DE2131476B2 - Quartz crystal wrist watch - Google Patents

Description

60 a battery block, mn e.ner in the edge area of the clockwork case or the mechanical block comprehensively arranged carrier device on which an orator and frequency divider circuit and a treble circuit are held out in integrated Schahkre.stechnik, and with a frequency adjust.ere. n-

The invention relates to a quartz crystal bracelet with a mechanical block that has a pointer gear train and an electromechanical converter f> 5 if and is arranged approximately in the center of the rounded clockwork case, with a component : it, which has a drive coil of the transducer, with ΙίϊΓΰΐΐΓ this type is under the UK Patent specification Π 77 523 became known In addition to the battery block, the carrier device and a part of the electromechanical converter are in the edge area of the watch case still a quartz crystal and an induction coil arranged the part of a Parallel resonant circuit of the oscillator circuit is. In order to there are two essential parts of the als.time standard Serving oscillator device outside the carrier device and thus require the separate Assembly, which means corresponding effort_ However, it could be even more disadvantageous that the oscillator equipment is not completely assembled Condition outside of the watch case, a test run and the necessary adjustment grip can be subjected to. Access to the parts within the watch case is difficult, this also makes a difference in terms of maintenance and replacement of individual parts of the oscillator noticeable disadvantageously. By arranging parts of the oscillator device outside the support 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; after all, the one is stacked one on top of the other 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 clock Disadvantage.

In contrast, the invention is based on the object to create a clock of the type mentioned, which is as space-saving as possible, easy to handling structure and economic testing or maintenance of the entire oscillator device permitted. The individual components should assume a precisely defined position in relation to one another.

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 open on the back Chamber the oscillator and frequency divider circuit made in MOS technology and the driver circuit are stored for the drive of the electromechanical converter.

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

ye. saves space inside the watch case. The assembly effort is also reduced. Of particular importance is the possibility of subjecting the entire oscillator device to a test or adjustment before it is installed in the watch case Coupling influences and the like of the parts to one another are also taken into account In addition, the housing creates simple possibilities 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. to at 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 switching on electrode sections Provides capacitor.

The z. B. from the 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 a still smaller space requirement over 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 these circuits only occur 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 of the Temperaturkotnpensationselementes, 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 supply connection of the energy source is located 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 the 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 shows a block diagram of the embodiment, FIG. 2 is a plan view of the oscillator device the embodiment,

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

F i g. 4 is a partial side view of the housing according to FIG. 3, from the over the open end faces the 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 t the vibrator, with 2 the oscillator circuit, with 3 a Gradually variable capacitor for adjusting the frequency, with 4 a temperature compensation tion element, with 5 a plastic housing with holder for the oscillator device, with 6 a frequency divider circuit and with 7 a driver circuit for the motor is designated.

From Fig. 2 is the spatial arrangement of the oscillator device refer to. The oscillator device is housed in a housing 8 which, for example,

iS se is made of an elastic plastic with thermosetting properties. The tuning fork quartz crystal vibrator 9 is housed in a cylindrical encapsulation 9a. In this case, the vibrator hangs on a trunk made up of three lines 10 that are led outwards.

The cylindrical enclosure surrounding the vibrator is evacuated, and the housing and the lead-through of the line 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 the help of which. Stray capacities between the outer connections and the other parts of the device are to be avoided. The lines leading to the outside are guided through a recess in part of the cap. In this way the vibrator is completely shielded. The temperature compression device U is manufactured using BaTiO3 and is connected to other line elements via connections 12.
The step-wise variable capacitor for fine adjustment of the frequency is constructed with the help of parts 13, 14, 15 and 16. A number of capacitors are applied to the glass supports 13 with the aid of vacuum evaporation technology. The glass supports 13 are located on the housing 8 for the oscillator device

<> o lung, on which also a contact spring 14 for the gradual variable capacitor by means of a screw 15 is fixed. Each of the individual capacitors can be switched on or off with a number of contact pins K, which means that the who

fts gradually increase according to the total capacity or humiliated. The contact pins 16 are there at one end of the contact spring 14 and sine accessible through the housing cover. On de

The back of the plastic housing 8 is provided with electrical circuits 17 that control the oscillator circuit, form the frequency divider circuit and the driver circuit of the motor, MOS transistors and integrated circuit technology being used. the Edge areas of these electrical circuits are made of epoxy resin type plastics summarized in solid form in order to protect the circuits against external influences such as moisture. The line connections of the circuit unit are connected to the respective elements to be connected via screw connections and form a group of Lines 18, which are formed ζ B. 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 the contact spring and the contact pins 16. Above it In addition, the cover 19 of the vibrator 9 is held in 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, there is a recess 21 for the stepwise variable capacitor 13, which is used to fine-tune the frequency, is provided. 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 towards the front of the housing openly trained. A cavity 22 is provided as a further chamber within the plastic housing 8, which is open to the rear of the housing and accommodates the oscillator and frequency divider circuit 17a is used, which are constructed with the aid of MOS transistors. Furthermore, there is 22 in the cavity the motor driver circuit 176 which is made using integrated circuit technology. the Circuits are protected by a silicone layer 17c and an epoxy resin layer 17c /. The for the step-variable capacitor recess 21 and cavity 22 are - in Viewed in the direction of the thickness of the clock - arranged one above the other

