DE714929C - DC gyro motor - Google Patents

Description

DC gyro motor The invention relates to DC gyro motors with a permanent magnet, whose rotor is provided with a flywheel is arranged outside the stator and revolves around a shaft passing through it.

In the known devices of this type, the permanent magnet is fixed arranged inside the rotor, so that the field windings on the rotating Part must be accommodated. As a result of the high operating speeds of these rotary motors there is a risk of the windings shifting. It is therefore difficult balancing of the rotating part with the required accuracy in continuous operation maintain. Another known type is free from this disadvantage, in which the rotor is made of non-magnetic material and several embedded in it permanent magnets. However, the windings in this device are bilateral arranged the end faces of the rotor, so that the space requirement is relatively large is.

A centrifugal motor that has the advantage of operational safety and the the small space as well as the low power requirement combined in itself, arises characterized in that in a device of the above type according to the invention of the permanent Magnet is ring-shaped and poles are impressed on it as they are when Grammering in a moment of time, and that the water ring-shaped magnet at the same time represents the flywheel of the rotor.

A gyroscope is already known, which is known as a homogeneous ring from non-magnetic Material is formed and in its interior a number of sector-like curved permanent magnets are arranged in such a way that that their poles also as with.

Grammering lies in a moment of time This gyro-runner, however, forms only part of a magnetic coupling, the other part through its special drive device must be set in revolving motion.

In a further embodiment of the invention, the permanent magnet is with Pole shifts to enlarge the transition cross-section for the magnetic lines of force provided between its poles and the stand working poles.

This increases the risk of demagnetization of the pennant magnet Be sure to avoid it when starting the motor.

If it is necessary to provide the ring with several pairs of poles, so it is expedient to use one that consists of a corresponding number of Sectors made of magnetic steel, between which an equal number of sectors is arranged from non-magnetic material. In doing so, the runner is preferred still deal with a steel jacket to provide sufficient security against changes in shape and destruction by the considerable at the necessary very high speeds To have flea powers.

The inventive design offers against. over the known yet a number of other advantages: The ring-shaped permanent magnet serving as a rotor can, since any deformation during operation is excluded for him highest speeds are used. As a result of the possible increase in speed the gyro can achieve the same stability with much smaller masses than this was previously possible.

The high specific weight of steel allows it to be accommodated the mass, already favorably designed by the ring-shaped structure, to the smallest Space. All dimensions and in particular the height and thus the space required by the gyro can thus be reduced substantially. The power consumption can be experienced. This enables you to work with powers that are a few watts or even below I watts, the gyro can also be operated economically from dry batteries to ensure.

The invention is based on an embodiment shown in FIGS explained in more detail. i is an annular permanent magnet acting as a rotating field made of homogeneous magnetic material. This ring is magnetized in such a way that it attaches to two. with respect to its axis opposite points of the circumference Has magnetic poles N, S. Two end plates 3 verbhiden this ring magnet below Uwischbenscaltung consisting of non-magnetic material rings 2 with ball bearings 4, the inner races of which are fixed on the fixed shaft 5. Before the Poles of the permanent magnet, soft iron pole pieces 6 are arranged to demagnetize of the ring when starting the gyro under all circumstances.

The stator of the motor consists of several, for example three Laminated one-legged legs arranged in a star shape and acting as working poles 7. Excitation coils g are arranged on these, their leads through the bore I6 are guided in the stationary shaft 3. The legs 7 stand up with one the shaft 5 pushed onto the circular laminated core 10 in magnetic contact.

You will be with each other and with this sheet metal palçet through two with each other riveted sheets 10 held together. In order to achieve a favorable degree of efficiency. the cross-section of the legs becomes approximately square and small compared to the length of the coils 9 made so that the mean turn length and thus the resistance of the winding become small for a given number of turns. The bigger one caused by it The diameter of the rotor is of particular advantage in the present case, as a result the greater circumferential speed caused by this, the rotating mass continues can be reduced.

In order to keep the magnetic losses as small as possible and the magnetic ones The air induction is achieved by a particularly strong magnification of the iron cross-section at the transition surface of the magnetic flux opposite the mean iron cross-section of the stator kept small, which at the same time achieved is that the risk of Eutmagnetisierung the permanent magnet even with very small Air gap is reduced to a minimum.

In Fig. 1 comes the enlargement of the iron cross-section at the Air transition area of the lines of force through the very wide pole shoes S clearly to expression.

In Fig. 2 is another one for the mutual excitation of the stator coils 9 provided switching device shown. With the fixed shaft 5 is a Socket 15 adjustable connected. On this is a Abdeekhiech 12, which is a Washer 11 made of insulating material, riveted. All of these washers are spring contact sets 13 arranged by an eccentric ring attached to the face plate 3 of the rotor 14 accordingly with the interposition of a roller bearing, not shown the respective Stetlung of the field magnet are actuated and thereby cause the coil to be excited depending on the position of the field magnet.

The special design of the switching device does not constitute the Subject of this patent.

Claims (3)

P A T E N T A N S P R Ü C H E: 1. DC gyro motor with a permanent magnet, whose rotor is provided with a flywheel outside the Stator is arranged and rotates around a shaft penetrating this, thereby characterized in that the permanent magnet is annular and has poles are imprinted as they are in grammering in a moment of time, and that this ring-shaped magnet also represents the flywheel of the rotor. 2. DC gyro motor according to claim 1, characterized in that that the permanent magnet (I) with pole pieces (6) to enlarge the transition cross-section for the magnetic lines of force between its poles and the stator working poles is provided. 3. DC gyro motor according to claim l or 2, characterized in that that the rotor ring consists of a low number of sectors made of magnetic steel, between which an equal number of sectors of non-magnetic material arranged is, wherein the rotor is preferably also enclosed by a steel jacket.