EP0322511A1 - Date indicator - Google Patents

Abstract

The invention relates to a date indicator for a watch, having an annular display scale 3 showing the days of the month. The current day of the month can be indicated on the display scale 3 by a pointer 8, the pointer 8 being movably drivable by the watch mechanism of the watch or by means of a toothed wheel 9 along the display scale 3. The display scale 3 is arranged on a scale ring 2 which can be driven to move counter to the direction of movement of the pointer 8. <IMAGE>

Description

The invention relates to a date display of a watch with a ring-shaped display scale representing the days of the month, on which the respective day of the month can be displayed by a pointer, the pointer being movably drivable by the clockwork of the watch or by means of a crown along the display scale.

With such date displays, e.g. hands rotatable around the pointer axis of the watch along the display scale, which bears the numbers 1 to 31 to indicate the days of the month. The clock's engine moves the hand to the next number each day. To e.g. after one month with 30 days to be able to correct the date display, the hand can also be adjusted using the crown.

Such a date display has the disadvantage that it is not possible to have a special desired date such as to indicate the start of the holiday, a birthday or the wedding day and the approaching of this desired date.

It is therefore an object of the invention to provide a date display according to the preamble, which enables the display of a special desired date within a month.

This object is achieved in that the display scale on one in or against the direction of movement of the pointer movably drivable number ring is arranged.

With this date display, the display scale can be moved so that the desired date is in a special position. This can be a fixed mark or the 12 o'clock position of an analog clock.

Not only is the reaching of the desired date indicated by the position of the pointer corresponding to this particular position, but the approximation of the current date to the desired date is also made traceable in a truly analogous manner.

Preferably, the dial ring concentrically surrounds a circular time dial of the watch.

A simple design results if the scale ring is rotatably mounted on the housing of the watch and / or on a component of the watch which is fixed to the housing. The radially outer circumferential edge of the scale ring can protrude into a correspondingly shaped, radially circumferential ring groove of the housing and / or of the component fixed to the housing, which is open towards the scale ring.

The scale ring can be driven to be manually movable. For this purpose, the scale ring can be driven in a simple manner by a drive device that can be driven by means of an adjusting bolt that can be moved toward the scale ring, wherein the adjusting bolt can preferably be moved radially toward the scale ring.

The adjusting bolt can be slidably mounted in a housing opening and protrude from the housing with one end for manual actuation.

A more favorable storage is obtained if the adjusting bolt is slidably mounted in a guide sleeve fixedly arranged in the housing opening.

In order to obtain a larger actuating surface for acting on the adjusting bolt, the adjusting bolt can have a pusher cap on its end protruding from the housing.

If the adjusting bolt is spring-loaded towards the exterior of the housing, it is reset and held in the rest position after actuation.

A movement of the scale ring can take place in that the scale ring is provided with a spur gear, in whose tooth gaps a tooth of the drive device can be moved. The scale ring is moved by the ramp-like sliding of the tooth along a flank of the tooth gap.

The spur gear preferably has radially outwardly directed teeth, the tooth of the drive device being movable radially towards the spur gear.

The spur gear has 31 teeth or a number of teeth that is a multiple of 31. The greater the multiple of 31, the smaller and more space-saving the tooth depth of the teeth of the spur gear can be. It is then only necessary to move the tooth several times into the tooth gaps of the spur gear.

A simple and space-saving design of the drive device results from the fact that the tooth is arranged at the free end of a lever which can be pivoted about an axis and which is acted upon by a spring in the coupling direction of the tooth from the tooth gaps of the spur gear.

In another embodiment, the tooth can be arranged on the free end of a lever arm of a two-armed lever which can be pivoted about an axis and the second lever arm can be acted upon by a spring in the decoupling direction of the tooth from the tooth gap of the spur gear. The lever can arch along in a space-saving manner extend the circumference of the spur gear.

It is also space- and component-saving if the spring is the free end of the second lever arm, which is designed as a spring arm and is supported on the housing radially outward under prestress.

To pivot the lever, this or the lever arm can be moved by the adjusting bolt in the coupling direction of the tooth in a tooth gap of the spur gear.

If the second lever arm has a holding tooth that can be moved into a tooth gap of the spur gear, then this holding tooth is in a tooth gap in the rest position due to the spring action of the lever and secures the scale ring against automatic adjustment.

In order to bring about a perfect rotational movement of the scale ring, the distance between the tooth and the holding tooth in the circumferential direction of the spur gear is larger or smaller than a whole multiple of the tooth parts and the spur gear.

If the distance between the axis and the tooth is a multiple of the tooth pitch plus more or less than 1.5 times the tooth pitch and the distance between the axis and the holding tooth is a multiple of the tooth pitch, the scale ring is moved further in two partial steps when the adjusting bolt is lifted . The first sub-step is brought about by the engagement of the tooth in a tooth gap, while the second sub-step is carried out by the subsequent engagement of the holding tooth in a tooth gap. The direction of rotation is determined by the fact that the distance between the axis and the tooth is a multiple of the tooth pitch and more than 0.5 times and or less than 0.5 times the tooth pitch.

