CH703697A2 - Correction device for use in watch movement to correct date and Greenwich mean time zone indications, has driven wheels engaged with mobile parts acting on two functions when lever is in end positions, respectively - Google Patents

Abstract

The device has a drive wheel (14) driven by a correction unit i.e. crown, and pivotably mounted on an axis of a lever (10). The lever is brought to one of two end positions based on a rotation direction of the wheel. Two driven wheels (22, 16) are mounted on the lever, and are kinematically connected with the drive wheel. The driven wheels are engaged with mobile parts (18, 24) e.g. twenty-four hour and thirty-one wheels, acting on two functions such as date and time-zone indications, when the lever is in end positions, respectively.

Description

Technical area

The present invention relates to a correction device for correcting two functions, comprising: a rocker that can move between a first and a second extreme position by pivoting about an axis, - A driving wheel pivotally mounted on the rocker about said axis, the rocker being brought into one of the other of its extreme positions according to the direction of rotation of the driving wheel.

State of the art

There are known watches equipped with a ring for, in the same axial position, to correct two functions, depending on whether the user rotates the crown in a first or a second direction. Such a system implements a sliding pinion, capable of cooperating with a first or a second mobile respectively acting on each of the functions to be corrected.

Although interesting in that it allows to correct two indications when the ring is in an axial position, thus avoiding the use of an additional corrector, such a correction device is however not optimal . In fact, depending on the functions to be corrected, the mobiles with which the sliding pinion cooperates can have teeth of different shape, involving various lashes and penetrations. In addition, the gear ratios involved in the drivelines to display the two indications may be different, which may make the drive speed of the display member unsuitable.

The present invention aims to provide a correction device without the aforementioned drawbacks.

Disclosure of the invention

More specifically, the invention relates to a correction device as mentioned in the first paragraph of the present application, characterized in that it further comprises a first and a second driven wheels, mounted on the rocker and connected cinematically with the driving wheel. The first driven wheel is engaged with a first moving wheel acting on one of the two functions when the rocker is in its first extreme position. In addition, the second driven wheel is engaged with a second mobile acting on the other of the two functions when the latch is in its second extreme position.

Brief description of the drawings

Other details of the invention will appear more clearly on reading the description which follows, made with reference to the accompanying drawing in which FIGS. 1and 2illustrate the device according to the invention in its two extreme positions.

Mode (s) of realization of the invention

It is referenced in the figures that the essential elements of the correction device. The latter takes place in a watch movement of conventional type, comprising at least two functions, that is to say, capable of displaying at least two time indications. By way of example, the description below relates to a device for correcting the display of the date and the display of a second time zone. The elements relating to the movement and to display these two time indications will not be described in detail and are within the reach of the skilled person.

The correction device comprises a rocker 10 capable of evolving between a first and a second extreme position by pivoting about an axis. The extreme positions of the rocker 10 are determined by stops 12, with which the rocker 10 can cooperate, possibly at a finger 10a. Preferably, these stops 12 are made by eccentrics mounted on the frame of the watch, in order to adjust the extreme positions.

A driving wheel 14 is pivotally mounted around the axis of the rocker. The driving wheel 14 is rotated by a correction member, typically by a crown accessible from outside the watch, via a conventional sliding pinion system. Depending on the direction of rotation of the crown, the driving wheel 14 is driven in one direction or the other. On the rocker 10 is still mounted a first driven wheel 22, in engagement with the driving wheel 14. The friction occurring between the rocker 10 and the driven wheel 22 allow to bring the rocker 10 in one or other of its extreme positions, in contact with the stops 12, depending on the direction of rotation of the driving wheel 14.

The first driven wheel 22 is intended to be engaged with a first mobile 18, to correct the GMT display, when the latch 10 is in its first extreme position, as shown in Figure 1. This first wheel 22 is mounted integral with a first non-visible drive gear, meshing with the first driven wheel 14. In the example illustrated in the drawing, the first not visible drive gear is located on a first face of the lever 10 , while the first driven wheel 22 is located on the other side.

In order to have an optimal drive of the first mobile 18 to correct the display of the second time zone, in this case, this mobile is a twenty-four hour wheel, the first driven wheel 22 takes, typically, the shape of a wheel with five teeth, whose orientation is arranged to exert on the teeth of the wheel twenty-four hours, a force normal or close to normal. The number of teeth of the second driven wheel 22 and the second drive gear can be adapted to optimize the drive ratio of the wheel twenty-four hours. For example, it can be provided that the rotation of the ring of 180 °, which is substantially the rotation performed during actuation of the crown without changing the grip, makes it possible to advance the wheel twenty-four hours of a step.

