DE1673799C3 - Electromotive winding device for clocks - Google Patents

Description

60

The invention relates to an electromotive winding device for watches, in which periodically An electric motor draws up a storage of potential energy, which in turn is the timer drives.

Such periodically operating elevator devices, in which generally a battery-powered The electric motor pulls up a spring accumulator in equal time intervals via a worm gear on a large scale for driving clocks of all kinds, in particular kitchen clocks, wall clocks, table clocks and style clocks as well as alarm clocks and other clocks used in the household, including their high accuracy and their maintenance-free operation has largely been implemented.

In these known clocks, the winding movement takes place at intervals of a few, for example five to ten minutes each time after a rotation of a switching wheel driven by the spring, which causes the motor to be switched on. In such clocks, as in electromagnetically wound spring stores, which are also known as clock drives, the noise of this winding movement can never be completely avoided, even if, which is generally not the case. Noise damping means are provided on the watch case. These elevator noises, which generally go unnoticed during the course of the day, can be clearly perceived at night, but also at other times when the ambient noise level is low, and they are often found annoying, especially with alarm clocks that are in the immediate vicinity of the sleeper , especially by people who have difficulty falling asleep.

The invention is based on the object of designing such an elevator device so that the per se unavoidable elevator noises are no longer perceived as annoying, while at the same time the structure is robust and functionally reliable.

This object is achieved by the invention specified in claim 1.

The invention makes it possible to adjust the elevator device so that the unavoidable Noise-related elevator process takes place at a time at which it is not individually is perceived as annoying. This can be the night time, it can also be a time of day when such a thing is happening There is a high level of noise that disturbance of people is not to be expected.

The setting can also be made so that the process takes place when a noise is desirable, for example, to exercise an alarm function. According to a preferred training According to the invention, a combination of the elevator device with an alarm device is more acoustic or optical type provided in such a way that the elevator electric motor during the operation of the alarm device tension the energy storage. Then the elevator noise supports the wake-up process with an acoustic signal Way if this z. B. should be effected by light signals. In any case, a disturbance is avoided.

It is in contrast to the above-described conventional elevator devices which switch with a short period time an energy store, preferably in the form of a drag spring, designed such that the elevator movement only at greater intervals on the order of hours, especially in the Order of magnitude of a day (24 hours) is necessary.

As a store of potential energy, a weight could also be lifted by the elevator motor as it is necessary for the expiration of the timer for a day. However, if a compact construction

• If required, the use of a spring accumulator is recommended. According to Art of a conventional alarm mechanism, the alarm trigger spring, de.en trigger time is adjustable by the alarm clock, interact with an electrical switching device must, on the one hand a switching on of the electric motor at the desired time and on the other hand a Shutdown guaranteed after the elevator movement is complete.

The invention is explained below using an exemplary embodiment shown in the drawing. In the drawing shows

F i g. 1 is a view of an alarm clock with the elevator device according to the invention in normal Ab- ! lightening,

F i g. 2 the in F i g. 1 shown alarm clock in alarm relle,

F i g. 3 shows a single view of the bell of the alarm clock according to FIG. 1 and 2.

Between the boards 10, the timer of conventional design is mounted in the usual way, its details need not be further described. A spring accumulator 11 drives with its output gear 12 this Zeitwerk. The spring store 11 in turn is tensioned via a winding wheel 13, which has a Screw 14 is driven periodically by the shaft 15 of a battery-powered electric motor 16. In the excitation circuit of the motor there are two electrical switches connected in series, the first of which is off a switching lever 18 lifting a brush 17 from the collector 15a, which is connected to the alarm release spring 19 is connected. The second switch is formed by contact springs 20, 21 which are mounted on a switching axis 22 are attached, which in turn is rotatably mounted between the plates 10, but axially displaceable. One Compression coil spring 23 biases this intermediate switch 24 upwards against the release spring 19. the Intermediate sounder 24 or its contact spring 20 is actuated by a switching pin 25, which is from the winding wheel 13 protrudes parallel to the switching axis 22. The switch actuation and function are described below.

