DE2209347C3 - Sliding armature motor - Google Patents

Description

25th

The invention relates to a designated in the preamble of the main claim, according to the DT-OS 18 12 555 known sliding armature motor. Such motors are for example for the operation of Switching devices provided.

In the known motor, the armature is rotatably and displaceably guided on the rotor shaft. With accordingly With a small mass of such an armature, the switching function is practically independent of the position of the Engine. However, if a switching device is to be operated by the rotor shaft, the known motor is not useable.

According to CH-PS 2 81 873, a sliding armature motor is known in which the armature is fixed to a shaft connected is. This shaft performs the switching function, but it does not serve to transmit the rotor torque.

According to DT-AS 11 72 354 is a sliding armature motor known, in which both the armature and the rotor are each rotatably and stroke-proof connected to the shaft, which both the rotor torque transmits as well as executes the switching function. Since the relatively large mass of the rotor has to be moved, does this known arrangement not work independently of the position

The invention is based on the object of specifying a sliding armature motor of the type mentioned at the beginning, whose shaft "probably transmits the torque as well as performs the switching function, and which one with a simple structure works practically independent of position.

This problem is solved by the features characterized in the main claim. An advantageous one The design of the return spring is characterized in claim 2.

The inventive arrangement of the sliding armature in a small electric motor can easily be installed in motors with internal and external rotors. If it is a motor with external rotors, so the sliding anchor connected to the axle is advantageously made within a core bushing be arranged ferromagnetic material, which is concentric to the interruption of the magnetic flux Axis is divided like a ring. The core bushing serves as a connection for the magnetic flux between the Uprights.

In the case of a motor with an internal rotor, the additional interruption of the magnetic flux, for example Provide on one end of the stator and as an anchor from a rotating disc on the end Use ferromagnetic material. The means for transmitting the torque from the rotor to the axle can be designed in the same way in both cases. They are rigid in the direction of rotation and elastic in the axial direction to train. So they can also serve as a restoring force store.

The advantage of the sliding armature motor according to the invention is to be seen in the fact that, in addition to the sliding armature no larger masses need to be moved when actuating in the axial direction. That leads to shortened Coupling times, which is particularly advantageous for short-term relays. The structure of the invention Motors is very simple. Its operation is independent of the position, as the weight of the runner controls the shifting process unaffected.

An embodiment of the invention is shown in the drawing. It shows schematically a partial section by a motor according to the invention with an external rotor, in which the for the understanding of the Invention not required parts are not shown. The axis 8 of the motor is mounted in bearings 1, which carries the sliding anchor 2 firmly connected to it. The axis 8 runs concentrically within the core bushing 3 made of ferromagnetic material, which has an air gap 4 for interrupting the magnetic flux. The core bushing 3 is surrounded by the stator winding 6. The axis 8 extends through the hub of the rotor 7 and is displaceable therein in the axial direction. The rotor 7 itself cannot be displaced in the axial direction. To transmit the torque from the rotor 7 to the axis 8, a spring system 5 is provided which at the same time serves as a return spring for the sliding armature. The spring system is on the one hand on axis 8 is attached and on the other hand rests with its ends on an end face of the rotor 7. In the case shown the spring system consists of leaf springs attached to the axis like rays. It's in the direction of rotation rigid and elastic in the axial direction.

1 sheet of drawings

Claims (2)

Patent claims: 1. Sliding anchor moior with a St; . r with an excitation winding and an additional air gap in a magnetic circuit, a rotor that rotatably connected to the drive shaft and opposite the stand is immovably mounted, and with a winding in when the stand is excited axial direction against a return spring in a position bridging the additional air gap displaceable armature guided by the rotor shaft transmitting the torque, thereby characterized in that the rotor shaft (8) relative to the rotor (7) displaceable in the axial direction, but connected to the armature (2) in a stroke-fixed manner is and that the return spring on the one hand with the Läuierwelle (8) and on the other hand with the rotor (7) is non-rotatably connected. 2. Sliding armature motor according to claim 1, characterized in that the return spring consists of a beam consists of leaf springs (5) attached to the rotor shaft (8).