DE1081387B - Electric clock - Google Patents

Description

Electric clock except contactless operated by transistor circuits Watches in which a mechanical energy storage mechanism from the output is completely eliminated the transistor circuit of the gear folder itself in the cycle of its natural frequency drive pulses receives and passes this on to the pointer mechanism and where all difficulties the temperature and voltage influences on the accuracy are somehow compensated have to be, proposals are already known for contactless motorized clocks or brushless transistor motors to use them to create an energy store, preferably to re-tension a tension spring either continuously or periodically. Acts if the motors are running continuously, the constant power consumption is so considerable, that at least for small clocks with correspondingly small batteries as a power source such an arrangement is not practically feasible. Is it against it? to temporarily standstill transistor motors, so show these known arrangements only synchronous motors that cannot start by themselves and which also even when the motor is at a standstill, this may be a not insignificant one No-load current of the transistor circuit is present. Stopping the engine when the desired voltage level of the energy store is reached, but also that Requires restarting the engine after the energy storage mechanism has expired accordingly mechanical power transmissions, which are always due to the changing friction conditions are complicated and unsafe components.

On the other hand, there have been electromagnetic elevators for years the design principles are well proven with regard to the elevator mechanism itself, if you disregard the extremely annoying noises. But there with these in itself very inexpensive watches due to the very often required winding the Contacts are extremely stressed, so such clocks are very prone to failure.

The invention has set itself the task of the shortcomings of both known Eliminate systems and a simple transistor circuit operable to create periodic lift that is either completely contactless or just with practical completely powerless control contacts works.

In the case of the electronically fed, preferably by transistor circuits Drive devices for elevator systems for time-keeping electrical devices, preferably electrical clocks, the objects are achieved according to the invention in that the electronic Switching depending on the sequence of the mechanical energy storage mechanism periodically either by those who work practically without power, from the clockwork, in particular its winding mechanism, controlled contacts or via the clockwork, in particular its Elevator mechanism, periodically moving parts of the electronic circuit, i.e. contactless, can be brought into working position such that periodic pulses in from its output the drive coil of the elevator system are given, preferably such that this The drive coil is located in a blocking oscillator circuit of a transistor oscillator, which due to the practically powerless working contacts or those moving by the clockwork Parts of the transistor circuit arrangement can be unlocked periodically.

Should, for example, a small spring for bridging a balance watch can be used for driving a short time, with the rest of the watch construction takes place in the usual way via this spring drive with balance wheel, the drive magnet has z. B. to operate a winding lever for the small spring mechanism.

This drive magnet is expediently designed so that the Drive coil has an iron core or a permanent magnet with appropriate polarity attracts. The drive coil itself is in a circuit arrangement with a transistor.

The basic circuit of the transistor is expediently a blocking oscillator circuit. The blocking oscillator is only opened at the moment when a new elevator of the spring mechanism is required. The blocking oscillator circuit is z. B. structured in such a way that that the drive coil itself is part of this circuit either in the emitter or Collector circuit is: The associated coupling coil in the base circuit is z. B. on the The same bobbin is wound up with it, and it is unlocked either via an impulse from the winding system or via an impulse from a clockwork or the power storage process influenceable 'electrical switching element of the transistor circuit - is triggered, from the transistor circuit. The basic connection is z. B. not led directly to the coil, instead it becomes a capacitor interposed. Another third coil consists of a short-circuited winding with a relative high number of turns. By short-circuiting this coil, the blocking oscillator is automatic locked. Only when a voltage is induced in this coil does the blocking take place canceled. At the moment when the oscillator starts to oscillate due to unlocking is brought, a high current flows through the drive coil; and by pulling in or tightening the armature attached to the elevator, the elevator is actuated. The advantage of the circuit is that the level of the drive pulse is completely independent of the speed at which the excitation pulse is generated will. The excitation pulse only leads to the cancellation of the lock. The entire execution can thus be kept much smaller. There is a temperature dependency not at all. Regardless of the size of the negative impulse resulting from the Induction results, there is always a completely equal momentum with respect to size and duration available for the drive.

Unlocking can also be done in a number of other ways. The choice of suitable means depends only on the rest of the execution of the Clock. For example, two simple capacitor plates can be used. One plate is grounded and thus on the negative pole, the other plate, which one located on the elevator is at the base. The by the approach after This is caused by the change in capacity in the base circuit that occurs during the course of the elevator Oscillation and thus the generation of one that is only dependent on the oscillator itself Work impulse.

