WO1989005001A1 - Time-piece - Google Patents

Abstract

The various electromagnets (18) are grouped in threes. The pole pieces (21) of the electromagnets (18a) cooperate with the upper indicating element (8) the toothed ring (22) of which is arranged in such a way that each pole piece (21) advances one of the teeth (22) by a third of a step when the electromagnet receives a pulse.

Description

 Timepiece

The present invention relates to a timepiece comprising a plurality of indicator members of circular shape, coaxial, movable in rotation, a drive device consisting of electro-mechanical transducers actuating each indicator member, and electronic means controlling the sending pulses in the transducers.

Timepieces are already known, in which the indicator members are superimposed discs and the drive means are located at the periphery of the timepiece and cooperate with the indicator members by their outer edges. Timepieces of this kind are known in particular from the Swiss patents CH 307 045 and CH 625 663. The purpose of these achievements was to create timepieces having a particular appearance by the fact that their center is clear at least at the level of the indicator members, which allows either an original aesthetic, or an arrangement making it possible to use the timepiece also for purposes other than the simple purpose of time indication.

Also known from French patent specification FR-2 155 246 is an indicator system which also has the characteristics mentioned above. However, the relative arrangement of the various active elements, belonging to the transducers and to the indicator members, is complicated and bulky so that the system described in document FR-2,155,246 would be inapplicable to a timepiece.

The purpose of the present invention is to achieve a new development in the presentation of timepieces with a clear center, while creating a space-saving, precise and efficient drive device capable of being directly engaged with large indicator members. To this end, the present invention has for its object a timepiece of the kind mentioned above, characterized in that it comprises a support provided with a cylindrical wall, in that the indicator members are superimposed in the support. and guided by the cylindrical wall, in that each transducer is constituted by a purality of ¹ electromagnets distributed around said wall and each comprising a coil, a core and two pole pieces, each indicator member being provided at its periphery with 'a magnetic toothing with constant pitch and each pole piece comprising a beak which crosses said wall and ends opposite the magnetic toothing of the member with which it cooperates.

The object of the invention as defined above is capable of multiple embodiments that those skilled in the art will be able to develop. We will limit ourselves hereinafter to describing by way of example, a particular embodiment relating to a pendant watch. In the accompanying drawing, FIG. 1 is a top plan view of the pendant watch, FIG. 2 is a schematic view in diametral section of the timepiece of FIG. 1, fig. 3 is a partial view in radial section on an enlarged scale of a part of the timepiece, FIG. 4 is a view on a larger scale than FIGS. 1 and 2, in section through a plane perpendicular to the axis, showing the arrangement of the means of the timepiece, fig. 5 and 6 are views in elevation of two pole pieces, and FIG. 7 is a schematic view illustrating the step-by-step advance of a circular or linear indicator member.

Although a pendant watch has been shown in the drawing, the object of the invention can be ^• produced in any dimension of timepiece going from the wristwatch to the wall pendulum or to the clock advertising.

The watch shown in fig. 1 and 2 has the advantage that its center is fully released, so that the housing can contain ^a visible object, such as a precious stone or an object-memory. The case of the timepiece is in this case combined with the movement support. It comprises a box body of oblong shape 1, with a circular area on which are fixed a glass 2 and a removable rear plate 3, of annular shape, so that a central area 5 of the housing, separated from a peripheral annular zone by a wall 4, forms a housing closed towards the rear by a removable bottom 6. Opposite zone 5, the glass 2 has a lens appearance, so as to constitute a magnifying glass. The timepiece is designed to constitute what was once called a "mysterious watch". The hour markers are engraved or inscribed on a flange 7 which is placed directly under the glass and which is supported by a notch in the case body 1. Under this ring are arranged three indicator members 8, 9 and 10 which are also annular shape, which are transparent, which each carry a mark 8a, 9a, 10a, and which cooperate with drive means placed on their periphery as we will see later. In the embodiment described, the battery and the control electronics (not shown) will be mounted on the annular plate 3. A window 11, formed in the body 1, reveals a panel 12, for example a crystal display panel liquid, also controlled by the electronic control of the timepiece, indicating for example the day of the week, the date and the month. The indicator members 8, 9, 10 are here rings and are only visible by their internal boss 8a, 9a or 10a which constitutes the indicator mark.

