DE245400C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- Λ! 245400 CLASS 21 ä. GROUP

Addendum to patent 177270 of December 3, 1904.

Patented in the German Empire on June 14, 1911. Longest duration: December 2, 1919.

In the patent 177270 is a controllable AC induction motor described in which the secondary armature removed and energy converted to direct current in a converter in one with the alternating current motor mechanically connected DC motor 'is made usable, the excitation of which is regulated automatically or by hand will. A single armature converter (converter) or a Engine generator. In both cases, the converter must for a large control range for a large speed change be built.

This drawback is avoided according to the present invention in that as Converter a cascade converter is used, which depending on the desired speed is used as such or as an ordinary single armature converter, at a lower speed of the main motor, thus higher frequency of the slip currents fed to the converter than the cascade converter, at a higher speed of the main motor, i.e. lower frequency of the slip currents than a normal single armature converter. In the latter case, however, it is advisable not to switch off the asynchronous machine of the cascade converter completely, but as an alternating current machine for the single armature converter, by using its stator or rotor DC excited. You can then choose the size of this excitation or control the secondary voltage of the converter, i.e. the DC voltage fed to the rear motor and thereby achieves that the armature voltage of the rear engine with the same control range for the speed varies within smaller limits, resulting in smaller dimensions for the rear engine.

The drawing shows an embodiment, namely Fig. 1 shows the circuit for low Speed, Fig. 2 represents high speed of the main engine. In both Figures mean ϊ, 2, 3 the three lines of the three-phase network, 4 the stand and

5 the rotor of the main engine (front engine).

6 is the stator of the induction motor belonging to the cascade converter, 7 is its rotor, 8 is the converter anchor belonging to the cascade converter. The field 9 of the latter becomes fed by a battery 10 which also feeds the field 12 of the DC rear motor 11. This field and, if necessary, the field 9 can be through resistors, cell switches ο. Like. Be regulated. In the circuit of FIG. 1, the slip rings are asynchronous and the synchronous machine of the cascade converter are electrically connected to each other, whereby the circuit is produced as a cascade converter. In the

The circuit according to FIG. 2, the stator 6 of the asynchronous machine is connected in series with the transformer armature 8, the rotor 7 of the asynchronous machine is excited with direct current from the battery 10 via two slip rings. This excitation can be regulated in a manner similar to that of the machines 8 and 11. Instead of the stator 6, it is also possible to connect the rotor 7 of the asynchronous machine with the main armature 5 and the transformer armature 8 in series and to excite the stator 6 with direct current, but in this case there would be 7 on the rotor
rings required.

further grinding

Claims (1)

Patent claim; Controllable AC induction motor according to patent 177270, characterized in, that a cascade converter serves as a converter, which depending on the desired speed as such or is switched as a single armature converter with an additional alternating current machine. 1 sheet of drawings.