DE1115644B - Electronic pendulum clock - Google Patents

Description

Electronic pendulum clock There are already different constructions for electronic, d. H. Pendulum clocks controlled contactlessly via semiconductor circuits known. In these constructions, permanent magnets are arranged in the pendulum body. The individual constructions differ among other things in that with some the permanent magnet is perpendicular to the pendulum axis and oscillates in a coil system, in other constructions of this type the permanent magnet, however, is in the pendulum axis is arranged and overshoots a coil system housed in the base. These Arrangements have a number of disadvantages: 1. The arrangement of the clocks must be done very precisely, otherwise the pendulum will hit or no longer hit the central axis of the coil system this overshoots. This results in inaccuracies in speed or even the clocks stop at the slightest shock or when bumped.

2. As a result of the permanent magnets oscillating back and forth, the Clocks should not be placed near iron masses. Even with the smallest Iron parts in the immediate vicinity occur gait changes. The setting up an iron plate brings the clock to a standstill. Magnetic interference fields can also significantly affect the gait.

3. The bobbins must be made relatively very large, since the permanent magnets to be accommodated in the pendulum body are kept correspondingly small must be so that the elegant appearance of the watches is retained. Permanent magnets With a small diameter but require coils with a high number of turns, so a sufficient height of the excitation pulse for the transistor circuit can arise. Due to the relatively large expansion of the coils, the induction is in the The excitation coil is far too long, which contradicts the isochronism conditions, and at the same time the power consumption for the drive pulse is due to the too long duration too high.

4. Due to the disproportionately large bobbins and the high number of turns there are high resistances to the emitter in the base circle, which makes a relatively high quiescent current flows in the circuit. This also reduces the power consumption unnecessarily enlarged. Furthermore, the temperature compensation and the Influence of the supply voltage far beyond the permissible level for easy elimination difficult. Even with blocking oscillator circuits, the influence of temperature and not switch off the voltage completely. 5. Because of the high power consumption for everyone Previously known constructions can only be used with the clocks with great effort Operate rechargeable batteries. Such rechargeable batteries, in particular NiCd cells already have a very high proportion of self-discharge, and through the power consumption of the clock, the cells have to be chosen for a very high capacity will. This makes the rechargeable battery uneconomical, and the z. B. Charging switch elements suitable for the socket network connection and containing the battery Plug-in units are getting too big. The operating time of the clocks is too short between one charge and the required reload.

Various designs are known to avoid these disadvantages. For example, for a gravity pendulum clock, two have opposite poles in the direction the pendulum vertical polarized permanent magnet with an iron yoke, which with swing the pendulum, used to concentrate the force line field that the fixed, coaxial to the pendulum vertical, so in their winding paths to her vertical flat coils (exciter and drive coil) interspersed. To further reduce of the stray field is another iron return plate below the stationary coils arranged. This creates a dome-shaped magnetic field in the zero position, but after the transistor is blocked, this fixed iron plate has a braking effect on the oscillating pendulum magnets, and the influence of disruptive external magnetic fields is at least still present when the pendulum magnets have swung out of the zero position are. The coils have also been installed in the gear folder for balance-regulated watches and the permanent magnets are fixed because you are on these Create a better concentration of lines of force by using several magnets and one or more iron yokes can achieve. This last-mentioned system already has the advantage that the influence Interfering external magnetic fields or iron parts in the vicinity of the watch are switched off is, but on the one hand you are on very high coercivity, i.e. expensive bar magnets instructed, on the other hand brings the power supply to the coil combination on the Balance major difficulties, since you have at least three power leads in this Case needs. These difficulties are reduced if, as is the case with a contact watch is known, coil and spark-quenching transistor and other resistors the balance wheel itself are attached, but again with the most favorable magnetic field concentration is not sufficiently taken into account. For pendulum clocks with a "visible" pendulum (Glassturzuhren) there would be enough space for larger magnets stand. The task here, however, is to keep the magnetic field small Concentrating coils and yet maintaining the elegant appearance of the system.

