CH710902A2 - Watch movement comprising a drive device of an analog display. - Google Patents

Abstract

Watch movement (2) comprising a date display drive device formed of a display disc (4) comprising a toothing (5), this training device comprising a drive (6) and a driving source (8). The drive comprises a pin-like carriage (10) having a toothed wheel (12) and a pinion gear (14), and an engagement wheel (18) engaging the toothed wheel. The pinion gear comprises at least one pair of pins (16), configured for their positioning on either side of any tooth of the toothing (5). The toothed wheel of the pin wheel and the engagement wheel respectively have two complementary non-circular profiles. When the two pins are oriented in a direction tangential to the toothing, these two wheels have a first gear ratio less than a second gear ratio between them when these two pins have an alignment perpendicular to this tangential direction.

Description

Field of the invention

The present invention relates to a watch movement comprising a drive device of an analog display, including a calendar display.

The present invention also relates to a watch movement comprising a drive device of two independent analog indicators by a single power source, in particular an electromagnetic motor.

Summary of the invention

An object of the invention is to provide a drive of an analog display, in particular a date ring in a watch movement, which is resistant to shocks most of the time.

Another object of the invention is to provide a drive device for a multifunctional analog display having a single power source, in particular a drive of a date ring and a chronograph hand at the same time. using a single motor, which is effective for each function of this display and which allows independent activation of at least one function relative to a second function of this display

It is advantageous to provide a display driving device for a watch movement that is economical to manufacture.

It is advantageous to provide a drive device for a display for a watch movement that is compact.

Objects of the invention are made by a watch movement comprising a drive device of an analog display according to claim 1. The dependent claims describe advantageous aspects of the invention.

In the present invention, a watch movement comprises a drive device of an analog display including a display disk comprising a toothing, a drive source and a drive coupling the drive source to the toothing. The drive comprises a pin wheel, formed of a toothed wheel and a pinion gear, and an engagement wheel engaging said toothed wheel of the pin mill. The pinion gear comprises at least two pins spaced by a distance configured for their positioning on either side of any tooth of said toothing. The toothed wheel has a first non-circular profile and the engagement wheel has a second non-circular profile which is complementary to the first non-circular profile, the toothed wheel and the engagement wheel being arranged relative to each other. so that, when the two pins are oriented in a direction tangential to the toothing, these two wheels have a first gear ratio which is less than a second gear ratio therebetween when these two pins have an alignment perpendicular to this tangential direction.

According to a preferred embodiment, the two pins are arranged to define, when these two pins are oriented tangentially to the teeth of the display disk, a self-locking system in the event of a shock exerting a tangential force on this toothing.

By 'non-circular profile of a wheel', it includes a wheel having a toothing which follows a general curve other than a circle or a wheel having a toothing substantially following a general circle but whose axis of rotation n is not at the center of this general circle. According to a particular embodiment, the non-circular profile of the toothed wheel of the pin wheel is elliptical or substantially elliptical.

According to a particular embodiment of the invention, the pinion gear is configured relative to the toothing of the display disk so as to have a dead angular zone for driving the display disk. The angular distance of the dead angular area is greater than ten degrees. According to one preferred variant, the two pins of the pinion gear block, in the event of an impact, the rotation of the display disk when the pinion gear is in an angular position of the dead angular zone.

According to a main embodiment, a reduction ratio between the engagement wheel and the pin wheel is greater in the aforementioned dead angular zone than outside thereof.

According to an advantageous embodiment, at least one of the wheels of the drive comprises an auxiliary display element, the auxiliary display element being able to operate in the dead angular zone independently of the display disk. above.

According to one embodiment, the auxiliary display wheel is configured to rotate at least 360 ° when the pinion gear angularly moves within the dead angular zone. The auxiliary display element may for example be a needle mounted on an axis of the auxiliary display wheel. According to a particular variant, the auxiliary display wheel is a chronograph wheel.

According to one embodiment, the driving source comprises an electric motor controlled by an electronic unit of the watch movement. This engine can be bidirectional.

Other objects and advantageous aspects of the invention will appear on reading the claims, as well as the detailed description of embodiments below.

