DE2349759B2 - Drive mechanism for two coaxial calendar display elements of a clockwork - Google Patents

Description

There are already drive mechanisms known that the sudden switching of a display member for the Day and a display organ for the day of the week Ensure calendar clocks. However, these are outdated constructions. On the other hand at Most calendar mechanisms in wristwatches with date and weekday display are different at least one of the ads progressive.

The task of the invention is to create a drive mechanism for wristwatches with day and where day ads. these organs being coaxial. The mechanism must be a lightning-fast switch of the two organs in such a way as to ensure that each Organ steps forward by one step, so an unintentional jump by two steps must be avoided be avoided. Another object of the invention is to create a mechanism. of these functions through a simple and space-consuming construction. Finally, the invention aims also on having the option of correcting the The day as soon as the change has taken place without risking the work being blocked.

Accordingly, the invention has for its object a drive mechanism for two coaxial Calendar display organs which are intended for this. Step by step around their common axis in one To rotate clockwork, and on it has a drive element with two fingers, which are intended to each to drive one of said calendar display elements, a calendar wheel connected to the wheel train is and coaxial to the drive member is a coupling with angular play between the calendar wheel and the drive member, a cam fixedly connected to the drive member. one cooperating with the cam Lever and a spring which acts on the lever in such a way that it suddenly skips the two calendar display elements is then ensured by rotating the drive element, if the latter was brought into a certain position by the calendar wheel, characterized in that the profile of the cam has a retaining groove which cooperates with the lever and the rotation of the drive member limited under the mentioned spring action.

Further features and advantages essential to the invention emerge from the description below, in which exemplary embodiments are explained with reference to the drawings. In the drawings shows

»Ig. 1 is a plan view with some organs torn off are,

Mg.2 a top view of the mounting plate with the: and the switching lever and
; a sectional view along the line UMII of the p

|: The mechanism to be described lies in one nigen clockwork, whose plate 1 carries a day 2 and whose hour mandrel 3 is turning Day of the week star 4 with a display 5 that extends on the same level as . Crown 2. As with certain menisms known per se If the weekday star 4 has fourteen teeth, the drive mechanism is arranged so that sr star is rotated gradually, with each itt forwards two gears in the shift [mean. Usually the two organs (id 4.5) attached with two grids 6 and 7, which are rotate about a common axis 8 and claimed by superposed spring blades 9 and 9 ' will. Since the two grids 6 and 7 extend on both sides of the axis 8 and there is one of them has centripetal effect in the way. that it engages in the teeth of the star 4, while the other has a centrifugal effect in the way. that he himself fits into the toothing of the crown 2, it can be seen that the two springs 9 and 9 * are bent when one or the other of the grid they} * from removed from the toothing with which it interacts.

The drive device of the organs 2 and 4 is guided on a mounting plate 10, which is on the board 1 is fastened with two screws 11. The exact positioning this plate is secured by the head 12 in the plate 10. this head in a corresponding groove of the board engages and through the tenon head 26. as will be shown later. The plate 10 is cut out with a side arm 13 which is bent at right angles and the forms a switching spring. Said plate 10 initially carries a part 14 consisting of a pinion and cnem wheel A pin 15 around which the wheel 14 c ί-ht is wedged into an opening in the board 10 or fitted as shown in FIG. 3 to see. The flat head secures the positioning of the moving part 14 in the axial direction. The wheel of part 14 is in connection with the hour wheel 3, while the pinion is a Drive calendar wheel 16, which rotates once every twenty-four hours. This calendar wheel 16 rotates is a cylindrical receptacle which has a hub 17 which is rotatable in an opening 18 of the plate 10 is inserted. As in Fig. 3, this hub has several recordings of different diameters on. At the upper end a finger! 9 is guided, which is fitted around an annular groove. under the one extends second lateral finger 20, which is cut out with the hub 17 and deep-drawn and on his The lower surface has a pin 21. The circular receptacle extends below the finger 20 22, which ensures the rotation of the wheel 16 and even below a receptacle that extends into the Opening 18 is inserted. At the lower end points the hub 17 has a last receptacle onto which a cam 23 is keyed, the top view of which is shown in dashed lines in F i g. 1 is visible. The entirety of the elements 17, 19 and 23 forms a kind of ratchet with two fingers 20 and 19 which are roughly diametrically opposed, although they extend on different levels. The length of these fingers is also different, as in FIG. 1 can be seen.

