DE2131476C3 - Quartz crystal wrist watch - Google Patents

Description

60

The invention relates to a quartz crystal wrist watch with a mechanical block containing a pointer gear train and an electromechanical transducer and approximately in the center of the round edged Clockwork housing is arranged, with a structural unit which has a drive coil of the converter with a battery block, with one in the edge area of the clockwork case or comprising the mechanical block arranged carrier device on which an oscillator and frequency control circuit and a driver circuit are kept executed in integrated circuit technology, and with a frequency adjustment device.

A watch of this type is under the British Patent 11 77 523 became known. In addition to the battery block, the carrier device and a part of the electromechanical transducer are still an oscillating crystal in the edge area of the watch case and an induction coil is arranged, which is part of a parallel resonant circuit of the oscillator circuit. In order to there are two essential parts of the oscillator device serving as a time standard outside of the Carrier device and thus require separate assembly, which means a corresponding effort. However, it is likely to be even more disadvantageous that the oscillator device is not fully assembled as a whole Condition outside of the watch case, a test run and the necessary adjustments can be subjected to. Access to the parts within the watch case is difficult, this also makes itself felt with regard to the maintenance and replacement of individual parts of the oscillator device disadvantageously noticeable. By arranging parts of the oscillator device outside the carrier device appropriate detachable electrical connections are required within the watch case must be accessible. This results in a disadvantageously high space requirement in the circumferential direction of the Watch case seen; finally, the one is stacked in the direction of the thickness of the watch case Arrangement of the quartz crystal and the induction coil with regard to a flat design of the watch from Disadvantage.

In contrast, the invention is based on the object of creating a watch of the type mentioned above, di «a space-saving, easy-to-use structure and economic testing or maintenance of the entire oscillator device allowed. The individual components should be exactly one take a defined position to each other.

The object is achieved according to the invention in that the carrier device has a housing made of plastic with chambers, of which a part towards the front and another part towards the rear of the housing is designed to be open, with a quartz crystal vibrator in the chamber space which is open at the front Frequency adjustment device and a temperature compensation device and in the chamber space, which is open at the back, the MOS technology oscillator and frequency divider circuit and the driver circuit for driving the electromechanical converter are stored.

All parts of the oscillator device are therefore embedded in the housing according to the invention, beginning from the quartz crystal vibrator as a clock generator for the oscillator circuit, which is completely housed in the housing via the frequency divider circuit up to and including the driver circuit for shaping the incremental signals to be sent to the electromechanical converter. In this way they are reduced electrical connections that have to be made with neighboring elements after inserting the housing, the connections to the battery block and those to the electromechanical converter. In this way

This saves space within the watch case, while at the same time the installation effort is reduced. Of particular importance is the possibility of being able to subject the entire oscillator device to a test or adjustment ω before it is installed in the watch case. It is particularly advantageous that the individual parts of the oscillator device can already assume their final position with respect to one another, so that coupling influences and the like of the parts with respect to one another are also taken into account. In addition, the housing creates simple options for arranging appropriate shields.

Some of the components housed within the housing, in particular the integrated circuits and the frequency adjustment device can be made much flatter than other parts, for example the vibrator. The formation of chambers in the housing that open towards opposite broad sides Now creates the particular advantage that such particularly flat assemblies in terms of the thickness of the Housing can be arranged one above the other, but without having to remove one of the assemblies in order to the other to be able to approach. In spite of the thickness of the clock, each assembly is therefore arranged one on top of the other directly accessible and interchangeable, which simplifies maintenance. the The possibility of a flat design of the frequency adjustment device arises in particular when for this purpose one can be changed in stages by connecting electrode sections Provides capacitor

The z. B. from DT-OS 19 28 878 known training of the oscillator circuit and the divider circuit - eg 15-stage flip-flop divider with reset circuit - in MOS technology has the advantage of even less space compared to the previously used hybrid IC technology, they can for example be formed on an area of about 2 mm ² . Even if this circuit arrangement is embedded in a plastic, for example in an epoxy resin, in order to keep moisture out, the space required for the oscillator and divider circuit in MOS technology can be reduced to half to a third of the space required for the conventional design of these circuits occurs only in integrated technology. This measure also saves space in a known manner, which is important in particular with regard to the possibility of arranging assemblies one above the other in the direction of the thickness of the watch case.

