DE400390C - Electric motor for any type of current with an external runner and an internal stand - Google Patents

Description

Electric motor for any type of current with external rotor and internal stand. They are drive devices for conveyor troughs, sieving mills and the like. Become known, in which the restless going, - considerable wear and tear subject and poor efficiency having slider crank mechanism thereby is replaced that attached to a rotating shaft outside of its means, a mass is, whereby the shaft and the machine part connected to it by bearings to be shaken starts to vibrate. This device has the significant disadvantage that the Drive must be directed to the oscillating shaft, whereby the., Intriebselemente participate in the shaking movement and therefore wear out quickly. One would normal electric motor with inner armature arrangement, the armature of which is an artificially produced one Has force to build on such a machine part to be shaken, so -the aforementioned disadvantage of the mechanical drive would be eliminated, since the power supply can be effected by known means which can tolerate shaking. Should, however the shaking must be done with a substantial force, especially as the anchor has insufficient peripheral speed, the balancing weight to be accommodated in the armature be correspondingly difficult. The normal inner anchor arrangement provides for attachment no space for such an eccentric weight, and for the transmission of the vibrations of the armature, the strength of the shaft would also make it a heavy bearing construction require, so that the engine even with a relatively low power is difficult and therefore expensive.

These disadvantages are avoided according to the invention in that the motor has an external rotor, so that as a result of the enlarged Circumferential speed once with a relatively smaller mass than with the inner armature arrangement strong vibrations can be generated, the other time at the everywhere free Anchor surface, masses of any size can be easily attached. There is also furthermore the advantage that the motor is extraordinarily flexible in spite of those additional masses Can be built tightly and the fixed axis does not need to be particularly heavy. The subject of the invention can by virtue of it being compact design type can be easily installed in the machine parts to be shaken and is primarily suitable for direct assembly with those, such as for driving conveyor troughs, sieve and shakers, knot catchers on paper machines, based on the principle of fatigue based material testing machines, for compressed air tools and the like the engine with devices for regulating the speed, so the number of vibrations the motor axis and thus the driven machine parts can be changed. These Control is difficult to carry out with a mechanical drive.

The invention is shown in Figs. .

Fig. I shows such a motor in section and illustrates on the upper half a force firmly connected to the housing and variable at the bottom Balancing weights.

Fig. 2 is a side view of this.

Fig. 3 shows a motor built into a conveyor trough.

Fig.q. Fig. 3 is a front view thereof. Fig. 5 shows a schematic Representation of a compressed air, percussion or ramming tool with a built-in motor.

The engine shown in Fig. I is with the axis i in the eyes 2 attached to a bearing block and has one designed as a pole frame or armature Stand, which consists of the sheets 3 and the winding q. insists and firmly on the Axis i is arranged. The latter carries the ones held by the round nuts 6 and 7 Ball bearings 8 and 9, in which the rotor i i with the winding 12 receives Housing io and its closure plate 13 with ventilator 14 is mounted. The case io is either, as shown in Fig. 2 above, with a firmly cast Equipped with balancing weight 15, or, as Fig. I and 2 below shows, with individual, weights attached to the annular flange 16 by the retaining screws 17 18 and i9. The current conduction is expediently through the axis i arranged while the rotor current with the help of the slip rings 2o, which with direct current replaced by commutator bars, and by means of the ones on the cover --i Brushes 22 is removed. Should individual flywheels fastened by retaining screws 18 are used, it is advisable to cover them with sheet metal protection or protective housing 23 to surround. In the case of smaller motors, one of the retaining bolts can be 24. and thus also the one retaining eye 2 is omitted. It does not matter whether the motor carries the winding 12 or with three-phase current as a short-circuit armature motor.

Since the shaking movement achieved by the armature balancing mostly only is to be made usable in a certain direction, the engine mounting must be designed in this way be that it allows the agility in question. An example of this is in Fig. 3 and 4 shown. The motor axis i is mounted here so that it can be in certain Direction with the conveyor trough 25 to be installed can oscillate back and forth, wobeä the Forming impacts taking place in the direction of the arrow effective driving forces for the sieve and their reaction in the oscillating leaf springs 26 received.

When used on impact tools, see Fig. 5, this reaction is formed by alternating compression and dilution of the air oscillating in the system. The axis i of the motor with its balancing weight 15 is mounted on the piston 27 of the air cylinder 28 with the aid of the retaining eyes 2. The piston, which is sealed against negative and positive pressure by seals 29 and 30, can thus carry out the oscillating movement in the direction of the arrow, so that the air in the cylinder 28, in the connecting hose 31 and in the cylinder 32 of the striking tool also oscillates and the ground or correspondingly sealed Piston 33 set in the oscillating motion. This piston then acts on the striking tool 35 or the like which is movable in the tool guide 34. The throttle valve 36 is used to regulate the impact force.

The axis i, which is provided with a pin on one side, is clamped into a fixed one Eye 2 allows movements of machine parts in any direction, such as this is necessary in materials testing machines based on the principle of fatigue is to be achieved.

Claims (1)

PATRN'f CLAIM: Electric motor for any type of current with external Runner and internally arranged stand, characterized in that at any one Place of the rotor circumference a segment-like balancing weight is cast or one or more such additional masses are screwed on.