DE202005021396U1 - Electromagnetic two-phase stepper motor - Google Patents

Abstract

electromagnetic two-phase stepper motor consisting of a disk-shaped rotor a permanent magnet, the four offset by 90 ° poles having circumferentially alternating polarity, and two each a magnetic coil having magnetic circuits, each of which with provided on the rotor circumference aligned stator poles whose Center lines aligned with the rotor axis each have an angle of 90 ° by characterized in that each Magnetic circuit (4, 5) a wide, on both sides via a Pole of the rotor (1) out erststeckenden stator pole (19, 20) and a narrow, on one pole of the rotor (1) focussierenden Statorpol (21, 22) and that the wide stator poles (19, 20) of both magnetic circuits (4, 5) on the one hand and the narrow stator poles (21, 22) of both magnetic circuits (4, 5) on the other hand by a narrow air gap (23, 24) from each other are separated.

Description

The The invention relates to an electromagnetic two-phase Stepping motor consisting of a disc-shaped rotor made of a permanent magnet, of the four offset by 90 ° Pole having circumferentially alternating polarity, and two each a magnetic coil having magnetic circuits, each with two Is provided on the rotor circumference aligned stator poles whose Center lines aligned with the rotor axis each have an angle of 90 °.

Such a stepping motor is from the EP 0 696 836 known. Such stepping motors are mainly used for driving analogue vehicle indicating instruments, in which digitate measured values have to be converted into analogue displays. For operation different driving methods are possible. The usual control takes place in that the magnetic coils are supplied with current pulses of the same and / or opposite polarity, which produce a step sequence of the rotor. With appropriate pulse sequence, the possibility is given to move the rotor in two directions of rotation.

The use of such stepper motors in gauges requires in addition to a high step resolution - this is in connection with a reduction gear without difficulty he reached - a uniform, jitter-free movement of the driven by the stepper motor pointer. As has been shown, the causes of rhythmic irregularities of the pointer revolution are cogging moments or pole sensitivity of the rotor of the stepping motor, as can be seen, in particular, in the de-energized state of the stepping motor. It has therefore been attempted to eliminate such step irregularities by special design of the stator poles ( U.S. Patent 5,959,378 ). However, pole sensitivities are also present in these stator designs which distort the step angles.

These Disadvantages are to be eliminated by the invention. It is therefore Object of the invention to provide a two-phase stepper motor, the cogging torque in the de-energized state is as small as possible and thus allows a jitter-free movement of each rotor step, but On the other hand, each single step performs clean, so individual steps not "swallowed" or extra performs. The one for it necessary measures should as possible be little expensive, but are still in the automotive industry Products to be used under particular cost pressure.

These Task is inventively characterized solved, that everybody Magnetic circuit with a wide, extending on both sides beyond a pole of the rotor and a narrow, focusing on one pole of the rotor Statorpol is provided and that the wide stator poles of both magnetic circuits on the one hand and the narrow ones Stator poles of both magnetic circuits on the other hand each by a narrow air gap are separated.

By these measures is achieved that the pole sensitivity reduced in the de-energized state of the stepping motor to an extremely low level and thus a jitter-free movement of the rotor and thus one from this driven pointer is done from step to step.

As Experiments have shown, it has proved to be beneficial to everyone narrow stator pole in such a way that it extends over an angle between 39 ° and 43 °, and on the other hand, each wide stator pole, so that it over one Angle between 129 ° and 133 °. Proved to be optimal for the narrow stator pole an angle of 41 ° and for the wide stator pole such of 131 °.

Regarding the formation of the air gap between the narrow stator poles on the one hand and the wide stator poles on the other hand has a Such between an angle of 2 ° and 6 ° shown as advantageous. Optimal is one of 4 °.

When Advantageously, it has been found, the air gap ratio of Rotor diameter to diameter Stator pole cutout to about 0.8 to choose. This makes it possible with the aforementioned optimal angles achieve good technical results in terms of step execution.

The Invention is based on the drawing, which in part more schematic Representation of an embodiment contains explained in more detail. It demonstrate

1 a view of a known two-phase Schittmotors,

2 the torque behavior of the stepper motor after 1 at different energization states of the magnetic coils,

3 a view of a trained according to the invention two-phase stepping motor and

4 the torque behavior of the stepper motor after 3 at different energization states of the magnetic coils.

