DE1058942B - Portable electric clock - Google Patents

Description

Portable Electric Watch The invention relates to a portable one electric clock, e.g. B. wrist or pocket watch, where the energy source is an electrical one Memory, in particular a battery, is used, which is constantly connected to the clock is, for example, is arranged in the watch case. For the construction of such a Electric clock one has hitherto sought to solve the following two problems endeavored: Firstly, the transformation of the electrical. Energy in a frequency controlled mechanical drive energy for the pointer mechanism and, secondly, constant recharging of the electrical storage device, with the aim of achieving the smallest possible dimensions in both cases was. As is known, attempts have been made to recharge the electrical storage device or to use several photocells. To generate the frequency-controlled mechanical As is known, attempts have been made to drive energy with the help of an electric motor A mechanical energy store, for example, via a mechanical lock a clock spring to be wound periodically or to be kept constantly wound to keep up with the mechanical memory in a known manner a gear regulator, in particular one Restlessness, and driving the movement separately from it.

The rate regulation was thus carried out purely mechanically. Another known solution is to use the balance wheel itself as the oscillating part of a electronically controlled, in particular driven via a transistor circuit Oscillating motor or as a mechanical clock generator of a transistor converter for supply of a revolving motor, whereby the inherently mechanical gear regulation is structurally combined with the motor drive. None of these attempts have so far been made a fully satisfactory functioning clock, in which both the spatial Dimensions as well as the production costs remain within acceptable limits, because both the electronic motor arrangement as well as the photocell arrangement far too expensive and require a very large number of parts, some of which are quite expensive.

The invention is based on the two problems posed to solve with other means, some of which have already been proposed, which not only are less expensive, but at the same time a particularly clever, space-saving one Allow interconnection.

The invention makes use of a systematic layer structure for this purpose of element groups. With electrical clocks, especially small clocks, both "Single-layer structures" known in which power source, electrical clock parts and mechanical clock parts are practically in the same plane, which reduces the overall height, the size of the caliber increased, as well as »multilayer structures«, in which, for example the current source is in one layer, the electrical one in a second layer Parts; possibly in a third layer the mechanical parts, this arrangement has the advantage of a smaller caliber size, but the disadvantage of a larger overall height.

The invention aims for a minimum space requirement with a small caliber and small overall height by using individual element groups, especially coordinated with one another, can each be combined in one layer.

In a portable electric watch, e.g. B. wrist or pocket watch, with a multilayer structure in which the power source is arranged in one layer is, this object is achieved according to the invention in that in this layer except the power source designed in a manner known per se as a rechargeable battery a charging device is arranged so that the power source and charging device are approximate have the same height, and that in a second layer arranged above an electronic Oscillator is arranged with a motor driven by it such that the expediently at the same time the coil arrangement of the oscillator forming the coil arrangement of the motor is arranged rotationally symmetrically on the circumference of the layer.

Another solution that can also be combined with the first solution in the case of an electric watch with an electric that is temporarily automatically charged DC storage, in particular accumulator, and electronic drive control, preferably transistor control, the charging current source in already by the inventor proposed way as a by relative movement of at least two of its parts -to each other power-generating generator is formed according to the invention in this, that the movable part of the generator is designed and mounted such that he an oscillating movement within a limited angular range of, for example executes at most about 300 °, and that the remaining angular range for the accommodation the direct current storage is used up.

The motor driving the pointer mechanism is useful as a synchronous motor formed with split poles and z. B. at one of the electrical DC storage powered electronic low-frequency circuit connected. The low frequency circuit expediently consists of an electronic device already proposed by the inventor Oscillator arrangement, which is characterized in that the input and output circuit an electrically controllable semiconductor component, e.g. B. a transistor, a Double base diode, a ring modulator with a ferrite core, a Hall probe, or one other electronic components with pronounced switching action via impedances or corresponding delay elements are fed back in such a way that the frequency of the Switching process and the resulting oscillation of the circle essentially by the delay time of the feedback process - for example by the Phase shift of the electric current in two feedback coils - determined is.

