DE638542C - Two-pole single phase induction motor - Google Patents

Description

'■' ■ before.

13 DEC. 1936

ISSUED ON NOVEMBER 17, 1936

REICH PATENT OFFICE

PATENT LETTERING

M 638 542 CLASS 21 d ² GROUP 18oi

St51929 VIIIb ₁ ¹ SId * Date of announcement of the grant of the patent: October 29, 1936

Wilhelm Steenbeck in Hamburg Two-pole single-phase induction motor

Patented in the German Empire on March 8, 1934

Two-pole Induktionsiuotoren with several Excitation coils are known. In these known motors, the excitation coils are arranged symmetrically to the rotor axis so that that their distance from the rotor surface is limited to a minimum, whereby undesired phenomena of the leakage flux are largely prevented. There are also two-pole single-phase induction motors with only one excitation coil and Short-circuit rings as an auxiliary phase. In these known motors, however, the undesirable Appearances of the leakage flux are not prevented. This is a disadvantage due to the fact that the distance the exciter coil is unnecessarily large from the circumference of the rotor, because of the size of the leakage flux is known to depend on the length of the magnetic pressure surfaces, among which Areas are to be understood that increase from the center to the end of the excitation coil and from there extend evenly to the circumference of the runner.

This differs from the invention, which also applies to a two-pole single-phase induction motor with only one excitation coil and short-circuit wrestling as an auxiliary phase and the mentioned disadvantage in a simpler Way eliminated, in that, according to the invention, the symmetry axis of the excitation winding which is perpendicular to the rotor axis the rotor axis intersects in the middle of the rotor and that for conversion of the motor with one rotor in a motor with two rotors replaceable lamella types are provided.

This structural measure offers the advantage of a greatly shortened magnetic Pressure area through which undesired leakage flux is almost entirely avoided and the Efficiency and torque are much cheaper than with the known engines of this type is the case. These benefits come at no increased cost achieved for manufacturing. The invention also offers the possibility of the engine using the same construction elements with one or more runners to train.

When using two rotors, their arrangement in relation to the excitation coil is in accordance with FIG Invention made so that unwanted leakage flux, based on the second runner, in avoided in the same way as if there were only one runner, i.e. H. the The excitation coil has moved as close as possible to the two runners, so that after the influence of the coil is equally effective on both sides. So by combining the arrangement of the Excitation coil according to the invention in two-pole single-phase induction motors and by converting a single-rotor motor into one with two rotors,

or vice versa, the advantage that undesired leakage flux is effectively avoided in all cases will.

In the drawing, the subject matter of the invention is shown in an exemplary embodiment, namely show:

Fig ι a schematic representation of a Single motor,

Fig. 2 a schematic representation of a ίο double engine,

Fig. 3 a lamellar lower part of the magnet frame to the single motor according to Fig. i,

Fig. 4 a lamellar part of the magnet frame for the double motor according to Fig. Ζ and for the upper part of the single motor according to Fig. I,

Fig. 5 and 6 each a front view of the magnet frame, from which two different Overlap possibilities of the. individual slats are visible,

Fig. 7 a diagram in training as Double engine.

In the motor according to the invention, the axis of symmetry of the excitation coil 1 is perpendicular to the rotor axis and is arranged so that its extension the rotor axis in the Runner intersects. As a result, the flux generated by the excitation coil τ directly penetrates the rotor 2, so only a negligible leakage flux occurs can. Here, a casing made of magnetic material cannot damage it, but only use it, since it is in the path of the lines of force of useful and not of leakage flux. The jacket can therefore be made of cheap material, for example iron.

The lamellar parts 6 of the single motor according to Fig. 1 correspond to the lamellar parts 7 of the double engine. In the single motor, the lamellar part 6 is provided with a lamellar part 8 united. With the double motor according to Fig. 2, the upper and lower lamella parts are 7 mirrors put together the wrong way round. If you want to get out of the single motor according to Fig. 1 If you make a double motor, the lower lamellar parts 8 are against lamellar parts 7 exchanged. A double motor can also be easily converted into a single motor remodel. In both cases, the excitation coil i must move to the for they are plugged into certain core 9. . Due to the advantageous design of the slats single-phase induction motors are used for the magnet frame (Small motors) expanded significantly, since new ways were shown with the simplest means are to convert a single motor into a double motor to convert. The double motor has the advantage that with only a slight increase in the electrical energy supplied Power and torque can be doubled and efficiency can be increased, when both rotors 2 and το with the interposition of gears or the like on a common Drive shaft work. The double motor can also completely replace two single motors.

It should also be noted that the new paths shown here, several runners in just one Magnet frame using only one excitation coil to accommodate itself, of course can also be applied analogously to electric motors other than induction motors.

Claims (2)

Patent claims: i. Two-pole single-phase induction motor with short-circuit coils on the field poles and an excitation coil, the axis of symmetry of which is perpendicular to the rotor axis, characterized in that the axis of symmetry of the excitation coil intersects the ■ rotor axis in the center of the rotor, and that different types of lamellae are provided for the subdivided magnet frame, for the purpose of converting the motor are interchangeable with one rotor in a motor with two rotors or vice versa. Two-pole single-phase induction 2. Motor according to Claim 1, characterized in that when the motor is designed with two rotors, the split lamellae or the lamella part packages of the magnet frame are symmetrical and put together mirror-inverted. 1 sheet of drawings