Figs. 3 and 4 show in a variant of the timepiece of FIGS. 1 and 2, the arrangement of the indicator members and their drive means. Here the watch case includes a middle part 13, a glass 14 and a base 15. Inside this case is housed a movement support 16 with a central veil 16a, the function of which will be defined below. . The peripheral part of the movement support 16 carries along its inner periphery an indicator member support 17 with an L-shaped profile, delrin, having a cylindrical wall 17a guiding and supporting the three superimposed indicator members, 8 9 and 10 which are thin discs in transparent plastic material having bosses 8b, 9b and 10b ensuring their positioning and sliding. These members are held in place between the flange 7 and the support 17 and cooperate with drive means which are constituted by nine electromagnets mounted on the support 16 and shown in a more visible manner in FIG. 4 .. These electromagnets 18 are divided into three groups. The group 18a corn- - 5 - carries three electromagnets distributed at approximately 120 ° from each other so as to drive the indicator member 8, while the group 18b also includes three electromagnets distributed on the support 16 so as to actuate the member indicator 9. The group 18c is positioned so as to drive the indicator member 10. As the electromagnets of each transducer are distributed at 120 ° from one another, it can be seen that at the moment of the pulse, they tend to move the driven member away from the wall 17a, which facilitates the entrainment. The clearances between the members 8, 9 10 and the wall 17a will be adjusted so that the rotation takes place freely and with precision. Each of the electromagnets comprises (fig. 3) a core 19, a coil 20, and two pole pieces 21 which are designated in figs. 3 to 6 by the number 21a when they belong to the group 18a, by the number 21b when they belong to the group 18b, and by the number 21c when they belong to the group 18c. The cores 19 and the coils 20 need not be described in detail. They are of standard construction.

The shapes of the pole pieces 21A, B and C are visible in FIGS. 3, 5 and 6. These parts are fixed to the ends of the cores 19 by driving them on to turned studs with the steel elements with low remanence which constitute the cores, the latter being provided with end caps at their ends.

The electromagnets of each of the groups 18a, 18b, 18c, cooperate with and drive step by step one of the indicator members 8, 9 or 10, and this by means of a magnetic toothing 22 which each of these has indicator bodies. An embodiment of the magnetic toothing 22 is shown in fig. 3 and 4. In this embodiment, this magnetic toothing consists of a ring made of a ferromagnetic metal with low remanence, a ring whose peripheral zone is cut out so as to have a rectangular toothing with 60 teeth distributed over the periphery of the ring. The ring 22 will for example bevel along its inner edge, as seen in FIG. 3, and will be embedded inside the transparent plastic of the indicator member of which it is a part. However, this magnetic toothing could also be produced by successive metallized zones formed on the periphery of each of the discs 8, 9 or 10, the metal of these metallized zones being a ferro-magnetic metal with low remanence capable of cooperating with the pole pieces. 21 of the electromagnets 18, as does the teeth of the rings 22. Like the indicator members of FIGS. 1 and 2, those of the timepiece of FIGS. 3 to 6 could be annular indicator members, consisting of circular flat rings with internal prominence constituting the visible mark.