The functions are explained later, however it will already stated that the pin 21 is inserted into an arcuate column 24 in the wheel 16 is provided on an arc of a circle that is almost 180 " Achieved As in F i g. 3, the wedging of the cam 23 on the hub 17 connects the drive member with the mounting plate 10. Finally, this plate also carries (Fig. 2) a lever 25. which is around the pin 26 rotates the latter is similar to the pin 15. Its foot is thus inserted into an opening in the plate 10, and his head holds the lever 25 in the axial direction. The head of the pin 26, which is thicker than that of the Pin 15, is used as a positioning element of the plate 10. When assembling it is in a cylindrical opening of the circuit board. The drive element 17, 19, 23 is also precise during assembly positioned and the ability to be rolled up ensured in the Indeed, a central hole in the hub 17 then comes to rest on the pin 27, which protrudes from the plate. The axis of rotation of the hub 17 and the wheel 16 is therefore determined by the pin 27 and not through the opening 18, which is only used during assembly will.

The cam 23 has a spiral rising ramp 28 and a descending ramp 29, whose Course is carefully developed. as will be explained later. Between these two ramps extends an intermediate ramp 33 and a groove 30. These elements of the cam 23 are intended either with the extreme nose 31 of the lever 25 or with the Bulge 32 cooperate to act behind the nose at a distance equal to that attached which separates the bottom of the descending ramp 29 from the groove 30.

The mechanism described works as follows: Due to the presence of the part 14 between the calendar wheel 16 and the hour wheel 3, and after the latter two wheels are in the rotate in the same direction and are constantly driven by the clockwork, it follows that starting from the Position according to Fig. I. the rear end of the column 15 at the pin 21 strikes after the wheel 16 has rotated a few hours. The drive ratchet 17,19,23 will then connected to the calendar wheel 16 and from that moment on it rotates with this wheel spiral-shaped part 28 of the cam 23 then comes to lie under the bulge 32 of the lever 25, which is in F i g. 1 rotates to the left and the spring 13 is progressively reinforced. Then the nose 31 is based on the spiral Part 28. This armouring takes about fourteen hours, until the nose 31 is located at the highest point of the cam, directly behind the steeply sloping part which is the beginning the descending ramp 2t). The ratchet 17, 19, 23 is then pushed by the spring 15 and suddenly rotates. The finger 19 gets in the way of one the toothing parts of the star 4. Under the action of the spring 13, which acts on the lever 25, this becomes The star rotated until the grid 7 has passed two teeth of the teeth 4. The finger 20 also actuates the organ 2 and drives one of the teeth in such a way that the grid 6 in the next Toothing engages. At this point the rotation of the cam is such that the nose 31 is in the part the cam closest to the axis at the end of ramp 29 is located. Under the effect of the received Energy, however, the cam continues to rotate, and

the bulge 32 of the lever 26 comes to lie in the groove 30, which forms an arc between the lever and The cam causes the drive element to remain blocked in the position shown in the drawing. The one described Mechanism thus causes an instantaneous skipping of both display organs, namely under Use of a single spring and a single drive, the latter with two almost diametrically opposed Fingers is provided. Since the drive member is mounted at the end of its movement, everyone stops the finger firmly holds the part of the calendar controlled by it, which increases the risk of this organ jumping twice It is indeed shown in FIG. 1 to see that fingers 19 and 20 are on the way of the teeth of the daily crown or the weekday star remain when the drive element is blocked in the described position. When, on the other hand, the nose portion 31 (Fig. 2) rests on the cam at a point that is beyond of the center and therefore tends to rotate it counterclockwise, the bulge 32 is trimmed at the bottom of the groove 30 at a point on this side of the center of the Cam is located and, accordingly, there is a tendency to rotate it in the clockwise direction. That The risk of a double jump is thus definitely avoided. On the other hand, it is noted that the column 24 extends in a clockwise direction (Fig. 1) the finger 20 continues out. This arrangement allows the day to be set at any time and especially immediately after the change has taken place. Indeed, this is done Setting the day by means of a separate adjustment mechanism with respect to the drive mechanism, the acts directly on the day ring. Moving the latter in the clockwise direction causes a Rotation of the drive member via the finger 20. but this rotation has only a small amplitude: the one which is necessary. so that the tooth, which is located behind the finger 20, get beyond that finger can. Thanks to the fact that the column 24 extends over the finger 20 in the position of FIG. 1 extends, this shifting of the drive finger is possible without affecting the calendar wheel and accordingly without the gear train blocking the adjustment option. If an adjustment option occurs at this point, the displacement of the finger 20 causes the cam to rotate in such a way that that the bulge 32 rises along the flank of the groove 30. Under the action of the spring 13, the Then cam their rest position back in. The support conditions of the bulge 32 in the groove 30 and the