So that the scale ring cannot move by a certain amount due to the play of the latched retaining tooth in the tooth gap, the one interacting with the tooth gaps can Tip of the holding tooth have a larger angle than the tooth gaps.

In particular, if the larger adjustment path is to be generated by the stroke of the tooth, it is advantageous if the tip of the tooth interacting with the tooth gaps has a smaller angle than the tooth gaps.

• Figur 1 eine Ansicht einer Uhr mit einer Datumsanzeige
• Figur 2 einen Querschnitt entlang der Linie II-­III in Figur 1
• Figur 3 eine Ansicht des Umrisses der Uhr nach Figur 1 mit Antriebsvorrichtung und einem Abschnitt des Stirnzahnrads
• Figur 4 ein zweites Ausführungsbeispeil der Antriebsvorrichtung mit einem Abschnitt des Stirnzahnrads in der Ansicht

An embodiment of the invention is shown in the drawing and will be described in more detail below. Show it

• Figure 1 is a view of a clock with a date display
• FIG. 2 shows a cross section along the line II-III in FIG. 1
• Figure 3 is a view of the outline of the clock of Figure 1 with the drive device and a portion of the spur gear
• Figure 4 shows a second exemplary embodiment of the drive device with a portion of the spur gear in the view

The clock shown in Figure 1 is an analog clock with a circular time dial 1, which is enclosed by a scale ring 2 of a date display. A display scale 3 with the numbers 1 to 31 is arranged on the scale ring 2.

Centrally to the time dial 1 and the scale ring 2, the hour hand 5, minute hand 6 and second hand 7 are rotatably arranged on pointer shafts or pointer tubes 4.

A pointer 8 of the date display is arranged rotatable about the same axis, but on the side of the time dial 1 facing away from an observer. This pointer 8 extends with its free end through an annular gap between time dial 1 and dial ring 2 to the visible side of dial ring 2 and is fork-shaped there. The each The number between the two prongs of the fork is the current date.

Via a crown 9, which also serves to correct the hour and minute hands 5 and 6, the pointer 8 can also be adjusted via a gear, not shown. A normal advancement of the pointer 8 per day takes place through the clockwork of the clock, also not shown.

As can be seen in FIG. 2, the dial ring 2 with its radially outer circumferential edge 10 is rotatably mounted in a corresponding annular groove 11 of the housing 12 of the watch, which is open toward the dial ring 2.

A two-armed lever 14 is arranged in a circumferential annular groove 13, which is remote from the observer and is formed and is pivotable about an axis 15 fixed to the housing and parallel to the axis of rotation of the pointer 8.

At the free end of the one lever arm 16 of the lever 14 there is a tooth 17 which is directed radially to the axis of rotation of the pointer 8 and which can be moved by pivoting the lever 14 about the axis 15 into tooth gaps 18, which are also radially directed, of a spur gear 19 firmly connected to the number ring 2 is.

The spring 14 acts on the second lever arm 20 radially to the axis of rotation of the pointer 8 and the lever 14 is acted upon from the tooth gaps 18 in the decoupling direction of the tooth 17.

In the embodiment shown in FIG. 3, the spring is the free end of the second lever arm 20, which is designed as a spring arm 21 and is supported on the housing 12 radially outward under prestress. On the second lever arm 20 there is also a holding tooth 22 which can also be moved by pivoting the lever 14 into one of the tooth gaps 18 and which is acted upon by the spring arm 21, is normally located in a tooth gap 18 and thus secures the scale ring 2 from unintentional rotation.

To pivot the lever 14, the lever arm 16 can be acted upon radially toward the spur gear 19 in the region of the tooth 17 by the one free end of an adjusting bolt 23. The adjusting pin 23 is slidably mounted in a guide sleeve 25 which leads radially outwards and is fixedly arranged in a corresponding housing opening 24. At its other free end protruding from the housing 12, the adjusting bolt 23 is provided with a cup-shaped push cap 26 which engages over the outwardly directed end of the guide sleeve 25. By means of a compression spring 27 arranged under pretension between the presser cap 26 and the guide sleeve 25, the adjusting bolt 23 is held in its radially outer end position when the presser cap 26 is not actuated.

The free end of the pot-shaped edge of the presser cap 26 engages around a radially outwardly directed peripheral edge 28 of the guide sleeve 25 and thus limits a movement of the adjusting bolt 23 radially outwards.

Extending into the path of movement of the inward end of the adjusting bolt 23, parallel to the axis 15, is a driver 29 which is firmly connected to the lever arm 16 in the region of the tooth 17 and via which, when the adjusting bolt 23 moves radially inward, the lever 14 until the tooth 17 engages is pivoted in a tooth gap 18.

The distance between the axis 15 and the tooth 17 is 9 times the tooth pitch of the spur gear 19 plus 1/3 of a tooth pitch, while the distance between the axis 15 and the holding tooth 22 is 6 times the tooth pitch.

This has the effect that when the tooth 17 is moved into the tooth gap 18, the tooth 17 slides along a tooth flank like a ramp to the tooth base and thereby moves the scale ring 2 in the counterclockwise direction by more than half a tooth pitch. This is shown by the broken lines.