For watches that are used for any purpose, e.g. B. to replace the luminous material, are equipped with a small lighting lamp, there is also the possibility the lighting control. -For the purposes of lighting one brings in the dial corresponding to the minute digits, for example every 5 minutes, a small one Hole through which the light comes out, which is also the pointer with illuminates. This avoids the use of luminous material. The small Lighting lamps are arranged in such a way that for the final deflection of the lift lever for example light on one side through a small hole onto a photodiode or a phototransistor falls. This photodiode or phototransistor is so connected in the base-emitter circuit that a negative pulse at the base arises. It is also possible to switch the photodiode as a photo element and the to use the resulting photocurrent to make the oscillator start to oscillate. The oscillator continues to oscillate after the negative impulse has disappeared at the base of the transistor completely impossible.

Of course, everyone else can do the same Clocks such as rotary pendulum clocks or pendulum clocks or rotary pendulum clocks with additional Flywheel to be controlled.

A particularly simple embodiment of an elevator for an auxiliary spring mechanism can be constructed in the following way. All that is required is the part of the To use circuit, which causes the elevator itself electromagnetically. It A simple transistor amplifier circuit with stabilization resistors is sufficient for this in the emitter circuit and voltage divider resistors for the base. To the base itself a capacitor with a very high capacitance value is switched on, and this capacitor is briefly connected to the minus or plus pole of the transistor circuit for the elevator tied together. This creates the negative impulse required to trigger the Drive pulse in the collector circuit. The contact has only one Control current on the order of microamps. While with a pure Contact switching the actual drive pulse is determined by the time the contact is made is and therefore a very high current surge required to operate the elevator is, with this arrangement the actual switching time is in no way different from the Time of contact dependent. The time of current flow through the drive coil depends on the discharge time of the capacitor via the base and this time constant is in turn dependent on the interconnection of the base resistors with the capacitor. So it is completely up to you to choose the time constant so that with you relatively low current can be caused by the elevator over a long period of time can. For example, if you choose the elevator in the form of a rotating armature, you can open the axis of the iron core, which is drawn into another iron core while rotating the drive spring will also be attached. The pole pieces are through a Solenoid energized. The anchor is z. B. when the elevator runs outside the Pole segments: After the stator has been excited by the magnetic coil, this armature is turned into the poles are drawn in, and a torsional oscillating movement of the armature occurs. By this movement will wind the spring. About a ratchet wheel and a locking cone the force is transmitted from the spring to the movement. The connection of the capacitor takes place in the end position after the auxiliary spring mechanism has expired. the Contact arrangement can be chosen in different ways: You can also choose the coil combination perform so that the transistor circuit would oscillate by itself, and attached the actual core of the coil on the lever mechanism for the elevator. Is so the bridging spring mechanism has expired, this core is briefly immersed in the coil one, and this also causes the short-term high current surge for the Triggering the transistor circuit generated with the elevator magnet. By pulling in or tightening the armature, the bridging spring mechanism is wound up again and at the same time the core is removed from the coil. The process repeats itself periodically with the And the rewinding of the bridging spring mechanism.

Of course, the entire circuit arrangement is also possible so -to hit - that only an elevator impulse automatically every one or two minutes arises. The use of the various options depends only on the Price range of the watches to be provided with it. In the simplest version becomes the elevator wheel itself; which is mostly a ratchet drive gear, with a small additional 'tooth provided, which in the position in which the elevator must take place, briefly puts the capacitor on the minus or plus pole. Since here There are no high currents flowing - because all of the resistance values are very high-ohmic -, this switching process does not represent a contact in the usual sense, as there is no power flows over the contact, but it is only briefly the creation of a static Bring voltage to the base across the capacitor. In any case it is particularly advantageous, no simple amplifier circuit of the transistor to apply but to build an oscillator circuit. This oscillator circuit has the advantage that after the oscillator circuit has started to oscillate, the same driving force is constantly present is available. This driving force can be chosen so that for the voltage range, in which the elevator is still to take place, the elevator is always safely operated. as The particular advantage of this oscillator circuit is that it is independent of the The amount and duration of the actual unlocking impulse. This unlocking impulse can be via a capacitor discharge, via a magnetic excitation coil, via photodiodes or via a resistor circuit. Should, for special reasons, be a simple Transistor amplifier circuit come to -Application, the arrangement is a Capacitor for the discharge in the base circuit is particularly advantageous. This capacitor is briefly discharged through the auxiliary contact and then has to go through the base of the transistor can be recharged to the original voltage value. Of the the resulting current flow across the base causes the long switching time, which is available for the elevator or other drive.

