CH713002B1 - Mechanical watch movement activating the blocking of the movement when the power reserve is at zero. - Google Patents

Abstract

The mechanical timepiece movement (1) with power reserve indication according to the invention comprises at least one barrel system in connection with a load wheel (2c) of a differential (2) and an unloading wheel ( 2d) of the differential (2). An intermediate wheel (2i) of the differential (2) is connected to a cam wheel set (4) to drive it in rotation via a reduction stage (3). A rake (5), which acts on a power reserve indicator (7), is in contact with the cam wheel set (4). When the power reserve is at zero, a blocking part of the rake (5) comes into contact with a blocking member (10) to block the movement at a discharge outlet of the barrel system or in contact with the discharge (2d) of the differential (2).

Description

TECHNICAL AREA

The present invention relates to a mechanical clock movement provided with power reserve detection means.

TECHNOLOGICAL BACKGROUND

[0002] A mechanical timepiece movement generally comprises a barrel system driving at least one wheel at the load output and one wheel at the discharge output connected respectively to a load wheel and to an unload wheel of a differential. A set of wheels linked to an intermediate wheel of the differential controls a power reserve display, but no element of the movement is provided for a movement blocking operation when the power reserve is at zero.

[0003] Patent EP 0 568 499 B1 describes a power reserve indicator device for a mechanical watch. The indicator device comprises at least one star wheel with an indicator member, which is driven in rotation when the barrel is loaded or unloaded. The indicator organ makes it possible to display the power reserve of the watch. However, nothing is provided to ensure that the movement is blocked when the power reserve approaches zero.

[0004] Patent CH 698 752 B1 describes a timepiece which includes a mechanism for indicating the power reserve. It comprises two barrels facing each other and connected by a common shaft, which controls the power reserve display mechanism. However, nothing is provided to ensure that the movement is blocked when the power reserve approaches zero.

SUMMARY OF THE INVENTION

[0005] The main purpose of the invention is therefore to overcome the drawbacks of the state of the art by proposing a mechanical watch movement equipped with power reserve detection means and capable of blocking the operation of the movement, when the power reserve is close to zero.

To this end, the present invention relates to a mechanical timepiece movement provided with power reserve detection means, which comprises the characteristics of independent claim 1.

[0007] Particular embodiments of the mechanical clock movement are defined in dependent claims 2 to 12.

[0008] An advantage of the mechanical watch movement lies in the fact that it is possible with the same element that can be moved by the cam wheel set to control the indication of the power reserve and to effect blocking by the member blocking the movement, when the power reserve is at zero. Even with the power reserve indication at zero, the barrel of the barrel system is still sufficiently charged to operate the watch movement. However, advantageously, the mechanical clock movement is blocked for safety when the power reserve indication is at zero.

BRIEF DESCRIPTION OF FIGURES

[0009] The aims, advantages and characteristics of a mechanical watch movement provided with power reserve detection means will appear better in the following description in a non-limiting manner with regard to the drawings in which: FIGS. 1a and 1b show a three-dimensional top view of an embodiment of a mechanical timepiece movement provided with power reserve detection means according to the invention, FIG. 2 represents a top view of the cam mobile of the mechanical timepiece movement according to the invention, and FIG. 3 represents the blocking member in contact with the movable element for blocking the mechanical timepiece movement when the power reserve is at zero according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0010] In the following description, all the components of a mechanical watch movement equipped with power reserve detection means, which are well known to a person skilled in the art in this technical field, are only described in a simplified manner. .

Figures 1a and 1b show a three-dimensional top view of the components of the mechanical timepiece movement 1 in the normal operating position in Figure 1a and in the blocking position of the movement in Figure 1b. Mechanical timepiece movement 1 comprises at least one barrel system, not shown, which is arranged for example on one face of a watch plate of the movement or on another support plate. This barrel system can be with a single barrel or with two barrels or more than two well-known barrels and having a charge output and a discharge output to drive a time base train.

[0012] The mechanical clock movement 1 comprises for example a differential 2, which is rotatably mounted around an axis of rotation, and connected respectively to the charge output and to the discharge output of the barrel system. The differential 2 is connected directly or via a speed reduction or speed multiplier stage to the charge output and to the discharge output of the barrel system. Preferably, the differential 2 is connected via a rotation speed reduction stage to the charge output and to the discharge output of the barrel system so as to reduce the rotation for the detection of the power reserve. explained below.