In a preferred embodiment, the housing has a recess on one side for receiving the Vibrator, a recess for storing the frequency adjustment device and a recess for receiving it des Temperaturkompensationse'.ementes, while on the other side of the housing a cavity intended to accommodate the oscillator circuit, the frequency divider circuit and the driver circuit is, the recess for the frequency adjustment device above the cavity for the electrical circuits are located.

In a further preferred embodiment, the housing is provided with a cover that provides a shield for the frequency adjustment device and a holder for the vibrator located in the recess forms.

Finally, the arrangement of the electrical connections can be made such that a group of Connections for input and output signals of the oscillator circuit, connections of the vibrator and a The power supply connection of the energy source is on the side of the housing facing the structural unit of the battery are located, while the output connections for the motor drive are provided on its opposite side are.

The invention is explained in more detail with reference to the embodiment shown in the drawing. It ίο shows

F i g. 1 is a block diagram of the embodiment,

F i g. 2 is a plan view of the oscillator device of the embodiment;

F i g. 3 shows a partial cross-section through the plastic housing for the oscillator device of FIG Design,

F i g. 4 is a partial side view of the housing according to FIG. 3, from the over the open end faces deir chambers the assemblies stored therein can be seen,

F i g. 5 is an overall plan view of a clock with the one shown in FIG. 2 illustrated embodiment.

F i g. 1 shows an electrical equivalent circuit diagram of the oscillator device the embodiment in which with 1 the vibrator, with 2 the oscillator circuit, with 3 a stepwise variable capacitor for adjusting the frequency, with 4 a temperature compensation element, with 5 a plastic housing with holder for the oscillator device, with 6 a frequency divider circuit and 7 denotes a driver circuit for the motor.

From Fig. 2 is the spatial arrangement of the oscillator device refer to. The oscillator device is housed in a housing 8, for example is made of an elastic plastic with thermosetting properties. The tuning fork quartz crystal vibrator 9 is housed in a cylindrical enclosure 9a. The vibrator hangs on one Trunk of three outwardly led lines 10. The cylindrical encapsulation surrounding the vibrator is evacuated, and the housing and the lead-through of the pipe trunk are hermetically sealed. At the end of the encapsulation, at which the connections are led to the outside, a cap 96 is provided, with whose help stray capacitances between the external connections and the other parts of the facility should be avoided. The lines leading to the outside are in one through a recess Part of the cap. In this way the vibrator is completely shielded. The temperature compensation device 11 is made using BaTiO3 and connected to other line elements via connections 12.

The stepwise variable capacitor for the fine adjustment of the frequency is with the help of the parts 13, 14, 15 and 16 built. A number of condensers are made with the help of vacuum evaporation technology the glass carriers 13 applied. The glass supports 13 are located on the housing 8 for the oscillator device, on which also a contact spring 14 for the step-wise variable capacitor with the help of a Screw 15 is attached. Each of the individual capacitors can be connected to a number of contact pins K can be switched on or off, whereby the who increases gradually according to the total capacity or humiliated. The contact pins 16 are there at one end of the contact spring 14 and sin <can be reached through the housing cover. On de

The back of the plastic housing 8 is provided with electrical circuits 17 that control the oscillator circuit, the frequency divider circuit and the driver circuit of the motor constitute, MOS transistors and integrated Find circuit technology application. The edge areas of these electrical circuits are by plastics of the type made by epoxy resins combined into solid form to make the circuits to protect against external influences such as moisture. The line connections of the circuit unit are with connected to the elements to be connected via screw connections and form a group of Lines 18 which, for. B. are formed from thin sheet metal. The cover 19 is made of metal and pulls itself over the entire plastic housing. It serves as a shielding plate for the gradually changeable Capacitor 13 and is used to attach some of the parts of the frequency adjustment device, such as of the contact spring and the contact pins 16. In addition, the cover 19 of the vibrator 9 in held its position.