As seen in fig. 4, the various electromagnets of each group 18a, 18b or 18c have a length corresponding to an integer number of steps of the magnetic toothing of the rings 22, so that the two pole pieces 21 of the same electromagnet are simultaneously opposite two teeth of the teeth of the ring 22, as seen for example for the electromagnet 18a shown in the lower part of FIG. 4. In this position, the electromagnet which will then come into action is offset in the direction of advance of the indicating member, and with respect to the preceding electromagnet by an integer of steps the toothing plus a fraction of a step equal in this case to a third, since the number of electromagnets in each group is three. Thus, the electromagnet 18a shown in the upper left part of FIG. 4 is offset by a third of the pitch of the teeth relative to that shown in the lower part. The third electromagnet of the group, shown at the upper right of fig. 4, is offset by two thirds of a step. On the other hand, the pole pieces 21 ap¬ belonging to the electromagnets of group 18a have the appearance of the pole piece 21a shown in FIG. 3, so that the pole piece 21 is at the level of the indicator member 8 and extends through one of the slots 23 of the piece 17, slots which are provided to facilitate the positioning of the electro¬ magnets. The pole pieces of the electromagnets of groups 18b and 18c have the appearance given in FIGS. 5 and 6 respectively. For the entire timepiece two different machining operations are therefore sufficient to produce all of the pole pieces. The ends of the different pole pieces 21 are placed so as to cooperate with the teeth of the different toothing 22. The movement support 16 will carry the control electronics necessary to form and control power pulses which will be directed to the different electromagnets . The elements 24 and 25 thus represent components, for example a battery and a correction device fixed to the reverse of the veil 16a of the support 16. The program of distribution of the implusions on the different electromagnets 18 could have the effect that one of the organs indicators 8 works as a seconds indicator disc, the indicator body 9 as an indicator body for minutes, and the indicating member 10 as the hour indicating member for example, although "other functions may just as well be provided. The device for correcting and resetting the time, or if necessary for changing functions 25 may be influenced by buttons or pushers (not shown) which will be placed under the bottom 15. The different indicator organs will advance step by step in the teeth at each entry into action of the group d electro-magnets, this group constituting, with the elements of the electronic circuit which drives it, an electro-mechanical transducer. In the case of the seconds disc for example, the pulses on the electromagnet which maintains the disc in place for most of the time may be, for example, 60/100 of a second, after which the power will be cut and a pulse of 20/100 of a second will be seen on the next electromagnet of the same group of fa lesson in advancing the corresponding indicator organ by a third of a step. After 20/100 of a second the pulse will stop and a pulse will appear in the third electromagnet of the group, this third pulse also lasting 20/100 of a second. For the minute and hour discs, the distribution of pulses will follow from what has been explained above with regard to the second discs. Each minute, the minute disc will advance one step, i.e. the three electromagnets of group 18b will come into action successively during the last second of the minute. With regard to the hour disc, each step of a 1/60 of a revolution, i.e. 6 °, can be performed at 12 minute time intervals.

In an alternative embodiment, provision could also be made, in order to make it possible to shorten the duration of the holding pulses, an additional electromagnet with a radially moving core and functioning as a blocking member by penetrating between two teeth of the ring 22 which is to be blocked. This additional electromagnet could receive pulses which release the ring by moving a movable core in the centrifugal radial direction, or on the contrary pulses which block the ring by moving the core in the centripetal radial direction. Thus all the pulses on all the electromagnets could be shortened to the minimum. However, such blocking could also be envisaged by other means, in particular mechanical means, the blocking cores could in particular be urged by springs.

To produce the magnetic toothing of each of the indicator members, it would also be possible to provide teeth of a shape other than that which is shown in FIG. 4, or different arrangements, such as for example metallized areas of different shapes, as indicated above.

However, one could also provide in the case of transducers to group of electromagnets, a number of electromagnets different from three in each group. The choice will only depend on the performance you want to achieve and the space available. In the case of electromagnets distributed in groups of five the offset could moreover be of a third of step between the different electromagnets on either side of a central electromagnet, which would give a possibility of actuating an indicator organ both in one direction and in the other.

