DE1081966B - Cooled slip motor - Google Patents

Description

Cooled slip motor Asynchronous motors are already known which from a three-phase stator, one that takes the place of the usual rotor built-in soft iron core and one in the expanded air gap between the stator and core inserted bell are made of hTE metal, which is rigid with it connected shaft delivers the desired torque. You have such engines, for example for driving measuring instruments, sound film devices and recording devices in aircraft and the like used. However, the dissipation of heat in these engines is considerable Trouble. The torque could either not be used at all or only through change the supplied voltage is regulated with the help of transformers or resistors will.

There are also induction motors are already known in which on the outer At the end of the shaft of the motor is a fan made of easily magnetizable steel is movably arranged, which cools the stator from the outside. This fan works immediately after switching on the motor to high speed and thus ensures the Ventilation of the same while the engine starts slowly with its starter. In the end it is generally known to induce induction motors by axial displacement of the rotor to regulate the speed.

These prior art arrangements leave the last possible Missing exploitation of the new experiences and knowledge. They reject the proposal The invention probably has individual features, for example the one with the output shaft connected bell or a fan provided at the outer end of the rotor shaft. The functional and purposeful summary of these characteristics as well as in this one Connection of some new individual elements to a new type of slip motor is however, has not yet been proposed and forms the subject of the invention.

The invention is characterized in that in the enlarged air gap between an inner rotor and the stator a connected to the output shaft, for regulating the output torque, arranged displaceably in the axial direction, the actual working runner bell is provided, which is made of electrically good conductive, but not magnetizable material, and that at the outer end the rotor shaft of the inner rotor, a fan is arranged, which the Sator cools from the outside. This makes this engine particularly suitable for everyone Types of winding machines in the textile industry, i.e. cotton machines, knitting machines, Chain chairs and the like, in which the goods are wound under constant tension must be, also for fine wire machines and similar machines and also as a brake with a completely even, adjustable trigger tension.

In all of these cases it is necessary that the Thread or wire etc. not relaxed and tearing even during standstill of the machine is avoided with certainty, which is due to the independence of the torque the bell is reached by its speed.

The possibility of driving the fan independently of the bell is possible given to continuously cool the engine, so that an even, normal heating can be ensured. In addition, a small one can also be placed inside the bell Fans are installed, which also these - for example via holes in the rotor - cools.

Compared to the well-known hysteresis motors with soft iron core with the motor according to the invention on the drive shaft a 33% greater power be achieved.

The regulation by axial displacement of the bell in the field or from the field takes place in a known manner steplessly and very softly and is with the help easy to handle with a suitable transmission device. The engine can also easily run in both directions of rotation.

The bell can be made suitable depending on the desired character of the engine Non-ferrous metals are manufactured.-An embodiment of a motor according to the invention is shown in the drawing in an axial section in schematic form.

1 is the stator of a three-phase motor that is permanently installed in the housing 2 denotes, with 3 a normal runner, which as a result of the induced EMF depending on the number of poles of the winding rotates. 4 is the associated rotor shaft that is self-supporting is stored in the bearings 5 and carries a fan 6 at its outer end, through which the engine when rotating the Shaft is cooled from the outside. 7 is a fan cover of a known type.

In the spacious air gap between the stator and rotor is the cylindrical one Sheath of a bell 8 inserted, which is provided with parallel annular grooves on its Shaft 9 and a sliding wedge 10 with the hollow, with a corresponding longitudinal groove provided output shaft 11 is connected. The output shaft 11 carries on its outer End of a V-belt pulley 12 for the output.

There are fan blades on the inner face of the inner rotor 3 13 riveted on, which serve to cool the bell 8 internally.

In the grooves 14 of the bell shaft engages a gear 15, which means a lever 16 can be rotated from the outside. This allows the bell shaft with the bell axially displaced and thus the usable power of the rotating bell can be regulated steplessly as required. The torque of the bell is independent here of the speed and remains constant even at standstill.

Claims (6)

PATENT CLAIMS: 1. Cooled slip motor, consisting of a three-phase stator and squirrel cage, characterized in that in the enlarged air gap between an inner rotor (3) and the stator (1) connected to the output shaft (11), for regulating the output torque, arranged displaceably in the axial direction, the actual work runner bell (8) is provided, which is made of electrically good conductive, but not magnetizable material, and that at the outer end the rotor shaft (4) of the inner rotor (3) a fan (6) is arranged, which the stator (1) cools from the outside. 2. Motor according to claim 1, characterized in that that the bell (8) has a gear (15) which is in the annular grooves (14) of the bell shaft (9) engages, or with other mechanical elements or with electronically controlled Movement out of the field and into the field can be shifted and thereby the output power is infinitely variable. 3. Motor according to claim 2, characterized in that the Bell shaft (9) mounted in the hollow output shaft (11) and with this through a sliding wedge (12) is connected non-rotatably, but axially displaceably. 4. The Use of a slip motor according to one of the preceding claims as a winding machine for the textile industry. 5. The use of a slip motor according to the claims 1 to 3 for fine wire drawing machines. 6. The use of a slip motor according to claims 1 to 3 as a brake with adjustable withdrawal voltage. Considered publications: German Patent Nos. 894 588, 892 303, 841020, 712 845, 691 864, 566 100; 292 873, 197 900; Swiss patents Nos.200794, 146670, 117 424; British Patent No. 594 582.