The release spring 19 tensions a disk 26 rotating with the hour shaft against the alarm setting wheel 27, which is connected to an alarm setting pointer 28. The alarm setting wheel is set the arrangement is such in the usual manner by means of a dial 29, and in a likewise known manner made that at the set time a cam located on the disc 26 into a recess of the alarm setting wheel occurs or vice versa, »o that the release spring according to FIG. 1 up into the Position according to FIG. 2 can emigrate. With this movement of the release spring, the brush 17 Filed to the collector 15a of the Motcrs 16 because of the Shift lever 18 with the release spring 19 is raised. The contact springs 20, 21 of the intermediate switch 24 were already closed beforehand so that the motor 16 can start and with its shaft 15 and the worm 14 drives the elevator wheel 13. The switching axis 22 is raised under the action of the spring 23 and follows the release spring so that its contact spring 20 is in the range of motion of the one provided with the winding wheel 13 Shift pin 25 arrives. This has the effect that after one revolution of the winding wheel 13. Tensioned over the spring of the spring accumulator 11 is, the switching pin 25 lifts the contact spring 20 from the contact spring 21, so that the circuit is interrupted and the motor is stopped.

After a certain time, the cam of the disk 26 moves out of the recess of the setting wheel 27 out, and the release spring is returned to the position shown in FIG. 1 apparent position. It will first the brush 17 is lifted off the switching lever 18 again, and the contact spring 20 is out of the range of motion of the sonic pen 25 led out, since the switching axis 22 counter to the action of the spring 23 is displaced by the release spring 19 so that the contacts 20 and 21 come into contact again. the Switching device is therefore prepared for a further elevator movement, which after the expiry of z. B. 24 Hours can take place when the release spring 19 again initiates this winding process. At this When the tripping process is initiated again, the contact spring 20 is already back in the direction of movement behind the switching pin 25, so that this does not affect the contact until the winding wheel has finished running can cause.

From Fig. 3 it can be seen that the motor shaft 15 driving the winding wheel 13 via the worm 14 its end carries a crank 30 with a clapper 31 which interacts with a bell 32. The bell 32 is pivotable about an axis 33 by means of a handle 34 so that it is out of the range of motion of the Klöppels 31 can be brought out.

For this purpose 2 sheets of drawings

Claims (10)

Patent claims: 1. Electromotive winding device for watches, in which periodically an electric motor Storage of potential energy is drawn up, which in turn drives the timer, characterized by that the activation of the electric motor (16) for the purpose of drawing up the energy store from a sequence element of the timer is derived and that this sequence element is time-divisible and the activation to one causes predetermined time 2. Elevator device according to claim 1, characterized in that the energy store is preferably is dimensioned in the form of a drag spring such that the elevator movement only after expiration several hours, especially after 24 hours, is required again. 3. Trigger device according to claims 1 and 2 for equipped with a wake-up device Clocks, characterized in that the elevator electric motor (16) while the alarm device is running the energy store (11) tensions. 4. Elevator device according to claim 3, characterized in that the alarm device at the same time when the elevator motor (16) is switched on by a timing element (26) will. 5. Elevator device according to one of claims 3 and 4, characterized in that the elevator motor at the same time drives the alarm device (31,32) when it expires. 6. Elevator device according to claim 5, characterized characterized in that a motor shaft driving the winding wheel (13) of the energy store Clapper (31) is arranged for an acoustic alarm device. 7. Elevator device according to claim 6, characterized in that one of the clapper of the motor shaft acted bell (32) can be moved out of the range of motion of the clapper. 8. Elevator device according to one of claims 1 to 7, characterized in that an intermediate switch (24) by an alarm trigger spring (19) of the timer in the circular path of a on a winding wheel (13) eccentrically mounted pin (25) can be inserted. 9. Elevator device according to one of the claims 1 to 8, characterized in that the alarm release spring (19) with a switching lever (18) the brush (17) of the electric motor (16) in drain mode lifts off the collector (15a) of the motor. 10. Elevator device according to claim 8, characterized characterized in that the intermediate switch (24) is carried by a switching axis (22) which extends axially in the circuit boards (10) out and under the action of the alarm release spring (19) is.