DE416342C - Electric motor, especially for speaking machines - Google Patents

Description

Electric motors, in particular for speaking machines. It's at electric powered talking machines known in the circuit of the drive motor for Speed control of motor and turntable axis to set rheostats. These are in known designs either by means of a specially shaped Turntable, which due to its peculiar design a swinging movement caused by a separately arranged shift lever, or by moving the tonearm switched on. It is also known to keep the drive device constant. to arrange an electromagnetic armature movably in a differently tapped excitation field and to mount a spring between the armature and the turntable axis, which reduces the voltage fluctuations should cancel the resulting irregularities in the drive movement.

Compared to the known, the essence of the invention is that a co-rotating resistor is attached to the rotating parts of the drive device and is expediently arranged between the turntable and drive motor, the by means of the powerful torque generated when the motor starts up in the circuit switched and when the engine is in gear back or forward, since the throttled Mains voltage causes an immediate drop in the number of revolutions of the drive motor and this precisely the power consumption necessary to overcome the inertial resistances admits, with which the speed of the motor remains constant.

This arrangement has the advantage that the drive motor is connected to any mains voltage and in the event of sudden voltage fluctuations during the Motor gear this as a result of immediate resistance, connection or disconnection and one Serving as a buffer, built into the resistance switching device resilient To keep the limb constant. There are also those necessary for the various voltages Excitation field taps are omitted, so the circuit is simple and clear.

The drawing shows an exemplary embodiment of the subject matter of the invention, namely Fig. I a longitudinal section and Fig. 2 a section in the direction ah of Fig. I. The anchor with collector c is attached to a sleeve a in a known manner. Above this sits firmly with the sleeve a wedged a disk d, which on its surface has a slip ring isolated from it, which by means of a rail / (Fig. 2) with the end of a resistor g, made of a specific high resistance material, e.g. B. coal, graphite, Kruppin and the like., Is connected electrically. Different segments divide the resistance g into small individual resistances. The sleeve a (Fig. I) is pushed over the turntable axis i, on which a disk k is attached to its upper part. This carries an insulated riveted slip ring 1. An elastic intermediate member, here a spring m, which is attached in a manner known per se with its beginning on the sleeve a and with its end in the disk k, allows the anchor attached to the sleeve a to advance b opposite the disk k and the turntable axis i up to a stop n (A! bb.2) of the resistance g.

If you now put a spring o on any power source, the current flows through the slip ring l via a contact pin p, which is guided in a sleeve g under spring pressure, goes from the segments k of the resistor g through the bridge f and the slip ring e a slip spring Y, flows through the excitation winding, the collector brushes and the armature winding in a known manner and goes back to the power source.

If the motor is now switched on, the armature d and with it rushes the disk d fixed on the axis a and the resistance g as a result of the large occurring The tightening torque and magnetizing current suddenly come up to a stop. Against it the disk k remains with its contact p due to its inertia and the braking resistance of the regulator is currently back. This will make the resistance to its place Forward movement switched on, so that the original size of the motor terminal voltage immediately decreases and with it the number of revolutions of the now accelerated anchor axle on the turntable axisi, which is set constant by the regulator s. Now experiences the mains voltage due to any circumstances while the motor is running an increase, 'will immediately again advance the anchor b and through the already described type switch on the resistor g to a further piece h, whereby immediately the number of revolutions of the motor decreases again, but the turntable axis i as a result the flexibility of the spring term and the regulation of the controller on a constant number of revolutions preserved. Conversely, the same also occurs in the event of a power failure.

Any manual operation is other than that described above automatic actuation with this device even with the greatest voltage differences and continuous operation in any voltage is no longer necessary.

Claims (3)

PATENT CLAIMS: i. Electric motor; In particular for speaking machines, with a resistance located in the electrical circuit, changeable during the run by automatic devices, characterized in that a rotating resistance (g) is arranged on a rotating part of the drive device or the drive motor, which is caused by the powerful torque and lead generated during start-up of the drive motor can be automatically switched into the electrical circuit and can be adjusted back or forward as the motor continues to gear, so that a constant terminal voltage on the motor and thus an even number of revolutions is automatically regulated. 2. Electric motor according to claim i, in which between the driven shaft, turntable axis o Drive motor and turntable axis (i) lying resistor (g) is firmly connected and the turntable axis (i), which is connected to the armature by means of a spring member (m) allowing the armature to advance , carries a switching part (k, r », so that with any mains voltage and voltage fluctuation, the armature and turntable axis are counter-rotated to switch the resistor (g) alternately. 3. Electric motor according to claim i and 2, characterized in that the carrier (d) of the resistor (g) and the on. the turntable axis fixed switching part (k) grinding segments, contacts or contact rings (>), L, c) carry, where the current is conveniently performed of contact parts (o, Y) to-which are associated with the drive motor in conductive connection.