CS205805B1 - Connection for the protection of the phase controlled electroheat devices - Google Patents

Description

The invention relates to a wiring for the protection of phase-controlled electrothermal devices in non-continuous direct control in the event of a power failure in the network and its op- erating supply.

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As a result of the thermal inertia of the electrothermal device, when it is switched on, the desired temperature is exceeded, which over time decreases to the desired level. This breakthrough is undesirable at least in the long-term heat treatment of the material, especially in the vicinity of the melting temperature, where regulation without continuous supervision is performed automatically, e.g.

AO č. 183 186. Known fuses for discontinuous direct control by means of a mains voltage relay actuated by a button whose closing contact closes the control circuit and, in the event of a mains voltage failure, the relay de-energizes and interrupts rigdisei by disconnecting the switching contact. the switch button, coil and relay contacts must be dissipated to low voltage, width and volume increase »Relay contacts and do not network, aggravate overhaul, maintenance, noise, electricity consumption and magnetic interference. The solution itself is complex, costly, and failing. The connection of the thyristor to the amplifier power supply circuit in continuous indirect control eliminates the disadvantages of relay protection, but is only suitable for indirect control with the amplifier.

The described disadvantages of direct discontinuous regulation of phase-controlled electrothermal devices eliminate the wiring to protect the electrothermal devices of the invention.

205 805

205 SOS

SUMMARY OF THE INVENTION One ignition pole of a contactless thyristor switch is connected by a switch directly or via a thyristor to an auxiliary resistor supply, the terminal of which is connected to the terminals of the control potentiometers.

The advantage of the proposed protection according to the invention is to prevent the temperature transfer in the event of interruption and restoration of the mains voltage, especially in the absence of the operator.

The overall schematic of the auxiliary resistor protection in the ignition circuit of the contactless thyristor switch with a direct disconnected ZEPARIS controller is shown in the attached drawing.

The wiring consists of the mains lead A connected to the input of the ignition unit; an ignition circuit B connected to the mains input and output to the auxiliary resistance switches, control potentiometer and temperature controller; switch C connected to the output of the ignition unit and to the thyristor and the auxiliary resistor; a thyristor D connected to the switches, a button and an auxiliary resistor, a switch button E connected to the thyristor; auxiliary resistor F connected to the ignition unit, switches and thyristor; control potentiometers G1. G2. OJ, fixed to the auxiliary resistor and the temperature controller; a temperature controller H connected to the ignition unit, an auxiliary resistor and a control potentiometer.

The circuit according to the invention is used in that the contacts 4 and 2 of the switch C are connected in a dependent position. One of the ignition circuit output B's half 2 is directly connected to the auxiliary resistor F. D. The thyristor D is blocked and a current pulse is applied to the control circuit of the thyristor D formed by the control electrode and the cathode when the button B is pressed. The thyristor D is energized by pulse, and the second half of the output is applied to the auxiliary resistor F. In this way, the auxiliary resistor F is closed with the ignition circuit B output fields 1 and 2. As a result, a voltage is applied to the auxiliary resistor F inlets and outlets 2 and 8, which is connected to individual control potentiometers G1. G2. G3 and the ignition circuit terminal B with contacts j (, 10, 11 and 12. This ensures automatic control. In the event of a mains voltage failure, there is zero voltage at the ignition circuit output B terminals 1 and 2, resulting in a thyristor D being blocked. adjustments can only be restored by pressing the fi key.

In the independent position of the AU linked contacts 4 and 6 of the switch C. The other pole of the output of the lighting circuit 1 B is switched through the switch contacts and £ 6 directly connected to the inlet 2 of the auxiliary resistance F, to form the inlet and outlet 2 ^and θ of the auxiliary voltage of the resistance F, 3other activity is as described above. At the same time, only one of the control potentiometers G1 to G3 can be operated and, for three-position eu control, the individual sliders can be connected so that the slider of one control potentiometer G1 is connected to the other NC contact 11. 11 of the temperature controller and the runner of the third control potentiometer GJ is connected to the fourth switch contact 2 of the temperature controller.

The circuit according to the invention can be used advantageously for contact-less power and non-interfering magnetic influences for the dependent switching of all devices controlled by direct discontinuous phase-controlled controllers.

Claims (1)

Wiring for protection of phase-controlled electrothermal devices in direct connection of the control, where the mains voltage is connected to the ignition unit input, pushbutton contacts are connected to thyristor grid, control potentiometer leads are connected to ignition circuit output and leads and runners to contacts a temperature regulator which is also connected to the auxiliary resistor and the ignition circuit output, characterized in that one half (1) of the ignition circuit output (B) of the contactless thyristor switch is connected by a switch (C) directly or via a thyristor (D) ) of an auxiliary resistor (F), the terminal (8) of which is connected to the terminals of the control potentiometers.