Such a rotary movement is possible, since at the same time the holding tooth 22 moves out of its tooth gap, thereby releasing a movement of the scale ring 2.

When the pusher cap 26 is then relieved, the spring arm 21 moves the retaining tooth 22 from its uncoupling position shown with a broken line into the tooth gap, as a result of which the retaining tooth 22 on a tooth flank slides along the scale ring 2 in a counterclockwise direction until the movement initiated by tooth 17 for adjustment to complete an entire tooth division.

The number of teeth of the spur gear 12 is twice that of 31 in the exemplary embodiment, so that a double actuation of the lever 14 is required to adjust the scale ring 2 by one day.

This adjustment allows the scale ring 2 to move into a special position with a certain date, e.g. the 12 o'clock position. Accordingly, the pointer 8 must then be corrected to the current date by means of the crown 9. Now you can always see the day's distance from the current date to a desired date set in the special position at a glance.

Claims (23)

1. Date display of a watch with a ring-shaped display scale representing the days of the month, on which the respective day of the month can be displayed by a pointer, the pointer being movably drivable by the clockwork of the watch or by means of a crown along the display scale, characterized in that the Display scale (3) is arranged on a scale ring (2) which can be driven in or against the direction of movement of the pointer. 2. Date display according to claim 1, characterized in that the dial ring (2) concentrically surrounds a circular time dial (1) of the clock. 3. Date display according to one of the preceding claims, characterized in that the scale ring (2) on the housing (12) of the clock and / or on a housing-fixed component of the clock is rotatably mounted. 4. Date display according to claim 3, characterized in that the scale ring (2) with its radially outer circumferential edge (10) in a correspondingly shaped, radially circumferential, to the scale ring (2) open annular groove (13) of the housing (12) and / or the housing-fixed component protrudes. 5. Date display according to one of the preceding claims, characterized in that the scale ring (2) is manually movable. 6. Date display according to Claim 5, characterized in that the scale ring (2) can be driven by a drive device which can be driven by means of an adjusting bolt (23) which can be moved towards the scale ring. 7. Date display according to claim 6, characterized in that the adjusting bolt (23) is slidably mounted in a housing opening and protrudes with one end from the housing (12). 8. Date display according to claim 7, characterized in that the adjusting bolt (23) is slidably mounted in a housing opening and protrudes with one end from the housing (12). 9. Date display according to claim 8, characterized in that the adjusting bolt (23) in a housing sleeve (24) fixedly arranged guide sleeve (25) is slidably mounted. 10. Date display according to one of the preceding claims, characterized in that the adjusting bolt (23) at its end protruding from the housing (12) has a pusher cap (26). 11. Date display according to one of the preceding claims, characterized in that the adjusting bolt (23) is spring-loaded towards the housing exterior. 12. Date display according to one of the preceding claims, characterized in that the scale ring (2) is provided with a spur gear (19), in the tooth spaces (18) of which a tooth (17) of the drive device can be moved. 13. Date display according to claim 12, characterized in that the spur gear (19) has radially outwardly directed teeth and the tooth (17) of the drive device is radially movable towards the spur gear (19). 14. Date display according to claim 12, characterized in that the spur gear (19) has 31 teeth or a number of teeth which is a whole multiple of 31. 15. Date display according to one of the preceding claims, characterized in that the tooth (17) is arranged at the free end of a pivotable lever about an axis, which is acted upon by a spring in the decoupling direction of the tooth from the tooth gaps of the spur gear. 16. Date display according to one of claims 1 to 14, characterized in that the tooth (17) at the free end of a lever arm (16) of a two-armed, about an axis (15) pivotable lever (14) is arranged and the second lever arm ( 20) is acted upon by a spring in the decoupling direction of the tooth (17) from the tooth gap (18) of the spur gear (19). 17. Date display according to claim 16, characterized in that the spring is designed as a spring arm (21) free end of the second lever arm (20) which is supported radially outwards under bias on the housing (12). 18. Date display according to one of the preceding claims, characterized in that the lever or the lever arm (16) by the adjusting bolt (23) in the coupling direction of the tooth (17) in a tooth gap (18) of the spur gear (19) is movable. 19. Date display according to one of the preceding claims, characterized in that the second lever arm (20) has a retaining tooth (22) which is movable in a tooth gap (18) of the spur gear (19). 20. Date display according to claim 19, characterized in that the distance between the tooth (17) and retaining tooth (22) in the circumferential direction of the spur gear (19) is larger or smaller than a whole multiple of the tooth pitch of the spur gear (19). 21. Date display according to claim 20, characterized in that the distance between the axis (15) and tooth (17) is a multiple of the tooth pitch plus more or less than 0.5 times the tooth pitch and the distance between the axis (15) and Holding tooth (22) is a multiple of the tooth pitch. 22. Date display according to claim 19, characterized in that the cooperating with the tooth gaps (18) tip of the holding tooth (22) has a larger angle than the tooth gaps (18). 23. Date display according to one of the preceding claims, characterized in that the tooth (17) cooperating with the tooth gaps (18) has a smaller angle than the tooth gaps (18).

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