According to a particularly powerful, because particularly space-saving Further development of the invention form the output and input circuit of the electronic Oscillator assembly feedback coils wholly or partially the windings, preferably Stator windings, of the synchronous motor, which is preferably with a permanent magnet rotor Is provided. The synchronous motor expediently consists of a known one Magnet arrangement with pole pieces consisting of punched metal sheets, which, the coils from the outside gripping like pliers, next to this form a pole wreath, inside of which a pole wheel is arranged, and in which in itself already by the inventor proposed way of the magnetic core in whole or in part from extensions of the consists of two pole pieces, each of which forms a common stamped part with these, with one extension from one and the other extension from the other Page into or into the coils. protrude through this.

Because the constant frequency regulating the gear is electronic is generated circuit-wise directly behind the electrical energy source, the advantage is achieved that then only one synchronous motor is used needs to be, which the pointer mechanism directly - possibly with the interposition a transmission gear - able to drive. Possibly the synchronous runner to be combined with a locking mechanism that guarantees a clear direction of travel.

The synchronous motor can in the present embodiment expediently as External runners are used. The direction of travel is determined by the use of the shaded pole principle achieved. The motor itself is a hysteresis motor, consisting of the following four Parts: a) magnet or drive core made of dynamo sheet, b) excitation coil, c) steel disk or rotor drum made of cobalt steel, d) short-circuit rings made of copper.

described arrangement could now, for example, with a photocell arrangement are combined, which in a known manner the electrical energy source, especially the accumulator, constantly recharging.

The dynamo or the recharger can also be so arranged; that the permanent magnet designed as a vibrating armature is not designed as a sector, but via a reduction in a manner known per se from an oscillating pendulum elevator, as it is used in the automatic watches.

In the drawing is an embodiment of the clock according to the invention for example shown. 1 to 5 show the structural arrangement; in Fig. 6 the electrical circuit is illustrated.

Fig. 1 shows the back cover 1 of the electric clock according to the invention. The gaps 2 serve as holding grooves for the tool for screwing on the cover.

Fig. 2 shows the first layer of the electric clock according to the invention, on which the cover 1 can be placed. It consists of the battery 12 'and one ring-shaped part on which some induction coils 3, 4, 5 and 6 are arranged like a ring are each having an iron core 3 ', 4'; 5 'and 6' enclose and electrically one behind the other are switched. 7 means a sector-shaped iron pendulum, which around the axis 8 is rotatably mounted. The pendulum 7 is magnetized in such a way that it is close to the axis has its north pole N and at the periphery by more or less deep incisions has separate south poles S. The pendulum 7 can also be magnetized so that alternately a north and a south pole follow. The circuit of the coils must then be based on a Graetz rectification system be matched. When the clock moves, the pendulum 7 swings in the direction of the Arrow 9 back and forth, generating current pulses in the coils 3 to 6 ', the A high-quality battery (accumulator) 12 is supplied via the leads 10 and 11 thereof will. The pendulum 7 is limited in its movement path by stops in such a way that that to accommodate the battery 12, a sector of about 60 ° remains. The pendulum 7 itself consists of a high quality ferrite material.

Fig. 3 shows the second layer of the electric watch according to the invention. 13 is a hysteresis ring made of cobalt steel that serves as a runner. 14 means a sheet metal belonging to the rotor part of the motor. The openings 15, 16 and 17 are provided for weight reduction. 18 denotes a winding that is off; two coils wound one above the other, electrically closely coupled to one another, which on the one hand form the stator of a synchronous motor and on the other hand are in the input or output of a transistor 19 connected to the battery (FIG. 4). In Fig. 4, the actual engine with the necessary reductions is indicated, in which the switching means, such. B. transistor and diode are installed. 21 means the axis for the rotor; 20 means the plate carrying the dial. In Fig. 5, the housing cover 36 is shown as the last layer.

The circuit structure is divided according to FIG. 6 into five main sections "I" to "V": "I" includes the generator part, which consists of the pendulum part 7, which in this case it is shown with two movable poles N and S facing each other the pole pieces 3 'and 4' of the generator coil 3 move. 26 is a back discharge the battery preventing rectifier, which at the same time to Rectification of the alternating current generated during the reciprocating movement of the pendulum 7 is used.

“II” includes the electrical storage device in the form of the battery 12.

"III" includes the electronic oscillator, which controls the direct current the battery converted into alternating current and at the same time the frequency regulator of the clock forms. According to the example, it consists of a transistor 19, in its input and output Output circle the two coils 18 and 18 'lie.