As in Fig. 3, there is a recess 20 in the housing 8 as a chamber for receiving the vibrator 9 or its cylindrical encapsulation 9a, 96. Furthermore, a recess 21 is provided for the stepwise variable capacitor 13, which is used to fine-tune the frequency. Finally, there is also a recess 23 into which the temperature compensation element 11 is inserted. The recess, the depression and the recess are all designed to be open towards the front of the housing. A cavity 22 is provided as a further chamber within the plastic housing 8, which is open towards the rear of the housing and serves to accommodate the oscillator and frequency divider circuit 17a, which are constructed with the aid of MOS transistors. The driver circuit 176 of the motor, which is produced with the aid of integrated circuit technology, is also located in the cavity 22. The circuits are protected by a silicone layer 17c and an epoxy resin layer i7d . The recess 21 provided for the stepwise variable capacitor and the cavity 22 are arranged one above the other - viewed in the direction of the thickness of the clock

Thanks to the chambers on one side and the other of the housing, it is possible to create the seven components or assemblies of the oscillator device to be arranged in such a way that the wiring is carried out with the aid of connecting lines the screws and the contact pins can be carried out in a space-saving manner and that a Oscillator device is available, which is designed as a structural unit. In this way accommodate a larger number of individual parts in a limited space than with conventional types mechanical or electrical clocks. The arrangement, individual components or the summary to structural units means that they can be produced, adjusted and exchanged easily and quickly leave. The oscillator device is of course also to be viewed as a structural unit that is to be handled appropriately overall.

The oscillator device of the embodiment can also be used for a sufficiently safe mode of operation shield. To achieve the highest possible vibration quality, the vibrator is encapsulated fixed in the synthetic resin housing The fixing parts have a sufficiently high elasticity to to dampen external impacts so that a sufficiently high level of shock resistance is given. Through the arrangement of the individual parts of the oscillator device in corresponding recesses od. dig. of the housing the number of parts to be defined in the clock is reduced to a minimum The parts housed in the housing are held by a single metal cover, which also acts as a shield serves.

ίο As in F i g. 5 is shown next to the round Battery and the vibrator located in a cylindrical encapsulation, a cylindrical drive coil for the pulse motor is provided, taking into account the efficiency of the electromagnetic transducer is relatively high and in which available standing, rounded clockwork space takes up a relatively large amount of space this coil so thick that further components in the direction of the thickness of the clock are not arranged above the drive coil can be; The same applies to the battery and the cylindrical enclosure of the vibrator. Farther the vibrator and its associated electronic circuits require lines for the supply electrical energy and for the delivery of the electrical output signal. The simple and space-saving Arrangement of each of these lines and their connections is essential for the interior design of the clock Importance.

In the case of the in FIG. 5 shown, a round plate 25 having clock, there is a shaft 24 for the Display correction approximately in the area of the three o'clock display. The battery 26 is located in the area of 12 o'clock display. A connection plate 27 is connected to the negative pole of the battery. The oscillator device is located in the housing 8, it consists of the vibrator as a time standard and the associated with these electronic circuits and is designed as a single unit The cylindrical capsule Development of the oscillating crystal 9 is housed in a recess in the housing. The frequency adjustment device 13 to 16 contains the step-adjustable capacitor to which the temperature compensation element 11 is connected, which in turn has a BaTiO3 capacitor has The electronic circuits ί7 are in a cavity of the housing fully embedded With 18a to 18e are input and output connections for electrical signals of the electronic Circuits designated, the connections 18a for the signal to drive the pulse motor and a ground terminal 186 are arranged on the left side of the housing 8 (side of the drive coil), while Connection terminals 18c for the oscillator circuit, a terminal 18t / for connection to the battery 26 and a reset connection 18e are located on the right side of the housing (battery side). With 10 are electrical signal and output terminals of the vibrator referred to, for. B. as a tuning fork crystal oscillator The terminals 10 are located on the same side as the connection terminals 18c, whereby a short and simple connection to the electronic circuits results The connections 12 connect the stepwise switchable capacitor and the BaTiO3 capacitor. The electromagnetic Stepper motor consists of the drive coil 28a, the stator parts 286 and 28c and the rotor 29, the mil the wheel 30 and further cooperates with the wheel 31 and cinenr central wheel and in a known manner causes the pointer drive