For constructions where it doesn't really matter, one exactly to let the defined amperage act over the drive magnet over a longer period of time, but where for the operation of the elevator a short period of time with a high If electricity is required, the arrangement with the oscillator offers particular advantages. This oscillator is built with a core. But the core itself is in that Lift lever attached. As long as the core is not in the coil, it can the oscillator doesn't swing. Once the elevator has expired, the core plunges into it the coil combination and the oscillator starts to oscillate. By starting to swing there is a very high current surge in the drive coil, and the core is ejected, and with it the elevator is effected. The core is expedient to save energy designed as a permanent magnet.

With a torsion armature for the elevator, it is also possible to use the The trigger contact of the transistor base itself can be controlled by the rotating armature. The contact for the control of the capacitor discharge, however, as already stated, be placed in the following drive wheel, which is usually designed as a ratchet wheel. It can for this purpose. B. a special contact tooth can be used in this wheel. Basically, it only depends on the capacitor in the base circuit for a short time to discharge and thereby a current flow to recharge the capacitor bring about the base of the transistor. This current flow can either be a Switching transistor connected as an amplifier generates the drive pulse in the drive coil, or it can unlock the as an oscillator switched transistor circuit.

Claims (9)

PATENT CLAIMS: 1. By of electronic, preferably transistor circuits powered drive devices operated elevator system time-keeping electrical Devices, preferably electrical clocks, characterized in that the electronic Switching depending on the sequence of the mechanical energy storage mechanism periodically either by those who work practically without power, from the clockwork, in particular its winding mechanism, controlled contacts or via the clock mechanism, in particular its Elevator mechanism, periodically moving parts of the electronic circuit "so contactless, can be brought into working positions in such a way that periodic impulses from its output are given into the drive coil of the elevator system, preferably in such a way that this drive coil in a blocking oscillator circuit of a transistor blocking oscillator is due to the practically powerless working contacts or those of the clockwork moving parts of the transistor circuitry is periodically unlocked. 2. Arrangement according to claim 1, characterized in that the unlocking via a Capacitor with a resistor to form a time constant at the base of the transistor is arranged by contact closure after the mainspring mechanism has expired takes place, the capacitor being switched via the contact on one pole of the power source so that a base current flows while the capacitor is being recharged, which makes the oscillator start to oscillate. 3. Arrangement according to claim 1, characterized characterized in that two capacitor plates on a moving, from the clockwork or the trigger part driven by the running energy storage device and opposite are arranged on the stationary part of the housing. 4. Arrangement according to claim 1, with a transistor oscillator formed by a coil combination, thereby characterized in that one of the coil combination jointly assigned core on one Energy storage member, preferably the elevator lever, is attached. 5. Arrangement according to Claim 1 or 4, characterized in that a permanent magnet on the elevator lever is attached, which is immersed in an excitation coil and thereby tripping the Transistors caused, for example, by dipping into a third short-circuited Coil of relatively high resistance. 6. Arrangement according to one of claims 2 to 5, characterized in that a combination of resistors between the base, the Emitter and collector lines are arranged, with the size of the resistors is dimensioned so that there is normally a blocking of the oscillator and this periodically canceled by the release devices according to claims 2 to 5 will. 7. Arrangement according to claim 1, characterized in that a photodiode or a photo transistor, connected as a photo element or as a photo resistor, with a assigned perforated diaphragm by relative movement during the energy storage process is arranged to unlock the oscillator circuit. B. Arrangement according to one of the Claims 1 to 3, characterized in that the electromagnetic drive as Torsional oscillating armature and magnetic poles excited by magnetic coils is formed and that a contact device is arranged on the axis of the armature, which in the Claims 1 to 3 characterized way practically powerless the transistor circuit triggers. 9. Arrangement according to claim 1, characterized in that the contact is made on the associated ratchet wheels with at least one z. B. used contact tooth he follows. 10: Arrangement according to claim 1, characterized in that that the transistor circuit designed with the drive coil as an amplifier circuit and that the triggering of the amplifier circuit is over at the base of the transistor arranged capacitor and resistor by contact closure between capacitor and one pole of the power source, the size of the capacitor being selected is that only a short, very high surge of current to drive the sling lever arises. Publications considered: Deutsche Uhrmacher-Zeitschrift, 1957, Issue 2, pp. 47 and 48.