DE1155398B - Motorized clock - Google Patents

Description

Motor-driven clock In patent 1080 488 a motor clock is with a toroidal coil stator described, the toroidal coil cavity in its inner diameter is so much larger than the motor shaft that gear train parts can be accommodated in the cavity are, and the main feature of which is that the toroidal coil cavity and the gear train system are coordinated so that the whole of sinkers Gear train carried by the motor to the clockwise including the bearing plates can be accommodated in the cavity of the coil.

This embodiment ensures that a unit of Motor and drive or clockwork of as small dimensions as they were before has not yet been achieved.

The invention relates to an expedient further development of the findings according to the main patent by application to a special type of watch, the hitherto has only been realized in embodiments with larger spatial dimensions is.

The invention consists in the use of the motor clock assembly according to the main patent for a clock with an electromotive spring winding, modified in this way, that the motor-driven mainspring is coaxial with the ring coil, preferably concentrically is also arranged in the cavity of the ring coil.

Synchronous watches with a power reserve have also become known, which also combine an electromotive spring winding with a toroidal coil stator was. However, these known arrangements were not as contemplated by the invention coaxial or concentric structure of stator and mainspring present and as a result also not aimed at or achieved the compact structure through which the invention is excels. The time interval between the successive electromotive spring lifts can do this without any special effort, as long as it is the spring dimension of the im or coaxial to the coil cavity arranged mainspring allows, dimensioned relatively large so that the elevator z. B. only needs to be done about every 60 to 80 minutes, whereby the contacts are spared and a more reliable mode of operation as well long service life of the clock is guaranteed.

It is true that motor winding clocks are already known that are only available in large Time intervals, e.g. B. even only once in 24 hours. However, it is so far These well-known forms in a miniature version have been regarded as unimaginable to realize, as it is possible with the invention. According to an expedient Further development of the invention provides that the elevator motor as an external rotor is formed, which together with the toroidal coil forms the motor; This is expediently connected to the clockwork via a transmission gear, whereby the relatively slow elevator rhythm is due.

According to another expedient development of the invention takes place the switching on and off of the elevator motor by a jump switch and a him cam control device that switches on and off at specified time intervals, the preferably consists of two cam disks, one of which the jump switch in the Switch-on position, the others of which jump to the switch-off position at the moment leaves.

In the drawing, an embodiment of the invention is purely schematic shown; Here are in Fig. 1 for the sake of clarity, the individual groups of Drive shown "pulled apart"; in truth, as with the main patent the whole gear train inside the appropriately sized ring coil of the motor be stored including the boards. Instead of the drawn external rotor a "hollow" inner rotor can also be used, inside which the gear train can be accommodated. The periodic switching on and off of the elevator motor can can be controlled in any manner known per se, which is why in Fig. 1 the contact control is shown only schematically; in Fig. 2 is a particularly expedient execution of a spring switch shown, which alternately from a switch-on cam and a switch-off cam into its two switching positions is currently switchable. 1 means an electric battery, to which a magnet coil 2 is connected with pole pieces 5 made of stamped metal sheets is. The coil and the pole shoes together form the stator of the elevator motor. With 3, the rotor designed as an external rotor is designated. In the room 4 inside the ring coil 2 are provided in a corresponding manner as provided in the main patent is the. Movement parts described below housed-6 means one transmission woe from the engine 3 to the cam control device 7, 8 and the transmission gear 12 for the winding mechanism.

The cam control device 7, 8 operating on the switch for switching the elevator motor on and off is shown again separately in FIG. The switch is shown here as a spring switch 9, 10; 9 denotes a spring contact spring which comes into contact with the fixed contact 10 in the position shown in dashed lines. The cam control device 7, 8, which according to the exemplary embodiment consists of two cam disks, one of which causes the switch to switch to the switch-on position and the other to instantly switch it to the switch-off position, serves to switch the switch on and off at fixed time intervals.

13 means the mainspring. 14 means a transmission gear for the gear folder 15 and the pointer mechanism, of which a pointer transmission shaft 16 and a pointer 18 rotating in front of the dial 17 is shown in the drawing.

The contact control, the gear arrangements, the mainspring, the Gear folder and also the balance spring (not shown) are located in the interior 4. However, it is also possible to place the mainspring outside of this space, however also space-saving, coaxial with the ring coil 2 either at one of its end faces or to arrange it around the outside and concentrically to it.

The mode of operation of the arrangement is that of the spring drain controlled switching cams 7, 7 'the spring contact spring in a certain position 9 brings it to the other switch position. From that moment on it runs the rotor 3 with the winding of the clock spring. In a second position, after the spring tension sufficient rotor rotation, another switching cam 8, 8 'comes into effect, which one. Springing back of the switching contact spring 9 in its drawn drawn Causes initial position and thereby interrupts the motor circuit. The order can also be made so that during the running of the clockwork under the driving effect the rotor 3 also rotates "empty" in the opposite direction to the clock spring for so long, until the switching cams 7, 7 'again assumed the position shown in the drawing and the game starts all over again.

Claims (4)

PATENT CLAIMS: 1. Motor clock with toroidal coil stator, its toroidal coil cavity is so much larger in its inner diameter than the motor shaft that in the cavity Gear train parts can be accommodated, and wherein the toroidal coil cavity and the gear train system are coordinated so that the entire gear train carried by plates from the motor to the clock hands including the bearing plates in the cavity of the coil can be accommodated, according to patent 1080 488, characterized by the use of a clock with an electromotive spring winding, modified in such a way that the motorized Winding mainspring coaxially to the ring coil, preferably also concentrically is arranged in the cavity of the ring coil. 2. Motor clock according to claim 1, characterized in that that the motor rotor is connected to the mainspring by a transmission gear is. 3. Motor clock according to claim 1 or 2, characterized in that the motor rotor is designed as an external rotor. 4. Motor clock according to one of claims 1 to 3, characterized by a switch (9, 10) and a switch on at fixed time intervals. or disengaging cam control device (7, 8), which preferably consists of two cam disks there is one, the spring switch in the ON position, the other him can momentarily switch to the switch-off position. Considered publications: German Auslegeschrift T 9135 VIII d / 83b (published on November 15, 1956); U.S. Patent No. 2 430 872.