A second driven wheel 16 is also mounted on the rocker 10. It is intended to be engaged with a second mobile 24, to correct the display of the date, when the rocker 10 is in its second extreme position. This second driven wheel 16 is mounted integral with a second drive pinion, 20, meshing with the first drive gear not visible in the drawing. In the example illustrated in the drawing, the second driven wheel 16 is located on the same side of the rocker 10 as the first driven wheel 22. The driven wheels can be located in different planes. Depending on the space available, they can be partially superimposed.

In order to have an optimal drive of the second mobile 24 to correct the display of the date, in this case, this mobile is a thirty-one wheel, the second wheel 16 takes, typically, the shape of a wheel with three teeth, whose orientation is arranged so that it exerts on the teeth of the wheel of thirty-one, a force normal or close to normal. The number of teeth of the second driven wheel 16, but also that of the second drive gear 20, can be adapted to optimize the drive ratio of the thirty-one wheel. For example, it can be provided that the rotation of the ring of 180 °, which is substantially the rotation performed during an actuation of the crown without changing the grip, makes it possible to advance the wheel of thirty-one by one. not.

The tooth shapes of the 31 and 24-hour wheels are very different because they are driven by cogs or fingers of the movement, involving different driving conditions. Thus, thanks to the mechanism of the invention, it is possible to individualize the profile of the teeth of the driven wheels, to adapt to that of the mobiles with which they are intended to cooperate.

Thus, when the user actuates the crown in a first direction, it drives the driving wheel 14 in a first direction, which causes the rocker 10 in its first extreme position. The first driven wheel 22 then engages with the first mobile 18 to correct the display of the second time zone. If the user continues to actuate the crown in this first direction, it will change the display of the second time zone. By operating the crown in the second direction, it drives the driven wheel in the second direction, which causes the rocker 10 in its second extreme position. The second driven wheel 16 then engages with the second mobile 24 to correct the display of the date. If the user continues to actuate the crown in this second direction, it will change the display of the date by driving the second driven wheel 16 via the gear consisting of the driving wheel 14 and the first and second gear wheels. training.

Thus, the correction device according to the invention optimally corrects two different functions, adapting and individualizing the conditions and the drive ratios of each of the kinematic chains of the two functions. By adjusting the extreme positions of the rocker 10, the penetration of the teeth can be adjusted easily.

The above description has been given by way of non-limiting illustration of the invention. In particular, the correction device according to the invention can be used to correct other functions than those proposed.

Claims (9)

1. Correction device for correcting two functions, comprising a rocker (10) capable of changing between a first and a second extreme position by pivoting about an axis, - A driving wheel (14) intended to be driven by a correction member and pivotally mounted on the axis of the rocker, said rocker (10) being brought into one of the other extreme positions according to the direction rotating the driving wheel (14), characterized in that it further comprises a first (22) and a second (16) driven wheel, mounted on the rocker (10) and kinematically connected with the driving wheel (14), and in that the first driven wheel (22) is engaged with a first moving wheel (18) acting on one of the two functions when the rocker (10) is in its first extreme position, and in that the second driven wheel (16) is engaged with a second mobile (24) acting on the other of the two functions when the rocker (10) is in its second extreme position. 2. Correction device according to claim 1, characterized in that the two driven wheels (16, 22) have differentiated profiles adapted according to the profiles of the mobiles (18, 24). 3. Correction device according to one of claims 1 and 2, characterized in that the first (22) and second (16) driven wheels are respectively integral with a first and second pinion (20) drive, forming a gearing with the driving wheel (14). 4. Correction device according to the preceding claim, characterized in that the first and second drive gears (20) and the drive wheel (14) are located on a first face of the rocker (10) and in that the first (22) and second (16) driven wheels are located on a second face of the rocker (10). 5. Correction device according to claim 4, characterized in that the first (22) and second (22) driven wheels are located in different planes. 6. Device according to claim 5, characterized in that the first (22) and second (16) driven wheels are partially superimposed. 7. Device according to one of the preceding claims, characterized in that one of the two functions is an indication of the date. 8. Device according to one of the preceding claims, characterized in that one of the two functions is an indication of a second time zone. 9. Device according to one of the preceding claims, characterized in that it comprises two stop members (12) for independently adjusting the first and second extreme positions of the rocker (10).