To solve this problem, an electronic watch with several fixed permanent magnets and at least one of the magnets driving influenced coil on the vibrating mechanical gear folder itself, furthermore the electronic semiconductor, preferably a transistor, itself, optionally further parts of the transistor circuit are also attached to the gear folder, furthermore, the stationary magnets are assigned to one another so that they are at the moment the drive impulses a penetrating the at least one coil on the balance wheel Form magnetic image, according to the invention an arrangement selected with use in a Gravity pendulum clock with known per se, two opposite poles in the direction of the parallel permanent magnets polarized to the pendulum vertical on an iron tailpiece, the the coil during the relative movement of the permanent magnet and coil or coil combination or coil combination with a coupling field influence or influenced by him are, however, modified in such a way that the fixed permanent magnets towards the pendulum vertical. from the carrier plate arranged below them are so inclined and such an arrangement of the combination of at least a control coil or one that exerts its function and can be influenced by a magnet Element and a drive coil in the pendulum body is chosen that that of the fixed Magnets exiting dome-shaped magnetic field this combination on concentrated Space penetrated with as little scatter as possible at the moment of the drive pulse, preferably the power supply to the (coil) combination and to the semiconductor, preferably transistor, in the pendulum body once through the mass of the pendulum body and on the other hand via one in the pendulum hollow rod housed wire takes place.

The coils can be made very small in the arrangement according to the invention will. In the case of a concentric coil arrangement, the transistor is expediently direct housed in the cavity of the inner coil, so that a very small pendulum body enough. In this pendulum body there is also what is to be moved up and down Weight for regulation with housed. In the pendulum hollow bar you can of course also two wires can be accommodated, which also act as a hollow body built-up support structure to the battery in the base can be guided completely invisible. Since the pendulum travel is relatively short, there are high flexibility in use Cables no particular difficulties. In the case of electrical relays, etc., such Cables with decades of service life have been used for a long time. The power supply but can also be done via permanently closed contacts, for example by the commonly used small leaf springs, insulated from each other, attached. With two leaf springs, one can either be attached directly to the mass or also attach both, isolated from the mass. With ball bearing suspension of the pendulum the same principle can be applied.

As permanent magnets, you can have any size in the base without the restriction that otherwise exists when they are placed in the pendulum, use. It is also possible for more than two permanent magnets to be attached to an iron yoke be. These magnets are inclined towards each other at an angle towards the top and have alternating poles, so that a closed magnetic field is created. For concentration The magnetic field can be inside and outside the actual permanent magnet Mu-metal rings can still be provided. The magnets sit directly under the cover plate or the cover plate made of plastic, so that the magnetic field is dome-shaped this cover plate rises. With such an arrangement, any influence of Iron masses etc. completely abolished. This is because it is in the body of the pendulum itself no more permanent magnet.

The coils can both in their diameter and in relation to the number of turns can be reduced to the smallest values, since the magnetic field is arbitrary can be trained strongly.

The switch-on time is reduced to a fraction by these small coils reduced, so that the power consumption is only a fraction of this Switch-on time decreases compared to other constructions. There are the Ohms too Resistance values, in particular for the excitation coil, will be very much lower the base is not negatively biased with respect to the emitter, and therefore cannot Continuous current flow.

Due to the much stronger magnetic field, the power consumption can also be reduced are reduced in the drive coil. Even the smallest currents in the order of magnitude of microamps are still sufficient to drive the pendulum through the drive pulse in the drive coil to deflect from the central axis to each side.

By arranging the magnets and the coil and pendulum bodies accordingly it can even be achieved that a drive pulse only ever goes in one direction, z. B. from the end position takes place. As a transistor circuit is sufficient in this Case even a simple amplifier circuit. But it can also be a blocking oscillator circuit or any other circuit arrangement for generating a current flow in the collector or emitter circuit depending on the base excitation.

Instead of a transistor, a pendulum swinging one can also be used magnetic field-dependent semiconductor resistor be provided, which then at the same time a makes special control coil superfluous, or a controlled diode find use as a thyratron circuit. Also the use of a very small one Iron core is possible.

