DE652147C - Asynchronous motor for any speed - Google Patents

Description

The subject of the main patent is έίη from two or more induction machines existing, externally driven Frequency converter in which all active parts rotating relative to one another are concentric in one common housing are arranged, the winding systems of higher frequency ones lower frequency surrounded. The subject of the present invention is a further embodiment of this device in such a way that that the converter is assembled directly with an asynchronous motor fed by it the motor as a concentrically assembled twin motor with two in a common laminated core housed windings is formed. The arrangement is made so that the Stator windings of the motor have the same or different number of poles, and have any number of poles different frequency can be fed while the two rotor windings are arranged on three concentric laminations, such that the circumferential Armature between two stationary stands' is arranged, or so that the stator package in the middle between two armature windings rotating at different speeds lies. In this way, speeds can be derived that are above the highest speed that can be achieved at normal mains frequency and number of poles.

Asynchronous motors consisting of two concentric columns and one between the two Rotating rotor with two short-circuit windings exist are already known per se. Both windings have the same number of poles. Furthermore are already Asynchronous motors known as so-called double motors, their stator windings executed with different number of poles, "but are fed with the same frequency, whereby a regulation of the speed according to the relative speed of the rotating fields is made possible within the normal network frequencies.

By using different frequencies according to the invention, one becomes significant larger speed range achieved, whereby by simultaneous use of different Pole numbers the speed in each case the special conditions of the individual case can be customized as desired. So here you are not limited to the speed which inevitably results from the existing network frequency and can thus reach speeds that are many times as high the speeds that can be achieved with the known types.

In the drawing are .in schematic

-Form two different embodiments.

of frequency converters with dual motors according to 'the invention shown, and each in a partial section along the axis.

Fig. Ι shows an embodiment in which the dual motor with two stationary Stands and a rotor with two short-circuit windings lying between ίο these is executed;

Fig. 2 shows an embodiment in which the primary and secondary engine parts compared to the arrangement according to Fig. ι each other are swapped. . . .

In the example according to FIG. 1, G denotes a multiple frequency generator according to patent 539,649, which is assembled with a double motor M according to the invention. The concentric to the stator laminations revolving part 3 of the motor carries two windings 4 and 5, which are preferably designed as short-circuit windings. The windings 6 and 7 of the stationary laminated cores ι and 2 are fed from the multiple frequency generator G via the connections V and Fi with any different frequency. As a result, when corresponding switching devices are interposed, the double rotor 3 can be driven at different speeds. The converter is fed from the network 11 via the lines 12.

In the embodiment according to FIG. 2, G also designates a multiple frequency generator according to patent 539,649, which is driven via the shaft W. In the embodiment according to FIG. The generator is also fed from the network 11 via the lines 12. The stationary laminated core 13, which carries the primary windings 14 and 15 of the same or different poles of the dual motor i ¥, is attached to the end shield S. These windings are fed from the multiple frequency generator via the connections V ■ and V ₁ simultaneously or alternately with alternating current of any number of phases and different frequencies and thereby drive the laminated cores 16 and 17 with the short-circuit windings 18 and 19, which are arranged concentrically to the laminated core 13, with corresponding the number of poles and frequency of the primary part any number of revolutions as asynchronous motors. The speeds are in a different range than that which can be achieved directly by the mains frequency with the given number of poles. The energy can be taken from waves W ₁ and W ₂ . Instead of taking off the energy at the shaft W ₂ , it can also be taken from the outer jacket of the 'laminated core', which is carried by this' shaft, with the appropriate configuration.

Within the scope of the invention, other combinations resulting from the arrangements according to FIGS. 1 and 2 can also be used. can be taken in any order. It is also possible to have multiple frequency systems to be arranged side by side and the common shaft with several rotors or to equip each individual rotor with its own shaft.

Claims (4)

Patent claims: I, asynchronous motor for any speed, characterized in that the Motor is assembled with a multiple frequency converter feeding it according to patent 539 649 and that it has two Stator windings fed at different frequencies, identical or different Number of poles, as well as two rotor windings, which are arranged on three concentric laminated cores in such a way that neither the two stator windings nor the two rotor windings on the middle laminated core, the other two Windings, however, lie on the outer and the inner laminated core. 2. Asynchronous motor according to claim 1, characterized in that the motor consists of two stands and a rotor, housed in the laminated core two short-circuit windings in this way are that the one "short-circuit winding the associated stationary stator surrounds, while the other short-circuit winding of the second stationary Stand is enclosed. 3. Asynchronous motor according to claim i, characterized in that the the Both primary windings supporting stator of the asynchronous motor between the laminated cores supporting the secondary windings is arranged, the associated shafts driven at different speeds will. " 4. Asynchronous motor according to claim 3 j, characterized in that the outer · no Squirrel cage rotor is designed as an external rotor. 1 sheet of drawings