable voltage source with two power levels, to which the furnace heater is connected via a thyristor pedic switch, the control input of which through a square pulse generator is connected to a temperature controller equipped with a measuring unit a temperature sensor, additionally equipped with a shunted capacitor key, one output of which is connected to the output of the amplitude rectifier of the power supply voltage , with the output of a counter-connected stabilized source of constant voltage and with the first input of the comparator unit, connected by the second input through the voltage source of the comparison threshold with the second capacitor terminal, and the output with the R input of the RS flip-flop, the S input of which is connected to the output of the generator of rectangular pulses, implemented with two frequencies of pulses, and the trigger outputs are connected to the control of the inputs of the thyristor switch and the key. The drawing shows a block diagram of the device. The device contains a capacitor 1, resistors 2 and 3, an amplitude rectifier 4 of the power supply voltage on the heater (ILrtro) and a stabilized frequency converter 1 constant voltage source 5, comparison unit 6, switch 7, RS - trigger 8, source of 9 rectangular pulses, temperature controller 10, thyristor switch 11, heater 12, temperature sensor 13, threshold element 14 (C, 01p) The device operates as follows. I The temperature sensor 13 acts on the regulator 10, which sends a signal to the generator input 9 or not, depending on whether the temperature in the furnace exceeds the set level or not. The pulse generator 9 is designed so that the frequency of the pulses it receives depends on the presence or absence of a signal at its input. produces two pulse frequencies. The impulse, received from the generator 9 to the S input of the trigger 8, establishes it in a single state. In this state, the output signals of the trigger start up the thyristor switch 11 (heater 12 is turned on) and once D Icake the key 7 of the shunt capacitor 1. The capacitor starts charging with the currents L Ho. 2 2R-current coming from the amplitude top of the receiver 4-current coming from the stabilized source 5; -resistance of resistor 2; - resistance of the resistor - voltage source amplitude; - nominal value. power source voltage; uU (t) is the deviation of the magnitude of the amplitude at the time from the nominal value; the threshold value satisfies the condition and then o: - + I-, if and then obeyed. HiHi - But Uft + KJjMlCt) (CR + UOP. U (t 2RUo 2RUo 2RU) It can be seen from this that the capacitor integrates the total current proportional to U, i.e., proportional to the heating power. The voltage on the capacitor is proportional to the energy supplied start of integration. When the voltage on the capacitor reaches the value, the comparison circuit 6 will give a signal to the input of the trigger 8 and the last will go to the O position. As a result, the switch 11 will turn off the heater of the furnace, the key 7 will bypass the capacitor and prepared for the start of a new integration, the same energy porous appears in each cycle of switching on the heater, therefore, the time average power is proportional to the pulse frequency produced by the generator 9. The proposed device provides a change in the frequency of switching on when the furnace temperature passes through the control point. when the furnace temperature exceeds a predetermined level, the regulator 10 supplies a constant signal to the input of the generator 9, which leads to a decrease in the following frequency pulses and to a corresponding decrease in the average heating power to a value less than the heat loss of the furnace. When the temperature of the furnace becomes lower than the set point, the signal from the regulator 10 to the input of the generator 9 ceases to flow, the frequency of the pulses increases, and the heating power becomes greater than the heat loss of the furnace. Thus, with the help of the proposed device, the accuracy of temperature maintenance is improved, as in tests on salt anne, temperature fluctuations are reduced from +5 to a predetermined level. The advantages of the proposed device are that the accuracy of temperature maintenance increases, the quality of heat-treated parts or tools increases (thus, the best mechanical properties of alloy D16 are obtained during quenching from a temperature of 495-500 ° С, but when quenched from 505 ° С, unacceptable occurs burned metal). The proposed furnace allows heating in the specified interval, and the basic version of the furnace does not allow. When quenching () tool S10967626

of steel P6M5, the increase in the accuracy of the high-speed tool, heating leads to an increase in wear, due to the increase in its tool durability, reduced splitting.

Claims (1)

DEVICE FOR POWER SUPPLY OF RESISTIVE ELECTRIC FURNACE, containing an alternating voltage source with two power levels, to which the furnace heater is connected via a thyristor switch, the control input of which through a generator of right-angle pulses is connected to a temperature controller, equipped with a measuring unit with a temperature sensor, characterized in that, in order to improve the accuracy of maintaining the temperature during voltage fluctuations of the power supply, the device is equipped with a shunted key capacitor, one output which is connected to the output of the amplitude rectifier of the voltage of the power source, with the output of the on-going stabilized source of constant voltage and with the first input of the comparison unit connected to the second input via the voltage source of the comparison threshold with the second output of the capacitor, and the output to the R-input of the RS flip-flop, S - the input of which is connected to the output of a rectangular pulse generator made with two frequencies of pulse output, and the trigger outputs are connected to the control inputs of the thyristor switch and key cha.