SE452842B - CONTROL DEVICE FOR A HIGH POWER PLASMA BURNER, Separate for a furnace - Google Patents

Description

152 25 30 35 452 842 tor is arranged that the stable device for the electrode distance of the plasma torch is after a position regulator connected to an actual value sensor for the electrode distance. whose setpoint input by means of a switch can optionally be connected to the output of the power regulator, to a setpoint sensor for the electrode distance or to a setpoint sensor for the arc voltage. and that the setpoint input of the current regulator via an additional switch can optionally be supplied from the power regulator or from the setpoint sensor for the arc current.

Since a power regulator belongs to the plasma torch, the torch power can be carefully given depending on a power setpoint. wherein it is possible to keep either the arc current or the arc voltage constant to regulate the effect over the arc length. thus the electrode distance, respectively over the arc current. In one case, the setpoint input of the current regulator is connected via the arranged switch to a setpoint sensor for the arc current and the setpoint input of the position controller to the output of the power regulator. while in the second case the power regulator output is connected to the current regulator and the position regulator to a setpoint sensor for the arc voltage. Thereby, it is possible, in accordance with the requirements of the melting process, to ensure a certain furnace power either with a larger or smaller arc length. At a given furnace power, a smaller arc length requires a higher current and a smaller current a larger arc length. Since the arc length affects the power factor, the control device according to the invention also allows an operation of the oven with an optimal power factor. while a maximum permissible electrode distance is given across the setpoint sensor for the arc voltage.

To prevent the arc current from igniting an upper limit value when lighting the plasma torch. In a further embodiment of the invention, it may be arranged so that the current regulator is controllable via a comparator connection connected on the one hand to the actual value sensor for the arc current and on the other hand to a setpoint sensor for an ignition voltage.

The ignition voltage is given by the setpoint sensor. wherein the setpoint 10 15 20 25 30 35 452 842 is compared with the arc voltage in the comparison circuit and the determined voltage difference is applied to the current regulator. which in dependence on this control signal limits the ignition current.

After ignition, this control of the current regulator goes out of operation.

In the drawing, the object of the invention is schematically represented in an exemplary embodiment, more particularly a control device according to the invention is shown for a plasma torch for high power in a block diagram.

The plasma torch shown for a melting furnace has an electrode 2 which is movable by means of an actuator 1 and which counter-electrode cooperates with the furnace vessel 3 and the furnace insert, respectively.

The energy supply of this plasma torch takes place via a transformer 4 and a thyristor-controlled converter 5, which can be controlled from a current regulator 6. The setpoint input of the current regulator 6 can then be connected via a switch 7 to a setpoint sensor 8 for the arc current or to the output of a power regulator 9. to which is assigned a setpoint sensor 10 for a setpoint effect. The actual value input of the current regulator 6 then lies with a current converter 11.

For controlling the control device 11, a position controller 12 is provided, the setpoint input of which via a second switch 13 can optionally be connected to the output of the power controller 9. a setpoint sensor 14 for the electrode distance or a setpoint sensor 15 for the arc voltage. The actual value of the electrode distance is applied to the position controller via a suitable actual value sensor 16. Then due to this connection either the arc current across the current regulator 6 can be regulated at constant arc voltage or the electrode distance across the position controller can be regulated at constant arc current depending on a predetermined böff. the power regulator 9 must be supplied with the actual values of the arc current and the arc voltage. The current converter 11 serves as the actual value sensor for the arc current, while an actual value sensor 17 is arranged for the arc voltage which determines the prevailing voltage between the electrodes. 10 15 20 25 30 35 452 842 É For ignition of the burner, a setpoint sensor 18 is also used for the ignition voltage. which abuts to one input of a comparator coupling 19. the other input of which is supplied from the actual sensor 17 for the arc voltage. By means of the output signal of this comparison connection, the current regulator 6 is controlled with respect to a limitation of the ignition current so that the ignition current remains below a predetermined value. This current limitation across the comparator coupling 19 becomes inoperative after the ignition of the plasma torch.

