SU886330A1 - Device for regulating power of induction heater - Google Patents

Description

(54) DEVICE FOR POWER CONTROL

Induction Plate

one

The invention relates to electrothermal and can be used in circuits for adjusting the power of induction plates.

An induction plate is known, the inverter of which is connected via a filter and a thyristor to a rectifier connected to the mains via an electromagnetic switch with an electromagnetic release.

During the initial connection to the network, the thyristor is transferred to the open state by a special circuit, and the beginning of the opening of the thyristor is associated with the moment of the zero voltage crossing -ceTH. When the load is compressed, the current of the inverter, and so, consumed from the network, grows to the values of pre-. Outputs are valid, and the switch disconnects the cooker from the network. The presence of a capacitor in the filter leads to the fact that the current of the network of the first half period is large and it is difficult to select a component related to the absence of load, so the conditions for the operation of the circuit breaker are difficult. In addition, such a switch is inertial, therefore, for reliable operation, the elements of the inverter must be selected with a large margin ..

Closest to the technically proposed device for controlling the power of an induction plate, equipped with an adjustable rectifier on thyristors, containing a full-wave rectifier connected by an output to a charging capacitor, in parallel with which is connected a chain of sequentially connected dynistor or single-transition transistor and primary the control transformer windings, the ends of the secondary winding of which are connected to the control electrodes of the thyristors, and the feedback winding Zi, equipped with an additional rectifier 2.

Smooth voltage rise of rectifier 20 W (the body occurs within several {half periods of network voltage due to a change in the thyristors switching on phase by rotating the knob of the potentiometer associated with the switch

25 network. The design of such a potentiometer with a powerful switch is complex and not reliable enough.

The purpose of the invention is to increase the reliability and automation of the launch.

30 plates.

To achieve this goal, the connection of a charge capacitor with a full-wave rectifier is made through the power electrodes of the first transistor, the control electrode of which is connected to the common point of the integrating NS circuit connected to the output of the full-wave rectifier, and the parallel charge capacitor is connected to the power electrodes the second transistor, the control electrode of which is connected to the output of the full-wave rectifier through an additional capacitor.

In addition, in order to increase the reliability of the plate during overloads, the power electrodes of the third transistor are connected parallel to the charging capacitor, the control electrodr of which is connected to the output of the additional rectifier.

The drawing shows a diagram of the device.

The induction plate contains an inductor 1 connected to an inverter 2, which through a filter 3 is connected to a controlled rectifier 4 containing thyristors 5 and b. The zener diode 10 is connected to the full-wave rectifier on diodes 7 and 8 through a resistor 9, and a charging capacitor 13 through an adjustable resistor 11 and transistor 12. A dynistor 14 or a single junction transistor and the primary winding of a control transformer 15 are connected in parallel to a capacitor 13. A secondary winding is connected with control electrodes of thyristors 5 and B.-.

The control electrodes of transistors 12 and 16 are connected to the output of diodes 7 and 8, the electrodes of transistor 16 being connected through an additional capacitor 17, and the electrodes of transistor 12 are connected to a common point of the RC chain 18 and 19,

The feedback winding 20 via an additional rectifier 21 is connected to the control electrode of the transistor 22 connected in parallel with the capacitor 13,

The device works as follows.

When the rectifier 4 is connected to the network, the thyristors 5 and b are closed and the voltage on the inverter is zero.

The voltage at the output of the full-wave rectifier on diodes 7 and 8 is cut off by the Zener diode 10 and looks like a trapezoid. This voltage through the transistor 12 is supplied to the capacitor 13, At the initial moment the transistor 12 is closed and the voltage on the capacitor 13 is low. Since the control electrode of the transistor 12 is connected to the EC chain 18-19, the voltage across it smoothly increases and the transistor 12 smoothly closes.

The voltage on the capacitor 13 grows, and at the end of each half-cycle through the capacitor 17, the transistor 16 opens and shuntly discharges the capacitor 13. This ensures a smooth increase in the voltage on the capacitor 13 for several periods,.

When charging the capacitor 13 to a voltage breakdown, DINISTOR 14 breaks through and the capacitor 13 discharges to the primary winding of the transformer 15. From the secondary winding of the transformer 15, the pulses go to thyristors 5 and 6, as the turn-on phase of the thyristors 5 and 6 changes. The voltage at the input of the inverter 2 increases and the power at the output of the inverter also increases.

Consequently, an automatic start occurs with a smooth increase in the voltage and power of the plate. The internal resistance of the transistor 22 is determined by the voltage supplied from the feedback winding 20, which stabilizes the voltage level on the inductor, regardless of the size and type of dishes.

In case of overload, transistor 22 bridges capacitor 13 and, thus, reduces voltage at output of rectifier 4 and inverter 2,

Using a variable resistor 11, it is possible to regulate the power of the plates by changing the switching phase of the thyriors 5 and 6,

The use of a transistor included in the circuit of the charge capacitor and the transistor shunting this capacitor allows a smooth automatic voltage rise of the inverter for several periods of the mains voltage, which increases the reliability of the plate starting.

The presence of a transistor connected to the feedback winding increases the voltage stabilization conditions on the plate inductor.

Claims (2)

Invention Formula 1, Device for controlling the power of an induction plate, equipped with an adjustable rectifier on thyristors, containing a full-wave rectifier connected to an output with a charging capacitor, in parallel with which a chain of series-connected dynistor or single junction transistor and the primary winding of the control transformer are connected, the ends of the secondary winding which are connected to the control electrodes of the thyristors, and the feedback winding, equipped with an additional rectifier, o, in order to increase the reliability of plate launching, the connection of the charge capacitor is made through the power electrodes of the first transistor, the control electrode of which is connected to the common point of the integrating KS circuit connected to the output of the full-wave rectifier, and parallel to the charge capacitor the power electrodes are connected the second transistor, the control electrode of which is connected to the output of the full-wave rectifier through an additional capacitor. 2. The device according to claim 1, characterized in that, with the aim of 5 increasing the reliability of the plate during overloads, parallel to the charging capacitor are connected the power electrodes of the third transistor, the control electrode of which is connected to the output of the additional rectifier. Sources of information taken into account in the examination 1. US Patent No. 3887781, cl. 219/1049, 1974. 2. Patent of the USA 3806688, cl. 219/1049, 1974. About