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As mentioned above, in the illustrated embodiment, the components on the circular board are such arranged that the adjustment shaft is close to the display position "three o'clock" while the battery is in Display area »twelve o'clock« is arranged. The housing for the oscillator device in which the vibrator and the electronic circuits assigned to it form a unit, the battery is adjacent arranged. The drive coil of the pulse motor lies between the housing for the oscillator device and the staff. This is the edge area of the board from the adjustment shaft, the battery, occupied the housing for the oscillator device and the drive coil. The regulating or adjusting mechanism and the reset mechanism are in an area around the center of the remaining space arranged on the circuit board, so that each structural unit is in one plane, avoiding stacking is provided.

Such an arrangement enables a simple connection of the electrical inputs and outputs and a flat and round-edged version of the S watch. According to the assignment made above a distinction can be made between three structural units, namely the battery block for the energy supply, the housing block for the oscillator device and the mechanical block, which is in the room of the clockwork are arranged. The mode of operation of each of these blocks can be adjusted individually; each block can be installed and removed by simply connecting or disconnecting it the connections, what with the help of screw connections happens. In this way, in addition to economical production and testing, inexpensive ones can also be achieved Achieve conditions for customer service and repair work.

For this purpose 3 sheets of drawings

609 6107394

Claims (4)

Patent claims: ! Quartz crystal wrist watch with a mechanical block that has a pointer gear train and has an electromechanical converter and approximately in the center of the round-edged clockwork case is arranged, with a structural unit which has a drive coil of the converter, with a battery block, with one in the edge area of the clockwork case or with the mechanical one Block comprising arranged carrier device on which an oscillator and frequency divider circuit and a driver circuit using integrated circuit technology are kept executed, and with a frequency adjustment device, characterized in that that the carrier device forms a housing (8) made of plastic with chambers (20 to 23), of which a part (20,21,23) to the front and a the other part (22) is designed to be open towards the rear of the housing, with the front-open Chamber space a quartz crystal vibrator (9), the frequency adjustment device (13 to 16) and a temperature compensation device (11) and in the chamber space open at the rear the in MOS technology executed oscillator and frequency divider circuit (17a) and the driver circuit (176) for driving the electromechanical converter (28a to 28c, 29) are stored. 2. Clock according to claim 1, characterized in that the housing (8) has a recess on one side (20) for receiving the vibrator (9), a recess (21) for storing the frequency adjustment device (13 to 16) and a recess (23) for receiving the temperature compensation device (11), while on the other side of the housing a cavity (22) for receiving the electrical oscillator and frequency divider circuit (17a) and the driver circuit (176) is provided, wherein the recess for the frequency adjustment device is above the cavity for the electrical circuits 3. Clock according to claim 1 or 2, characterized in that the housing (8) with a cover (19) is provided, which is a shield for the frequency adjustment device (13 to 16) and a bracket for the vibrator (9) located in the recess (20). 4. Clock according to one of the preceding claims, characterized in that a group of Connections (18c) for input and output signals of the oscillator circuit, connections (10) of the Vibrators and a feed connection (18c /) of the energy source (26) are located on the side of the housing (8) facing the structural unit of the battery, while the output connections (18a) for the motor drive are provided on the opposite side thereof are.