DE2626434C3 - Electric welding generator group - Google Patents

Description

The invention relates to an electrical welding generator group whose /! - generators from a common Miiior, in particular an internal combustion engine, especially for use on a self-propelled vehicle driven by an electric motor fed by the welding generator group is driven.

Such welding generators are mainly used in places where there is no power supply The entire group can be built on towed or self-propelled vehicles be.

In order to achieve high quality welded connections, such as B. required when connecting oil field pipes are to be able to produce, it is necessary that the generators one of ürehzanischwiegen the Drive motor supply largely independent electricity. Used to drive the float generators Drive motor is used, the power of which far exceeds the power requirement of all generators, the speed fluctuations are kept within the permissible range with different loads on the drive motor Limits. So one has good experience with the drive motor of bulldozers on which the Welding generators are built, made as long as these bulldozers did not have a torque converter. Since the modern bulldozers are only equipped with a torque converter, These motors experience fluctuations in speed due to the different loads on the welding generators a.

One could now think of giving the welding generators their own drive motor, its Power far exceeds the power requirements of all generators. This solution would be economical Reasons not to be represented. One strives, however, to give the welding generators one in performance to be assigned to the corresponding drive motor. In order to keep the speed fluctuations as small as possible, can to equip this motor with a speed control. The speed controls commonly used today are sufficient but not off (speed fluctuation up to 10%) in order to keep the welding current sufficiently constant.

In a known object (DE-PS 1 27 653) a generator is equipped with an auxiliary machine. Two excitation windings are assigned to the generator, namely a first excitation winding consisting of one Battery is fed and a compound winding located in the main circuit of the generator. The auxiliary machine also has two excitation windings, one of which, like the one excitation winding of the main machine, is powered by the battery, while the other is powered by the electricity from the generator. the Interconnection of the excitation windings of the generator and the auxiliary machine is such that with fluctuating Speed the voltage of the generator remains essentially constant.

The invention is based on the object of an improved solution for keeping the welding current constant a welding generator set powered by a single motor.

This object is solved by the invention in the electric welding generator group of the aforementioned type in that each generator comprises n- \ additional excitation windings, the proportional respectively from the welding currents or the welding currents currents of the remaining generators are traversed.

With these measures it is achieved that the electrical load on one or the other welding generator dependent speed reduction or increase is compensated in such a way that the voltage remains essentially constant This effect is based on the fact that the working current (welding current) of the one Machine is used to excite the other machine. A solution has thus been found that is based on economical way to keep the welding current of a welding generator group sufficiently constant can. It is even possible to generate welding currents with a constancy that is necessary for fine seam welding Pipes is required. No oversized one is required to drive the welding generator group Drive motor to be provided. Due to the different power consumption of the welding generator group Fluctuations in speed of the drive motor caused by amplification or reduction compensated for the excitation of the generator (s).

The features according to the invention can also be used in welding generators of the conventional type Realize collector and pantograph brushes as well as brushless welding generators.

In the following, the invention is explained in more detail with reference to a drawing showing an exemplary embodiment explained.

Two welding generators are driven by a drive motor on their rotors Gi, Gz via a common shaft. The welding generators are DC machines. Each generator has an excitation winding Ei, E ₂ arranged in the stator. Two independent additional excitation windings EZi ', EZi ", EZ ₂ ', EZ ₂ " are also arranged in the stator.

The voltage induced in the rotor winding designed as a three-phase winding is picked up at the collector Gi by means of current collector brushes Wi, W _2. Each brush B \, B ₂ is assigned a reversing pole winding Wi, W ₂ to reduce the arcing on the brushes B. While one reversing pole winding Wi, Wi leads directly to a connecting terminal, the other reversing pole winding Wi, W ₂ leads to a main current winding H with different taps for the connecting terminals.

While all the excitation windings £ |, EZi ', EZi ", Ei, EZ ₂ , EZ ₂ " generate a rectified excitation, the main current winding Wi, Hi arranged on the exciter poles generates an excitation in the opposite direction when welding current flows.

.3

: Additional excitation winding EZJ of one generator is connected in series with the main current winding H, of the generator and vice versa, on-I of this connection is achieved that speed fluctuations with regard to the welding voltage are comerted. Is z. B. the 'ne generator is loaded by welding current, then the speed counts down from the load. Dam ", if the according to the invention were not achieved, the voltage and the output of the other generator would drop. However, the fact that the welding current of one generator flows through the additional excitation winding of the other generator results in a field gain and thus a compensation

ϊ tion for the open circuit voltage. In a corresponding way if the welding current of the other generator is switched on, the excitation of one generator is increased, so that when a generator is switched on, there is no drop in the welding voltage when switched on

ίο the other generator can come.

1 sheet of drawings

Claims (1)

Claim: Electric welding generator group, the π generators of which are driven by a common motor, in particular an internal combustion engine, in particular for use on a self-propelled vehicle which is driven by an electric motor fed by the welding generator group, characterized in that each generator (G \ or G ₂ ) η - 1 has additional excitation windings through which the welding currents or the welding currents proportional currents of the other generators (Gi or Gi) flow.