Fig. 7 shows for example in developed view the three successive positions of a. magnification teeth tick 22 facing three fixed pole pieces A, B, C, arranged opposite this toothing and belonging to three electromagnets 18 of the same group. The pulses are sent successively to the coils of the electromagnets A, B, C, then again A and so on. The magnetic toothing therefore advances regularly, step by step in the direction of arrow 26, for as long as desired. By placing two additional electromagnets with pole pieces D and E on the right of pole piece A symmetrically with pieces B and C and by driving the pulses cyclically in the electromagnets A, D, E instead of A , B, • C causes the displacement of the member 22 in the opposite direction to that of the arrow 26. Other forms of.execution of the transducers can also be envisaged in the context of the realization described here. Thus, each transducer could include two electromagnets actuating a pawl engaging in the teeth of the indicator member. This toothing could then be sawtooth and the two pawls would be arranged 180 ° apart from each other. In this case also, a blocking electromagnet could be provided to maintain the disc between the periods of advancement. As regards the general arrangement of the timepiece, we have already spoken, in relation to FIGS. 1 and 2, of a pendant watch arrangement comprising a central housing allowing a decorative or precious object to be placed there. In the alternative embodiment of FIG. 3, relating to a watch-brace¬ let, the discs 8, 9 and 10 are made of transparent plastic or glass, and the internal surface of the veil 16a of the support 16 is therefore visible under the glass 14. This surface may include a decor. Likewise the central zone of the discs 8, 9 and 10 which is entirely free since the pivoting and the guiding of the discs is ensured by their periphery, can also have a decoration, for example a coloring, or a coloring distributed in zones, geometric or not, which, by overlapping in variable orientations, give the impression of a lively decor. The number of indicator members could be different from 3, for example 2 or 4. The driving of members such as 8, 9 and 10 in the various executions provided for by engagement in direct engagement with a transducer makes it possible to simplify the mechanical production, reduce the size and improve the reliability of the operation, all of the time division functions being transferred to the electronic circuit.

Where appropriate, the indicator members could even be of the linear type, with progressive movement back and forth, and be used not only for measuring time, but also for measuring and indicating other parameters, so that the device described above can find applications in particular, for example in the field of machine tools or in the field of robotization.

Claims

1. Measuring instrument, in particular of time, comprising a plurality of indicator members of circular coaxial shape, movable in rotation, a drive device consisting of electro-mechanical transducers actuating each indicator member, and electronic means controlling the sending pulses in the transducers, characterized in that it comprises a support (17) provided with a cylindrical wall 17a), in that the indicator members (8, 9, 10) are superimposed in the support and guided through the cylindrical wall

(17a), in that each transducer (18a, 18b, 18c) is constituted by a plurality of electromagnets distributed around said wall and each comprising a coil (20), a core (19) and two pole pieces (21), each indicator member (8, 9, 10) being provided at its periphery with a magnetic toothing (22) with constant pitch and each pole piece (21) comprising a beak which crosses said wall (17e) and is ends opposite the magnetic toothing (22) of the member with which it cooperates.

2. Instrument according to claim 1, characterized in that each transducer comprises on the one hand a group of electromagnets distributed on the periphery of the circular zone of the indicator member and successively receiving pulses in a determined order, and on the other hand, a magnetic toothing with low remanence situated along the said circular area and cooperating with pole pieces of the electromagnets, each electromagnet having two pole pieces spaced by an integer number of pitch said toothing, the spacing between two electro-ai- successive mants being different from an integer number of steps, and the difference being a fraction of step equal to the inverse of the number of electromagnets in the group.

3. Instrument according to claim 2, characterized in that said magnetic toothing of each indicator member is composed of a ring of a ferro-magnetic material with low remanence presen¬ as rectangular profile teeth with constant pitch.

4. Instrument according to claim 2, characterized in that said magnetic toothing of each indicator member is composed of an annular part made of a dielectric material coated with areas metallized by a ferro-magnetic metal with low remanence, constituting successive elements distributed with the pitch of the teeth along the periphery of the indicating organ.

5. Instrument according to claim 1, characterized in that the superimposed indicator members are of the same diameter and in that said cylindrical wall (17a) is of constant thickness over its entire height.

6. Instrument according to claim 1, characterized in that each transducer comprises at least two electromagnets each actuating a pawl in direct engagement with a toothing formed along said peripheral zone of the indicator member.

7. Instrument according to claim 1 produced in the form of a timepiece and characterized in that said indicator members are transparent in their central part and housed in a housing which leaves a central area of the timepiece visible.

8. Timepiece according to claim 7, characterized in that said indicator members are provided with decorations.

9. Timepiece according to claim 7, characterized in that the indicator members are rings.

10. Timepiece according to claim 9, characterized in that the indicator members have an internal boss at a point of their periphery and in that the housing is arranged so that said indicator members are visible only by their boss internal.