DE1124169B - Switching arrangement for the remote control of arc welding power sources - Google Patents

Description

Switching arrangement for remote control of arc welding power sources The invention relates to a switching arrangement for the remote control of arc welding power sources during welding and during welding breaks by operating switches on the electrode holder and via control lines.

With the well-known remote controls that also work during welding can be set in motion by actuating switches on the handle, is the Adjustment speed always the same. That means that the during of welding for fine control also required low adjustment speed then cannot be exceeded if this is desired, namely if the Welders during a welding break move from one electrode diameter to the other must change and therefore the fastest possible adjustment of the welding power source strives. On the other hand, it is also not possible to keep the adjustment speed constant to make it so high that it is sufficient during the coarse setting in idle, because then no fine control would be possible during welding because the welding power source with each control current surge would be further controlled by such a value as a fine correction would be way too big.

On the other hand, remote controls are already known which only work during the welding break and without the use of control lines and during which the adjusting motor is fed with the voltage prevailing in the welding circuit. There are two resistors of different sizes that are attached to the electrode holder are touched, and via a relay control the adjustments in the direction of a larger and in the direction of a smaller welding current. These Adjustment speed is of course for the rough setting during the welding break sufficiently large, but these known circuits, as mentioned, do not allow remote control during welding too.

The invention aims to overcome the disadvantages of the known remote controls to eliminate.

The invention consists in the fact that a higher adjustment speed is idle than is given during welding that in a known manner the Verstellrnotor is connected to the voltage in the welding circuit, and that a voltage relay bridges a resistance in the motor circuit during the welding time. Preferably the resistor is designed as an adjustable resistor.

The switching arrangement according to the invention has the advantage that it applies to all Existing sources of welding drift and electrode holders can be retrofitted can.

The invention is illustrated below with reference to the drawing using an exemplary embodiment explained in more detail.

The electrode holder Z and the workpiece W are in A and B at the secondary welding voltage. Two switching contacts T 1 and T2 for upward and downward control are provided on the electrode holder Z, which are connected to the adjusting motor M via the lines 1 and 2 and the limit switches ES 11 and ES 21. The circuit continues via a resistor R W, which can be short-circuited via the contacts 03 and 04 of the voltage relay SR, which is connected to the welding voltage. The resistor RW is adjustable so that the standing speed of the remote control motor M can be changed. When welding with alternating current, a rectifier GL is used behind the resistor RW instead of the line bridge 4. The circuit closes via a polarity reversal switch U.

The remote control motor M drives, for example via the V-belt pulleys m and r, the setting element HR of the welding power source.

Since the adjusting motor M is directly connected to the welding voltage. is his Adjustment speed is small if it is used during welding with the usual welding voltages is operated from 18 to 25 volts. During idling, where the voltage is in the welding circuit up to 70 volts - if necessary even more - can be, the voltage at the motor is correspondingly reduced by the resistor R W, however the effective voltage is then still higher than 25 volts, so that the motor runs faster adjusted than during welding. The adjustment speed can be controlled by the variable resistance R W can be set.

Control cables 1 and 2 can either be incorporated into the welding cable be or run separately. There is also the option of a third Cable to send an optical or acoustic message to the electrode holder Z. Therefor the control lamp KL is shown in the drawing, which over the line 3 is connected to two contacts K 334 and K331. These contacts are along the Scale can be moved, and it is when the setting pointer SKZ one of these contacts touches, the line 3 is connected to the terminal z of the adjusting motor and the feedback circuit closed. This makes it possible for the welder to overrun the set Display minimum or maximum values.

Claims (2)

PATENT CLAIMS: 1. Switching arrangement for the remote control of arc welding power sources during welding and during welding breaks by operating switches on the electrode holder and via control lines, characterized in that a higher adjustment speed when idling than is given during welding that in a known manner the Adjusting motor (M) is connected to the voltage (A-B) in the welding circuit, and that a Voltage relay creates a resistor (R W) in the motor circuit during the welding time bridged. 2. Switching arrangement according to claim 1, characterized in that the Resistance (R W) is adjustable. Considered publications: German Patent Nos. 826 326, 909 615, 647 718; 1062 850; U.S. Patents No. 2,642,515, 2,526,597.