The differential 2 comprises a first load wheel 2c and a second discharge wheel 2d preferably arranged on the same axis of rotation as the first load wheel. The differential 2 also comprises an intermediate wheel 2i between the load wheel 2c and the unloading wheel 2d and in contact with the load wheel and the unloading wheel in particular by means of a ball bearing arrangement or rollers.

[0014] In normal operation of the clock movement after a charging operation of the barrel system, the charging wheel 2c remains stationary without rotation, while the discharge wheel 2d is rotating. In this way, the intermediate wheel 2i is rotated in the same direction as the discharge wheel 2d, but with a rotational speed smaller than the rotational speed of the discharge wheel 2d.

The intermediate wheel 2i of the differential 2 is connected to a mobile cam 4, for example by means of a speed reduction stage 3. This reduction stage may be a drive wheel 3, the periphery of which external toothed gear can mesh with an external toothing of the intermediate wheel 2i, while a central pinion 3' of smaller diameter comes into contact with the cam wheel set 4. This cam wheel set 4 can also be a wheel 4, on which is arranged , fixed on the axis of rotation, a disk or at least one angular sector 4' acting as a cam to drive a movable element 5 for actuating a power reserve indicator. The disc or the angular sector can come from material or be made with the wheel of the mobile 4 in contact with the central pinion 3 'of the drive wheel 3. The wheel of the mobile 4 and the central pinion 3' can be with a toothing to mesh with each other.

As shown in Figure 2, the periphery of the disk or of the angular sector 4 'define a curve with a distance to the variable axis of rotation from a first end of the disk or of the angular sector 4' to a second end of the disk or angular sector. The radius or the distance from the axis of rotation of the periphery of the disk or of the angular sector is variable from the first end to the second end. Preferably, the distance to the axis of rotation can decrease at least over part of the disk or of the angular sector between the first end and the second end and in a regular manner. The distance d1 to the axis of rotation of the first end of the disc or of the angular sector is greater than the distance d2 to the axis of rotation of the second end of the disc or of the angular sector 4 'to control a blocking of the movement .

[0017] The movable element 5 comprises a corner 15 to come into contact with the periphery of the disc or of the angular sector 4' while being pushed against the periphery by a spring 6 as shown in FIGS. 1a and 1b. This spring 6 pushes the movable element 5 against a side surface towards the periphery of the disk or of the angular sector 4'. This movable element 5 can be rotatably mounted around an axis of rotation. As shown in Figures 1a and 1b, the movable element 5 can be in the form of a rake of flat shape, but any other shape can be envisaged for this movable element.

[0018] When the barrel(s) of the barrel system are fully loaded, the corner 15 of the rake 5 comes into contact with an abutment 14 of the first end of the disk or of the angular sector 4', where the radius or the distance at the center of rotation is the greatest. A power reserve indicator 7 is thus provided to display a full charge indication. This power reserve indicator comprises a display wheel 7 possibly with a needle, not shown, fixed on the axis of rotation of the display wheel 7. The display wheel 7 is for example driven in rotation in contact with a inner surface of an opening 17 of oblong shape of the rake 5 at a distance from its axis of rotation. The display wheel 7 can be toothed to mesh with an internal toothing of the opening 17 of oblong shape of the rake 5.

[0019] When the power reserve approaches zero, the radius or the distance of the corner 15 of the rake 5 in contact with the center of rotation is the smallest at the second end of the disc or of the angular sector. In this case, the rake 5 comprises a blocking part 15' coming into contact with a blocking member 10. This blocking member 10 is linked directly to the discharge outlet of the barrel system or to the discharge wheel 2d differential 2 to block the watch movement, when the power reserve (RDM) is at zero.

This locking member 10 is an intermediate mobile between the discharge output wheel of the barrel system and the discharge wheel 2d of the differential and can also act as a reduction stage. It can also be envisaged to have the locking member 10 linked to other wheels of a reduction stage from the discharge outlet of the barrel system to the discharge wheel 2d of the differential 2. The locking member lock 10 takes the form of a rod 11 with a toothed portion or not, which is rotatably mounted. This portion in the form of a wheel 11' on the rod 11 can come into contact with an output wheel of the barrel system or preferably with the discharge wheel 2d of the differential 2. At least one tooth 12' on the locking member 10 rotatably mounted is provided to be hooked by a notch 15 'of the blocking part of the rake 5, when the power reserve is at zero.

