DE674921C - DC arc welding generator - Google Patents

Description

The invention relates to direct current arc welding generators, in those for setting a specific falling current-voltage characteristic with avoidance of main current windings that are unfavorable in terms of regulation and also economically Shunt windings are used.

The basic circuit and mode of operation of the direct current generator according to the invention will be explained with reference to FIG. The machine has two excitation windings Wg and We ₁ which wrap around the pole shaft, and a further excitation winding W / which only wraps around one pin tooth. One of the two excitation windings, Wg, on the pole shaft is fed in a manner known per se from the current-dependent part of the armature voltage in such a way that the field generated by it increases with increasing. Load current of the machine decreases. In the example of Fig. 1, the supply voltage for the winding W _{g is taken} from the main brush B / _{n and a brush B ge} located under a recess in the main pole piece. The second excitation winding We is fed with a voltage that is as constant as possible, which according to the invention is generated by a device which acts like a special excitation machine system within the generator. This is done in that the exciter winding WJ housed in the recesses drawn in the pole shoes is fed by the auxiliary brushes j3ge and B _e , which are located in the bolshoe recesses. By doing. Section of the armature winding between the brushes B _ge and B _e creates an approximately constant voltage that is largely independent of the armature current, since a flux can develop around the winding We ' which enters the armature, for example, via the central pole tooth and via the two outer pole teeth emerges from the anchor again. This flux, which closes over the pole shoe, is superimposed on the main flux and remains even with short-circuited main brushes i? / _{!] L} and B / _i2 , ie when the field of the current-dependent winding has its lowest value, so that there is always a supply voltage for the winding We is available. This tension between the brushes B _ge and B _e , the static and dynamic of the. the respective operating state of the machine, such as idling or short circuit, is largely independent, is used according to the invention at the same time to feed the excitation winding W _e , which in this way, as if it were being fed by a special excitation machine, delivers an approximately constant excitation.

The external characteristic of such a machine results from the interaction of the three pathogens described

systems have a voltage characteristic that drops between open circuit and short circuit. This characteristic differs, however, from that of externally excited, ge;
compounded welding generators dad
that they are not greedy, as with these!
sloping, but in one for the Lic
arc welding · is curved favorably. The shape of this characteristic can be

ίο adapt to the requirements of the welding company by measuring the saturation in the pole teeth. For operational change of the characteristic curve or the armature current strength, regulators R _e , R _g and /? / Are provided, which are switched into the circuits of the three excitation windings. The regulators can be adjusted independently of one another or, as shown in Fig. Ι for the regulators R _e and R _g , as a function of one another. The windings W _e and W / 'can also be connected in series and controlled by a common controller.

Finally, for dimensioning reasons or to achieve a certain load characteristic, it may prove necessary to supply the excitation winding systems completely independently of one another. In this case, as shown in Fig. 2, for example, the windings W _e and WJ can be connected to the brushes B _n and B _e2 , while the supply of the winding Wg from the main brush Bu _x and from a special auxiliary brush B _g he follows.

Claims (3)

Patent claims: ι. Gleichstromlichtbogenschweißgenera-%> .. tor with one of the armature reaction; dependent and one of the armature reaction not dependent excitation winding on the main pole shafts, characterized in that a further excitation winding (W /) is provided which wraps around a pole tooth and is fed by two auxiliary brushes (B _ge , B _e or B _n , B _e2 ) which lie under the recesses for the excitation winding (W /) looping around the pole tooth, and that the excitation winding (We), which is independent of the armature reaction, is connected to the two auxiliary brushes (B _ge , B _e or B _n , Be ₂ ) . 2. Welding generator according to claim 1, characterized in that the exciter winding (We) arranged on the pole shaft and independent of the armature reaction is connected in series or in parallel with the exciter winding (W /) wrapping around the pole tooth. 3. Welding generator according to claim 1 and 2, characterized in that the current-voltage characteristic either with the help of a control resistor in the circuit of the excitation winding (W /) looping around the pole tooth alone or in the circuit of the two excitation windings (W / and W _e ) independent of the armature feedback is changed. 1 sheet of drawings