Nose 31 between ramps 29 and 33 are like that. that

between these workpieces a lock against

any unintended rotation occurs.

The mechanism described has the advantage

on that it is of simplified construction. All workpieces are assembled on the plate 10 independent of the rest of the movement, and it is then sufficient to place the drive block on the plate to be attached so that the drive is ensured. the

ίο Regulations and the necessary adjustments are practically non-existent. Although the two grids 6 and 7 are mounted on the board and are attracted by two springs 9 and 9 'which are supported on a curved tongue 33 which is part of the board 1.

In another embodiment, a larger plate could also be used, which also has the grid 6 and 7 would wear. It is further noted that the profile of the cam 23 is developed so that the Speed of rotation of the drive element in radio

tion of the execution of the operations to be carried out is stopped. Developing a reasonable Depending on these criteria, it is possible to switch between the two almost simultaneously to ensure coaxial organs, although they are as different as a day star with fourteen teeth, which must advance by a seventh of a turn. and a daily crown, the feed of which is only V31 of a turn It can be seen from the above description that the problem can be reasonably eliminated by the

Invention has been completely solved. For this purpose 2 sheets of drawings

Claims (9)

Patent claims: t. Drive mechanism for two coaxial calendar display elements which are intended for this purpose. S to rotate step by step around their common axis in a clockwork, and which has a drive element with two fingers, which are intended to drive one of the mentioned calendar display elements, a calendarraiX which is connected to the gear train and is coaxial to the drive element, a Coupling with angular play between the calendar wheel and the drive member, a cam firmly connected to the drive member, a cooperating with the cam He- ¹ S and a spring that acts on the lever in such a way that a momentary jump of the calendar display members by rotation of the Drive element is ensured when the latter has been brought into a certain position by the calendar wheel, characterized in that the profile of the cam has a retaining groove which cooperates with the lever and limits the rotation of the drive element under the action of said spring. 2. Mechanism according to claim 1, characterized in that that the retaining groove cooperates with a bulge of the lever, the latter also has a nose that follows the remainder of the profile of the cam. 3. Mechanism according to claim 2, characterized in that that the cam has a spiral ramp extending from its axis from the named retaining groove removed, a descending ramp that continues the said axis from the sew the outer linden of the spiral ramp, and a third ramp connecting the inner end of the descending ramp to the holding groove. 4. Mechanism according to claim 3, characterized in that that the distances between the axis of rotation of the lever and his nose on the one hand and the said bulge on the other hand are larger or smaller than the distance between the axes of rotation of the lever and the cam. 5. Mechanism according to claim 4, characterized in that that the profiles of the cam and the lever are such that the nose of the lever is against then supports the inner end of the descending ramp when the bulge is held in the retaining groove will. 6. Mechanism according to claim 1, characterized in that that the connection between the drive member and the calendar wheel is made by a connecting finger with the Drive organ is firmly connected and in a circular arc ": Column is inserted, which has the calendar wheel. 7. Mechanism according to claim 1, 2 and 6, characterized characterized in that the length of said circular arc-shaped column of the calendar wheel so is that at least one of said calendar parts then moves one step around its axis can move when the drive member by detecting the bulge of the lever in the retaining groove the cam is blocked. 8. Mechanism according to claim 1, characterized in that the drive member of a Mounting plate is performed, which also carries the lever and roh which the said spring is firmly connected is .OJJ U 9 mechanism according to claim 8, characterized in that the said spring by a Arm is formed, which is cut out in the mounting plate and is bent at right angles with respect to the plane of the latter ... ία mechanism according to claim 8, characterized in that that the drive member is pushed into an opening in the mounting plate with play and on its hub has a cylindrical receptacle which is pushed onto a pivot pin, which protrudes from the plate when the mounting plate is attached to the plate of the clockwork.