With the low currents required, there is even the possibility of to switch a transistor with the associated coils as an RF oscillator. This RF oscillator is designed so that it is outside the magnetic field due to lack of coupling does not oscillate between the coils and only through the coupling via the magnetic field is made to oscillate.

The construction of these pendulum clocks has the advantage that when setting up the clocks do not require any particular accuracy of adjustment. Without The coil system swings through the dome-shaped magnetic field through significant scattering losses.

The clocks can also be elegantly designed with respect to the pendulum body due to the small dimensions of the coils and the miniature semiconductors Impose restrictions on execution.

Power consumption is cut to a fraction, making it rechargeable Batteries can be used as a power source for a long period of time. Even for The known plug-in devices can run for over a year with the accumulator and a recharging circuit for plugging into the clock or for charging in a socket of the lighting network the size of a normal plug are executed.

Claims (2)

PATENT CLAIMS: 1. Electronic clock with several fixed permanent magnets and at least one coil, which is driven by the magnets, on the oscillating mechanical gear folder itself, furthermore the electronic semiconductor, preferably a transistor, itself, and possibly other parts of the transistor circuit, are also attached to the gear folder Furthermore, the stationary magnets are assigned to one another in such a way that at the moment of the drive impulse they form a magnetic field penetrating the at least one coil on the balance wheel, characterized by the use in a gravity pendulum clock with known two permanent magnets polarized in opposite polarity in the direction parallel to the pendulum vertical on an iron tail piece, which influence or are influenced by the relative movement of permanent magnets and coil or coil combination in with a coupling field, but modified in such a way that the fixed permanent magnets n in the direction of the pendulum vertical from the support plate arranged below them are inclined at such an angle and such an arrangement of the combination of at least one control coil or an element that can be influenced by a magnet and a drive coil in the pendulum body that exerts its function is selected that that of the stationary The dome-shaped magnetic field exiting magnets penetrates this combination in a concentrated space with as little scatter as possible at the moment of the drive pulse, whereby preferably the power supply to the coil combination and to the electronic semi-conductor, preferably transistor, in the pendulum body through the mass of the pendulum body and on the other hand via a hollow rod housed in the pendulum Wire is done. 2. Clock according to claim 1, characterized in that not only one wire, but two wires for power supply are arranged in the pendulum hollow rod and the power supply to the pendulum rod takes place via the mutually insulated short pendulum leaf springs or via the storage of the pendulum arranged with isolated parts . 3. Clock according to claim 1 or 2, characterized in that the pendulum rod itself is made in two parts with mutually insulated parts. 4. Clock according to one of claims 1 to 3, characterized in that annular mu-metal shields are arranged inside and outside of the obliquely upwardly extending magnets. 5. Clock according to one of claims 1 to 4, characterized in that the semiconductor is arranged in the cavity of a coil. 6. Clock according to one of claims 1 to 5, characterized in that a displaceable weight is additionally arranged in the pendulum body. 7. Clock according to one of Claims 1 to 6, characterized in that the transistor circuit with the coil combination is designed as an amplifier or blocking oscillator circuit. B. clock according to one of claims 1 to 7, characterized in that the transistor circuit with the coil combination is designed as an RF oscillator which can be triggered for a short time during the relative movement of the coil and magnet system. 9. Clock according to one of claims 1 to 6, characterized in that a magnetic field-dependent resistor is arranged in place of the transistor. 10. Clock according to one of claims 1 to 6, characterized in that a diode arrangement controllable as a thyratron is arranged in place of the transistor. 11. Clock according to one of claims 1 to 10, characterized in that a very small iron core, like the coils, is arranged in the pendulum body. 1. 2. Clock according to one of claims 1 to 11, characterized in that the permanent magnets are arranged in the base so that the dome-shaped magnetic field is effective at one end of the pendulum swing. 13. Clock according to one of claims 1 to 12, characterized in that the permanent magnets are arranged invisibly with a sheet brass or a plastic cover in the base of the clock. Considered publications: Swiss Patent Specifications No. 339 880, 341733; French patents No. 1 134 560, 68 406 (addition to No. 1090 564), 70 016 (addition to No. 1090 564).