In Figures 1a and 1b and 4, the locking member 10 therefore comprises a star-shaped wheel 12 for example with three teeth 12 ', which is fixed on the rod 11 above the portion in form of wheel 11′ mounted on rod 11 in contact with relief wheel 2d of differential 2. However, the number of locking teeth provided is not important provided that one of the teeth comes into contact with notch 15′ of the blocking part of the rake 5.

From the description which has just been given, several variant embodiments of the mechanical clock movement with power reserve detection means can be designed by those skilled in the art without departing from the scope of the invention. defined by the claims. Provision may be made for the movable element to actuate the power reserve indicator and come into contact with the blocking member when the power reserve is at zero to be moved in a rectilinear manner and not in a rotary manner by the mobile at cam. The clock movement can be in the form of a module with all the elements arranged in said module.

Claims (12)

1. Mechanical clock movement (1) with indication of the power reserve, comprising at least one barrel system in connection with a load wheel (2c) of a differential (2) and an unloading wheel (2d) of the differential (2), an intermediate wheel (2i) of the differential (2) being in connection with at least one cam mobile (4) to drive it in rotation, a movable element (5) in contact with the cam mobile (4) acting on a power reserve indicator (7) to be displayed, characterized in that the movable element (5) is arranged to activate a blocking member (10) to block the movement at a discharge outlet of the barrel system or in contact with the discharge wheel (2d) of the differential ( 2), when the power reserve is at zero. 2. Mechanical clock movement (1) according to claim 1, characterized in that the cam wheel set (4) is rotated by means of a stage (3) rotation speed reducer disposed between the wheel intermediate (2i) and a wheel of the mobile cam (4). 3. Mechanical clock movement (1) according to claim 2, characterized in that the reduction stage (3) comprises a drive wheel (3) in contact with the intermediate wheel (2i) of the differential (2), and in that a central pinion (3') of the drive wheel (3) is in contact with the wheel of the mobile cam (4). 4. Mechanical clock movement (1) according to claim 1, characterized in that the cam wheel (4) comprises a wheel in connection with the intermediate wheel (2i) of the differential (2) and a cam (4 ') above the wheel to be in contact with a corner (15) of the movable element (5). 5. Mechanical clock movement (1) according to claim 4, characterized in that the cam (4 ') of the mobile cam (4) is a disc or an angular sector, disposed on the axis of rotation of the wheel of the cam mobile (4), the distance from the axis of rotation to the periphery of the disk or of the angular sector (4') in contact with the corner (15) of the movable element (5) decreasing between a first end and a second end of the disc or of the angular sector so as to move the movable element (5) between a fully loaded position and a movement blocking position. 6. Mechanical clock movement (1) according to claim 5, characterized in that the cam (4') comprises a stop (14) at the first end, where the distance to the axis of rotation is the greatest and against which the corner (15) of the movable element (5) rests in the fully loaded position of the barrel system. 7. Mechanical clock movement (1) according to claim 5, characterized in that the periphery of the disc-shaped cam 4' defines a curve with a distance to the variable axis of rotation from the first end of the disc to the second end of the disc. 8. Mechanical clock movement (1) according to claim 5, characterized in that the movable element (5) is a rake rotatably mounted around an axis of rotation. 9. Mechanical clock movement (1) according to claim 8, characterized in that the rake (5) is pushed against the mobile cam (4) by means of a spring (6). 10. Mechanical clock movement (1) according to claim 8, characterized in that the rake (5) comprises an opening (17) of oblong shape in which is placed a wheel (7) of the power reserve indicator , the wheel (7) of the indicator being in contact with an inner surface of the opening (17) so as to be driven in rotation by the movement of the rake (5) pushed by the mobile cam (4). 11. Mechanical clock movement (1) according to claim 8, characterized in that the rake (5) is flat in shape with a notch (15') on a blocking part coming into contact with the blocking member ( 10) in a blocking position, when the corner (15) of the rake (5) is at the second end of the disk or of the angular sector of the cam (4'). 12. Mechanical clock movement (1) according to claim 1, characterized in that the locking member (10) comprises a rod (11) rotatably mounted and with a wheel-shaped portion in contact with a wheel of discharge outlet of the barrel system or of the discharge wheel (2d) of the differential (2), and in that the locking member (10) comprises a star wheel (12) with at least one tooth (12' ) blocking fixed on the rod (11) to be hooked in the blocking position of the movement by a notch (15 ') of the movable element (5), when the power reserve is at zero.