DE1107853B - Self-excited direct current shunt welding generator - Google Patents

Description

Self-excited direct current shunt welding generator Direct current shunt welding generators are produced both with self-excitation and with self-excitation or with external excitation. In the case of self-excited machines, it is known to take the excitation current from a second winding housed in the armature of the welding generator. The most common self-excited machines are provided with an externally attached or built-on exciter machine, which is coupled to the generator shaft and can also be driven via V-belts or the like. In the case of separately excited machines, the excitation current is taken from an existing network and, if it is a three-phase or alternating current, fed to the generator via a rectifier. Depending on the type of drive machine at hand, one of the types of excitation mentioned is now selected. When driven by a three-phase motor, the generator usually receives the excitation from the existing three-phase network via a selenium rectifier, advantageously with a voltage of more than 110 V. This results in low currents and favorable dimensions for the excitation coils, series resistor, rectifier, switch, etc. The drive takes place by diesel or gasoline engine, it may - if present - the alternator or the starter battery can be used as a power source. However, this has the decisive disadvantage that the low voltage of 24, 12 or even only 6 volts requires high currents and thus correspondingly large cross-sections and devices.

The exciter machines that are often used for this reason, in turn, have the Disadvantage that they always have a collector or slip rings with the necessary Collector brushes must be equipped. They also claim besides additional Space for their accommodation and accessibility a certain maintenance of the grinding Parts. Additional radio interference suppression is also often necessary.

The object of the invention is to provide a self-excited direct current shunt welding generator or the like. To produce that independently while avoiding the above disadvantages largely the same in terms of the type of prime mover for the generator and accessories Parts can be used, such as those for a three-phase or alternating current network A welding generator that is externally excited via a rectifier is already present.

According to the invention, this is done in that a three-phase or alternating-current exciter machine, which is self-excited by means of a pennanent magnetic rotor, is built into the generator housing. The main advantages of this design are: Only the use of a collector and slip ring-free exciter allows installation at any point within the generator, because there is no need to arrange the exciter in an externally accessible location, since - since no current collector brushes are required - no wear and tear occurs and no maintenance is required. Depending on the local conditions, the exciter machine can have a relatively large diameter and a short axial length, i.e. H. be designed for the smallest possible space requirement. The manufacturing costs are also particularly low, since no additional bearings, end shields or protective devices are required for the exciter machine. In view of the needs of the production and inventory that for excitation coils, rectifiers, resistor, switch, switch box, etc., in all welding generators, regardless of whether internal or external excitation is present the generator, like parts should also be mentioned as advantageous, suitable are. If the exciter machine is still advantageously wound with four (or more) poles, low winding heads and thus axially short overall length and z. B. at a speed of 3000 rpm of the welding generator an excitation current with a frequency of 100 Hz, which also results in a well smoothed direct current.

The drawing shows an exemplary embodiment of the subject matter of the invention, FIG. 1 showing an externally excited direct current shunt welding generator driven by a three-phase motor of the usual type; Fig. 2 shows a self-excited direct current shunt welding generator driven by a diesel engine. Here, 1 denotes a direct current shunt welding generator and 2 its switch box constructed for example, the individual parts of which are not shown in detail because they are not the subject of the invention. 3 with a permanent magnet rotor is designated, its embodiment. can be arbitrary, shown here for example in the form of a disk and fastened between magnetically neutral pressure flanges 4 by means of a secured locknut 5 on the shaft 6 of the generator 1 . The end shield 7 carries in a molded ring 8, the layered plates of individual stator core 9. The individual sheets are combined in a known manner by means of staples, rivets or by welding to the stator core. 9 The free ends 10 of the winding 11 of the exciter lead directly to the rectifier, not shown, which is housed in the switch box 2. A comparison of the two figures showed that no additional space is required for the exciter machine.

Claims (2)

PATENT CLAIMS: 1. Self-excited direct current shunt welding generator, characterized in that a self-excited three-phase or alternating current exciter machine, which is self-excited by means of a permanent magnetic rotor, is built into the generator housing. 2. Generator according to claim 1, characterized in that the excitation machine is preferably designed with four (or more) poles. 3. Generator according to claims 1 and 2, characterized in that an excitation current with a frequency of up to 100 Hz is preferably used. 4. Generator according to claims 1 to 3, characterized in that the stator of the energizing machine is attached in a ringförnügen approach of the end shield. 5. Generator according to claims 1 to 3, characterized in that the rotor of the exciter is attached to the shaft within the generator. Documents considered: German Patent No. 13 802; Book by Urbanitzky: "Electricity in the service of humanity", 1895, p. 366.