DE650538C - Electric clock - Google Patents

Description

Electric clock The invention relates to an alternating current synchronous motor driven, electric, electric clock according to patent 599 087. In the main patent, the clocks can be operated when the alternating current is interrupted by an interrupted direct current of a suitable frequency.

The object of the present invention is, now, the effect of the direct current to match that of the alternating current as far as possible.

For this purpose, according to the invention, the drive motor contains besides of the alternating current winding two mutually wound direct current windings, one for. the pulsating direct current, the other for normal direct current. Become the Operation of the clock uses two motors, the invention according to the one motor be a normal synchronous motor for AC operation while the other Motor is equipped with the aforementioned two DC windings.

The drawing shows in Fig. I and z two embodiments of the invention, partially in section, with the three Statoxspulen in the watch motor, in Fig.3 a Schaltsühem, a. In Fig. I the stator a of a self-starting synchronous motor is provided with three coils b, c, id. The alternating current, which is usually used to drive the motor, flows through the coil d. The coil b is used for the pulsating direct current, which is automatically switched on when the alternating current supply fails. The coil c is intended for normal direct current, which is expediently drawn from the same power source as the pulsating direct current. The two coils are wound against each other and the combined action of the steady and pulsating fields comes very close to the action of the alternating field usually produced by coil d. The rotor e mounted on its axis / moves the drive parts of the clock. It consists of a permanent magnet that is set in rotation under the influence of the magnetic field of the stator. The engine composed of parts a and e is known per se and does not form part of the present invention.

As the circuit diagram according to FIG. 3 shows, the alternating current is fed to the clock via a commonly used transformer g. The facility consists of three main parts, labeled lt, i, k. Teillz is a changeover switch that automatically switches on the direct current when the. AC power supply fails. Part i is the drive motor of the clock, while part k means the sub-sneaker device, which supplies the clock motor with pulsating direct current.

The part h consists of a coil 1 which forms part of an electromagnet which is supplied with current from the transformer g via a rectifier m. This rectifier can be of any type at the front. The part h is also equipped with a holder with two fixed contacts iz ,, o and a movable contact p. If current flows through coil 1, the magnet of this coil moves contact p against contact @o. If this current does not flow, however, the contact p moves under the action of a spring force or the force of gravity against the contact aa, whereby the direct current circuit is closed.

The clock motor i consists of a stand which carries three coils b, c, d , either of the type mentioned above or of a structure shown in FIG.

The interrupter device k has a fixed contact q and one movable contact r attached to a vibrating spring s; their natural frequency corresponds to the frequency of the alternating current supplied to the transformer g. The spring s is set in vibration by an electromagnet, which is driven by a Coil t is energized with electricity from. a battery u is fed. To a spark of the contacts g, r to be largely prevented are .a capacitor v and a resistor w placed in the circle. In addition, there can be a capacitor x between the ends the coil b can be provided. When the alternating current flows, it goes from the secondary coil of the transformer g via the rectifier m to the magnet coil 1, which brings the contacts o and p together. The alternating current can now from the Secondary coil of the transformer to coil d of the watch motor flow. As long as the Alternating current flows, the clock motor is driven only by the coil d, while the stator coils b and c remain inactive. But if the alternating current falls off, the coil l releases the contact p, which then moves to the contact n applies. Current can now flow from battery u to stator coil b and c. The current flowing through the coil c is, as already described, a normal direct current, while the current flowing through the coil b is on due to the action of the interruption spring s is pulsating direct current.

In the example shown in FIG. the coils b, c, only from a part of the battery & shall be replenished. The remaining part of the battery is used for other work purposes, not shown here, in the clock mechanism.

Furthermore, a circuit has been made to remove the battery from the Charging transformer g from what is done via the rectifier in, while the Clock is powered by the alternating current. This is achieved in that the Battery connected to the rectifier with the interposition of a resistor is (Fig.3). In this example, one fixed resistor is 3 and one variable Resistance q. shown, through which the charging current can be regulated.

Fig.2 shows a modified design of the motor with two stator na and two leashes, the latter sitting on a common axis f. It can but also both runners have separate axes, which are then by means of a gear are connected to each other. The leash stand only contains the one with AC power fed Spulied, while the other stand the coils b, c for operation with Contains direct current.

Claims (2)

PATENT CLAIMS: i. Electric clock according to Patent 599 087, characterized in that that the drive motor apart from the alternating current winding two wound against each other Contains direct current windings, one for the pulsating direct current, the other for normal direct current. 2. Electric clock according to claim i using two Motors, characterized in that one motor is a normal synchronous motor for AC operation while the other motor is with the two DC windings is equipped according to claim i.