Brief description of the drawings

The following detailed description is made with reference to the accompanying drawings, given by way of non-limiting examples, in which: <tb> Fig. 1 <SEP> is a schematic perspective view of a display driving device for a watch movement, according to one embodiment of the invention, this figure illustrating a date disc moving from a position stop at a next stop position; <tb> Fig. 2 <SEP> is a corresponding plan view of the embodiment of FIG. 1 but with the date disc in a stop position, namely rest or non-drive; <tb> Fig. 3A <SEP> is a view illustrating a partial enlargement of FIG. 2; <tb> Fig. 3B <SEP> is a view similar to FIG. 3A but showing the driving device in a limit position of a dead angular zone in which the date disc remains stationary; and <tb> Fig. 3C <SEP> is a view similar to FIG. 3A but showing the position of FIG. 1 where the date disk is moving from a stop position to a next stop position.

Detailed description of the invention

Referring to the figures, a watch movement 2 comprises a drive device of a display according to one embodiment of the invention. This display is formed by a display disk 4 and the driving device comprises a drive 6 and a driving source 8. The driving source 8 may for example comprise an electric motor controlled by an electronic unit (not shown) of a watch movement of the electronic type. In the context of the invention, the driving source 8 may also include a source of mechanical energy driving a mechanical engine, or a hybrid system. The invention is especially useful for a power source 8 comprising an electric motor whose torque at rest is relatively low and where a locking mechanism of the drive 6 is necessary in case of impact. In the illustrated embodiment, the electric motor comprises an output gear 22 coupled to a wheel train 20c, 20b, 20a of the drive 6. The wheel train 20c, 20b, 20a is coupled to the display disk 4 through a pin mobile 10 and a wheel 18 for engaging the pin mobile. The engagement wheel 18 is fixedly mounted on another gear 19 coupled to the wheel train 20a, 20b, 20c.

In the illustrated embodiment, the display disc 4 is in the form of a ring comprising a toothing 5 at the inner periphery of the ring, the toothing 5 engaging the pin-shaped mobile 10. In a variant (not shown) the toothing 5 could be disposed at the outer periphery of the display disc which could be in the form of either a solid disc or a ring. In a variant (not shown), the display disc could be a segment of ring or disc, the display device being bidirectional in this case. In one embodiment, the display disk is a date display disk, namely a disk indicating the date (day of the month). In the context of the invention, in other embodiments, the display disk could be used to display any other non-continuous function such as for example the functions: "AM / PM"; 'CHR' for chronograph; "GMT"; TMR 'for timer; "AL On / AL Off" for activating / deactivating an alarm clock.

The pin mobile 10 comprises a toothed wheel 12 with a non-circular profile 13a, and a pinion pinion 14 comprising pins 16, including a pair of pins 16a, 16b. The pinion pinion 14 may for example be in the form of a pair of cylindrical pins disposed on either side of the axis of rotation A10of the toothed wheel 12 and fixed directly to the toothed wheel or to a mounted plate or disc. The pins may also be directly part of the gearwheel 12, for example by injecting, forming or machining the pins integrally with the toothed wheel 12.

In a stop position as illustrated in FIGS. 2 and 3a, the pins 16a, 16b are configured to be disposed on either side of any tooth 5a of the display disk. In the stop position, the pins block a rotation of the display disc 4. Indeed, in this position, the pair of pins 16 is essentially oriented so that a line crossing the pins and the axis of rotation A10de the pin wheel 10 corresponds to a tangential direction T to the direction of rotation of the display disk on the engaged tooth, in other words to a direction tangential to the general circle defined by the toothing 5 at a point corresponding to the tooth 5a. The distance die separating the pair of pins 16a, 16b corresponds to the thickness d5 of a tooth 5a plus a certain clearance allowing the pair of pins to pivot about a tooth so that the axis of rotation A10 of the pinion pinion may be at a certain depth with respect to the free end 21 of the tooth 5a. This allows the pins 16a, 16b to be positioned on either side of the tooth 5a and to be rotatable between two limit angles +/- gold relative to the tangential direction 7 ", the angular distance between these two limit angles -α and + α forming a dead angular zone for driving the display disk, that is to say an angular zone where the pin mobile does not drive the display disk. In particular, the pinion gear is configured with respect to the toothing of the display disk so as to have a dead angular zone (+/- α) for driving the display disk superior to a conventional gear set . The angular distance of the dead angular zone is generally greater than or substantially equal to ten degrees (5 ° <| a |).