Through the chambers on one side and on the other side of the housing it is possible to arrange the seven components or assemblies of the oscillator device in such a way that the wiring is carried out with the aid of connecting lines of the screws and the contact pins Can be carried out in a space-saving manner and that an oscillator device is available as one Unit is formed. In this way, a larger number of items can be limited Accommodate space than is the case with conventional types of median or electric clocks. The arrangement of individual components or the combination to form structural units means that these can be easily and quickly manufactured, adjusted and exchanged. The oscillator device is of course also available as overall to be viewed accordingly to be handled structural unit.

The oscillator device of the embodiment can also be shielded for a sufficiently safe working method. To achieve the highest possible The vibrator with an encapsulation is good for vibrations set in the resin case. The securing parts have a sufficiently high elasticity. around to dampen external impacts so that a sufficiently high level of shock resistance is given. By the arrangement of the individual parts of the oscillator device in corresponding recesses od. dig. The number of the case will be set in the watch Parts reduced to a minimum. The parts housed in the housing are replaced by a single Metal cover held, which also serves as a shield.

ίο As in F i g. 5, a cylindrical drive coil for the pulse motor is provided in addition to the round battery and the vibrator located in a cylindrical enclosure, which is relatively large taking into account the efficiency of the electromagnetic transducer and in which available The clockwork room with a rounded edge takes up a relatively large amount of space. In addition, is this coil so thick that further components in the direction of the thickness of the clock cannot be arranged above the drive coil; the same applies to the battery and the cylindrical enclosure of the vibrator. Furthermore, the vibrator and its assigned electronic circuits, lines for the supply of electrical energy and for the delivery of the electrical output signal. The simple and space-saving The arrangement of each of these lines and their connections is essential for the interior design of the clock Meaning.

In the case of the in FIG. 5, a round circuit board 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 from the vibrator as a time standard and the electronic circuits assigned to them and is as formed a structural unit. The cylindrical encapsulation of the oscillating crystal 9 is in a recess of the Housing housed. The frequency adjustment device 13 to 16 contains the step-adjustable Capacitor to which the temperature compensation element 11 is connected. that in turn one Has BaTiO j capacitor. The electronic Circuits 17 are completely embedded in a cavity in the housing. With 18a to 18e are input and Output connections for electrical signals of the electronic circuits denotes where the connections 18a for the signal to drive the pulse motor and a ground connection 186 on the inside of the housing 8 (Drive coil side) are arranged, while connection terminals 18c for the oscillator circuit, a connector 18c / 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 connections of the Vibra sector denotes the z. B. as a tuning fork arthouse gate is formed. The terminals 10 are located on the same side as the connection terminals 18c, which enables a short and easy connection to the Electronic circuits results. The connections 12 connect the stepwise switchable capacitor and the BaTiOi capacitor. The electromagnetic stepping motor consists of the drive coil 28a, the fts stator parts 286 and 28t- and the rotor 29. the mil the wheel 30 and further cooperates with the wheel 31 and a central wheel and in a known manner « the / eigeranirieb causes

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 Ge housing for the oscillator device in which the vibrator and the electronic shah circles assigned to it form a unit, the batlerie is adjacent arranged. The drive coil of the pulse motor lies between the housing for the oscillator device and the recruitment. 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 while avoiding superimposing

gen is provided.

Such an arrangement enables a simple connection of the electrical inputs and outputs and a flat and round-edged version of the clock. in accordance with the above assignment 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 simply by connecting or disconnecting it accordingly the connections, what happens with the help of screw connections fertilize. This way you can neber economical production and testing also favorable conditions for customer service and repairers work to achieve.

For this purpose 3 sheets of drawings

509 5:

.AT,:

Claims (4)

Patent claims: 1. Quartz crystal wrist watch with a mechanical Block comprising a pointer gear train and an electromechanical converter and is arranged approximately in the center of the round-edged clockwork case. 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 the mechanical block comprising arranged carrier device. on which an oscillator and frequency divider circuit and a driver circuit in 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 that the housing (8) is provided with a cover (19) which provides a shield for the Fre- 4s quenzjustieinrichtung (13 to 16) and a holder for the in the recess (20) Vibrator (9) forms. 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 Vibrator and a supply connection (18d) of the energy source (26) to that of the assembly of the battery facing side of the housing (8) are, while on the opposite side of the output connections (18a) are provided for the motor drive.