The well-known two-phase stepper motor after 1 consists of a disk-shaped rotor 1 from a permanent magnet with four circumferentially offset by 90 ° poles of alternating Pola and two magnetic circuits 2 and 3 each of which is a magnetic coil 4 and 5 and two stator laminations 6 and 7 respectively. 8th and 9 having, at their ends in equal stator poles 10 pass. The stator poles 10 two associated stator plates 6 and 7 respectively. 8th and 9 close with their on the rotor axis 11 aligned centerlines 12 and 13 each at an angle of 90 °.

How out 2 it can be seen results when loading both solenoid coils 4 and 5 with the same Amperewindungszahl a torque curve 14 , Will the solenoid coil 4 with the ampere-turn number zero and the solenoid coil 5 applied to the maximum Amperewindungszahl results in the torque curve 15 who is the rotor 1 not to the desired position 16 but on the position 17 provides. Partly responsible for this wrong position of the rotor 1 is the cogging torque, whose course is the curve 18 shows.

The trained according to the invention two-phase stepping motor, the in 3 is shown again comprises a permanent magnetic disc-shaped rotor 1 with four 90 ° offset poles with circumferentially alternating polarity and two magnetic circuits 2 and 3 each with a magnetic coil 4 and 5 each of which consists of two stator laminations 6 and 7 respectively. 8th and 9 consists. The stator laminations 6 and 8th of the two magnetic circuits 2 and 3 each have a wide, on both sides via a pole of the rotor 1 extending stator pole 19 respectively. 20 while the stator laminations 7 and 9 each one narrow, on one pole of the rotor 1 focussing stator pole 21 respectively. 22 exhibit. Both the narrow stator poles 21 and 22 as well as the wide stator poles 19 and 20 are each through a narrow air gap 23 separated. The narrow stator poles 21 and 22 are from the wide stator poles 19 and 20 also through an air gap 24 separated from each other.

The on the rotor axis 11 aligned centerlines 12 and 13 the stator poles 19 and 21 respectively. 20 and 22 a magnetic circuit 2 respectively. 3 each enclose an angle of 90 ° between them.

Each of the narrow stator poles 21 and 22 extends over an angle of 41 ° and each of the wide stator poles 19 and 20 extends over an angle of 131 ° The air gaps 23 and 24 are each 4 °.

In the case of the stepping motor according to the invention, moreover, the air gap ratio is of the diameter 25 of the rotor 1 to diameter 26 of Statorpolausschnitts selected to 0.8.

Become like 4 it can be seen, the magnetic coils 4 and 5 the stepper motor according to the invention again supplied with power as before, so results in the same Amperewindungszahl for both solenoids 4 and 5 a torque curve 27 and at Amperewindungszahl zero for the solenoid 4 and maximum ampere-turn number for the solenoid coil 5 a torque curve 28 ,

Due to the minimized Polfühligkeit the rotor 1 exactly to the new position 29 guided.

Of the Stepper motor according to the invention is therefore particularly suitable not only for use in indicating instruments for Motor vehicles but also for Movements of all kinds, where it is on a jitter-free and step accurate forward movement of the pointer arrives.

Claims (5)

Electromagnetic two-phase stepping motor consisting of a disc-shaped rotor made of a permanent magnet having four offset by 90 ° poles with circumferentially alternating polarity, and two each having a magnetic coil having magnetic circuits, each of which is provided with two aligned on the rotor circumference stator poles whose on the rotor axis aligned center lines each enclose an angle of 90 °, characterized in that each magnetic circuit ( 4 . 5 ) a wide, on both sides via a pole of the rotor ( 1 ) extending stator pole ( 19 . 20 ) and a narrow, on a pole of the rotor ( 1 ) focussing stator pole ( 21 . 22 ) and that the wide stator poles ( 19 . 20 ) of both magnetic circuits ( 4 . 5 ) on the one hand and the narrow stator poles ( 21 . 22 ) of both magnetic circuits ( 4 . 5 ) on the other hand by a narrow air gap ( 23 . 24 ) are separated from each other. Stepping motor according to Claim 1, characterized in that each narrow stator pole ( 21 . 22 ) extends above an angle between 39 ° and 43 °, preferably 41 °. Stepper motor according to Claim 1 or 2, characterized in that each wide stator pole ( 19 . 20 ) extends over an angle between 129 ° and 133 °, preferably 131 °. Stepping motor according to one of Claims 1 to 3, characterized in that each air gap ( 23 . 24 ) extends over an angle between 2 ° and 6 °, preferably 4 °. Stepping motor according to one of Claims 1 to 4, characterized in that the air gap ratio of rotor diameter ( 25 ) to diameter ( 26 ) Statorpolausschnitt is approximately 0.8.