DE599087C - Synchronous motor clock - Google Patents

Description

Synchronous motor clock The invention relates to clocks that directly driven by synchronous electric motors without the use of clock springs and inhibition. The purpose is to create a clock that will work even in the event of a power failure continues.

According to the invention, the clock motor is in the event of a failure of the alternating current Continued operation by means of a reserve battery to be drawn from the pulsating direct current. In the direct current circuit there is a device for switching off the direct current Flow of alternating current provided.

In the drawing, Fig. Z shows a circuit diagram for achieving the the mode of operation just described, FIG. 2 shows another type of embodiment according to the invention.

In Fig. R with a is the stator of the watch motor forming the magnet and with b the rotor of the motor that drives the clockwork directly. These parts are designed according to the usual design of AC synchronous motors, the stator of the motor receiving alternating current in a winding c. On the stand yet another winding d is applied, which is in a direct current circuit lies. This circuit is fed by a battery e. Further is in this circle a breaker arranged, which consists of a resilient sheet f, which is attached to the one end is attached at g and at the other end carries a contact h. This can interact with a fixed contact i. The sheet is made by the magnetic effect of the stator vibrated. To keep the breaker open when the alternating current flows, an electromagnet i is arranged in the alternating current circuit.

From the circuit diagram it is clear that as long as the alternating current flows, the clock motor is driven by this current - which feeds the winding c and at the same time separates the contacts h and i through the magnet j. But if this normal power supply is interrupted, the magnet j releases the breaker and allows the closure of contacts h and i. The winding d of the motor now receives a pulsating direct current, and the motor continues to be driven, the interrupter being activated by the field magnet.

In Fig. 2, a. is the AC winding of the motor stator and d is the DC winding. The latter turn can be fed by a battery e. The direct current circuit is controlled by a switch h which, in alternating current operation, is kept open by the electromagnet 1 in the alternating current circuit. Furthermore, a charging device is provided for the battery, which is fed from the AC network. The charging current for the battery is taken from a transformer m via a rectifier n. An electromagnet o is arranged in the battery circuit, which causes the interrupter blade f to vibrate because of the pulsating charging current. This sheet flies in a circle with the motor winding d. The interrupter works continuously even when switch k is open. If the alternating current fails, the switch k is closed and direct current flows from the battery e to the motor winding d via the breaker contacts h and i, the breaker being actuated by a special magnet p. The magnet p - is in series with the winding d. When the alternating current returns, switch k opens again and the alternating current continues to drive the motor.

In the circuit diagram there are capacitors in the usual arrangement shown to prevent electrical oscillations in the circuit. If necessary the coils o and p (Fig. 2) and the actuation of the interrupter can be omitted through the stator winding of the motor.

In some cases it is possible to refrain from having the engine of its own To give winding for direct current; instead you can use part of the AC winding use for this. You can also use the motor winding instead of the pulsating direct current d Supply alternating current, which is derived from the pulsating direct current via a converter has been won.

Claims (5)

PATENT CLAIM i. Electric motor driven by a synchronous AC motor Clock, characterized in that if the alternating current fails, the clock motor means from a reserve battery to be taken from the pulsating direct current will. 2. Electric clock according to claim i, characterized in that in the DC current circuit Devices are arranged to start the direct current circuit when the alternating current flows turn off. 3. Electric clock according to claim i and 2, characterized in that the clock motor has two windings, one of which (c) can be fed with alternating current, the other (d) with pulsating direct current, the latter by a breaker operated by the field magnet (f, h, i) and is switched off by an electromagnet (j) arranged in the alternating current circuit when the alternating current flows. q_. Electric clock according to claims i to 3, characterized characterized in that the direct current battery is charged from the alternating current network. 5. Electric clock according to claim i, and q., Characterized in that electromagnets (o, p) for actuating the interrupter (f, h, i) are arranged in the direct current circuit in the charging circuit of the battery. .