If the main arc lights up between the electrode 2 worn towards the oven insert and the oven insert, the electrode distance is immediately destroyed. until the predetermined setpoint set at the setpoint sensor 10 is reached. In accordance with the position of the switches 7 and 13, the current regulator 6 is then prescribed over the setpoint sensor 8 for a specific current setpoint. so that the position controller 12 above the power controller 9 is supplied with a setpoint. which corresponds to the arc voltage. which is necessary to achieve the selected setpoint power at the prescribed current setpoint. Since at a prescribed power the arc current decreases with the arc length and the arc voltage increases with the arc length, a desired arc length can be ensured above the prescribed current setpoint. If the arc current changes, this is indicated via the current converter 11 for the current regulator 6. which regulates the deviation depending on the difference between setpoint and actual value. However, the arc length changes. for example due to a change in the level of the bath in the oven vessel 3. this is communicated via the actual value sensor of the arc voltage to the power regulator. which, depending on the set setpoint power, provides the position controller 12 with a corresponding new setpoint. which results in a readjustment of the electrode 2 over the actuator 1.

Should the plasma torch be operated with an optimal power factor. then the current regulator 6 via the switch 7 is connected to the power regulator 9. while the position regulator 12 via the switch 13 is connected to the setpoint sensor 15 for the arc voltage. By means of the setpoint sensor 15 15, the maximum permissible arc voltage across the electrode distance can thus be prescribed. to ensure a favorable power factor. With the electrode distance, the power factor improves. Such a constant keeping of the electrode distance obviously means a control of the arc current in dependence on the prescribed carrying effect. This control takes place over the power regulator 9. which prescribes the current current setpoint as the conductivity of the current regulator 6.

In order to maintain a certain power factor, the setpoint sensor 15 for the light cup voltage can be provided with a coscie regulator. f over which the position controller 12 is supplied with a corresponding setpoint, so that a certain arc voltage is maintained.

In order to prescribe a voltage setpoint. which ensures the greatest possible length of arc, to prevent the undercurrent of a minimum arc current, a connection not shown in more detail is provided. which lowers the voltage setpoint as the arc current drops below this limit value. which results in a reduction of the electrode distance and an increase in the arc current.

Connect the current regulator 6 over the switch 7 to the setpoint sensor B for the arc current and the position controller 12 over the switch 13 to the setpoint sensor 14 for the electrode distance. then a control by hand independent of the power regulator 9 is possible with the aid of the current setpoint regulation. In this operating case, the arc current and the electrode distance can be affected independently of each other.

The control device according to the invention of plasma burners is not limited to use for plasma burners on melting furnaces, but can be used wherever larger burner effects are required. which is the case, for example, with plasma cutting devices or plasma welding devices.

Claims (2)

10 15 20 25 452 842 PBIGIIIKEGV 1. Control device for a high power plasma torch. especially for a melting furnace. consisting of a controllable converter for the arc current. a converter controlling current regulator with a setpoint sensor and an actual value sensor for the arc current and of an actuator for the electrode spacing of the plasma torch, 17. 17) the power regulator (9) connected to the arc current and the arc voltage is arranged: that the actuator (1) for the electrode distance of the plasma torch is after a position regulator (12) connected to an actual value sensor (16) for the electrode distance. whose setpoint input can optionally be connected to the output of the power regulator (9) by means of a switch (13). with a setpoint sensor (14) for the electrode distance or with a setpoint sensor (15) for the arc voltage. and that the setpoint input of the current regulator (6) via an additional switch (7) can optionally be supplied from the power regulator (9) or from the setpoint sensor (8) for the arc current. Control device according to Claim 1, characterized in that the current regulator (6) is controllable via a comparator connection connected on the one hand to the actual value sensor (17) for the arc current and on the other hand to a setpoint sensor (18) for an ignition voltage.