"IV" includes the drive motor, which is frequency-controlled by part "III" is fed. It consists of a synchronous motor, with shaded poles 31 and 32 and one Flywheel rotor 33.

"V" includes the display with the gear train 34 and the pointer arrangement 35.

The invention is not restricted to the exemplary embodiment. Except already indicated modifications in the mechanical structure and in the electrical Circuit is z. B. to think of the moving part of the generator with a manually operated mechanical Aufziehorgan to couple, so that the clock either with a key or a fixed pull-out button at least additionally in accordance with Art the usual winding-up process for mechanical watches can. It is also possible to use the adjusting device for the pointer or in the case of a capsule pocket watch with the lid in such a way that each When actuated, electrical charging or recharging takes place.

The pointer gear train can be greatly simplified under certain circumstances, that the electronic oscillator operates at frequencies below 100 Hz or even better 10 Hz is measured. Except for those mentioned in an older proposal by the inventor and the possibilities outlined above, this can also be done under certain circumstances by applying them or a combination of other or different semiconductor components. So - can for example by combining two electronic circuits according to Fig. 6, part "III" a beat frequency can be generated so that z. B. the second hand can be driven directly without translation. On the other hand, slow oscillation processes can be observed also by double base diodes or other thread semiconductor components with possibly several emitter - and possibly collector electrodes, which are between two non-blocking Base electrodes of different potential are arranged, low frequencies produce.

Furthermore, in the dimensioning of the electrical quantities in proposed way to note that the mechanical and electrical links not only be created in such a way that for the longest possible operability and protection the battery is below a maximum of the current strength, but that on the other hand the current intensity reaches a minimum, which is given by the fact that after some Days of the current flow over the longest possible time a straight line voltage curve results. In particular, the minimum current strength must be such that the Cathode does not form active hydrogen.

Claims (7)

PATENT CLAIMS: 1. Electric clock, e.g. B. wrist or pocket watch, with a multilayer structure in which the power source is arranged in one layer is, characterized in that in this layer, in addition to the known per se Way designed as a rechargeable battery power source a charging device is arranged so that the power source and charging device are approximately the same height, and that in a second layer arranged above an electronic oscillator is arranged with a motor driven by it so that the expedient at the same time the coil arrangement of the oscillator forming the coil arrangement of the motor is arranged rotationally symmetrically on the circumference of the layer. 2. Electric Clock, e.g. B. wrist or pocket watch, with temporarily automatically charged electric DC storage, in particular accumulator or element, and electronic drive control, preferably transistor control, preferably according to claim 1, wherein the charging current source in the manner already proposed as one by relative movement of at least two its parts are designed to generate electricity to each other, characterized in that that the movable part of the generator is designed and mounted such that he an oscillating movement within a limited angular range of, for example executes at most about 300 °, and that the remaining angular range for the accommodation of the DC storage is used up. 3. Portable electric watch according to claim 1 or 2, characterized in that in the second layer within the coil arrangement (18) both the motor and the gear train of the clock and, appropriately, that too Switching element or the switching elements of the oscillator are arranged. 4. Portable Electric clock according to one of Claims 1 to 3, characterized in that the Motor is designed as a synchronous motor, preferably with shaded poles. 5. Electric Clock according to one of claims 1 to 4; characterized in that in individual layers Shields (14) e.g. B. of the engine, possibly with openings (15, 16, 17) intended for connections within and / or between the layers are. 6. Electric clock according to one of claims 1 to 5, characterized in that that the movable part (7) of the charging current source and / or an additional charging element is coupled with a manually operated Aufziehorgan. 7. Electric clock after one of claims l to 6, characterized in that the electronic oscillator, optionally by using at least one thread semiconductor component Frequencies below 100 Hz, preferably below 10 Hz, is dimensioned. B. Electric Clock according to one of Claims 1 to 7, characterized in that the electronic Oscillator, in particular by frequency superposition, to such a low frequency is dimensioned that a pointer, z. B. Second hand, without old mechanical translations can be driven directly by the synchronous motor. 9. Electric clock according to one of the claims l to 8, characterized in that the mechanical and electrical links in already proposed are not only dimensioned so that to save the battery a maximum the amperage is below, but that on the other hand the current intensity reaches a minimum, which is given by the fact that after some Days of the current flow for as long as possible a straight current course and no active hydrogen is formed at the cathode. Considered Publications: French Patent No. 549 785.