The distance between the pins, the dimensions of the tooth and the position of the axis of rotation of the pinion gear are preferably configured so that the absolute value of the two limit angles +/- α relative to the tangential direction 7commences above a usual maximum value of the game in a train (about 5 ° in unfavorable cases) to extend, in a preferred variant, approximately until the end of the autoblocking zone allowing a disc lock during a shock (in particular between +/- 10 ° and +/- 200 depending on the drive mechanisms). The dead zone may nevertheless extend beyond this limit according to the variant embodiments. Thus, this angular distance can be greater than 40 °. In the example shown in FIG. 3B, the angular distance is substantially equal to 90 ° (+/- 45 °). However, in a particular embodiment with an auxiliary function which will be described later, it is possible to limit voluntarily the use of the dead zone at the self-locking angular zone for the pin-wheel. In this self-locking angular zone, when there is a rotational force applied to the display disk 4, for example an inertial force due to an impact, the tooth 5a engages one or other of the pins 16a, 16b which blocks the rotation of the display disk relative to the drive 6. According to two particular modes, it is possible to use the dead angular zone between the limit angles -α and + α or the self-locking angular zone (it being understood that the angular distance of the latter is less than or equal to that of the dead angular zone) for other auxiliary functions, for example a chronograph function, since the display disc 4 remains in its stop position between the limit angles -α and + α.

In the example illustrated, the auxiliary function can be performed by one or more needles 24 mounted on one or more axes of the wheels 20a, 20b, 20c of the wheel train coupling the driving source 8 to the pin-shaped mobile 10. In the illustrated example, one of the wheels is a chronograph wheel 20a with an axis on which the chronograph hand 24 is mounted, the reduction ratio between this wheel and the pinion gear 14 being such that when the wheel performs a turn , the pinion gear performs at most one rotation angle α corresponding to half the angular distance of the dead zone +/- α. In this chronograph function, when the chronograph hand 24 has completed a complete revolution, it is turned back by the electric motor so that the counting can be continued without changing the position of the display disc 4. chronograph wheel can be used for example for the indication of seconds, minutes or hours. In the dead angular zone -α to + α, it is therefore possible to use the wheels of the wheel set 20a, 20b, 20c coupled to the driving source 8 for any desired function without disturbing the display of the display disc. 4; which makes it possible to reduce the number of engines required in the watch movement for the various desired functions. Of course, depending on the reduction ratios and the desired display, another wheel of the train than that used in the example illustrated or an additional wheel, in meshing relation with one of the wheels of the wheel train, could be used for the desired function.

According to one aspect of the invention, the toothed wheel 12 of the pin-shaped wheel 10 as well as the wheel for engaging the pin wheel 18 have non-circular profiles 13a, 13b configured for a slower angular rotation in the angular zone only in the active zone (outside the dead angular zone). This makes it possible to make a quick transition of the display when one is no longer in the dead angular zone. A first advantage is that it allows a rapid change of position of the display disk 4 and in particular to minimize the time interval during which the pinion pinion 14 is outside an angular zone where the pinion pinion blocks not surely the display disk 4 in case of shock or other inertial couples applied to the display disk with respect to the drive 6.

In addition, the configuration according to the embodiment shown allows to have a reduction ratio between the engagement wheel 18 and the pin wheel 10 more important in the dead angular zone than in the active zone (excluding of the dead angular area). This makes it possible to reduce the reduction ratio required in the drive to obtain in particular an entire rotation of the chronograph wheel 20a while remaining comfortably in the dead angular zone - / + α. In a preferred embodiment, the auxiliary display wheel 20a is configured to be able to rotate at least 360 ° during angular displacement within the dead angular area. In the invention, for a given minimum driving torque which is necessary for driving the display disk by the pinion gear, an angular zone is obtained at the wheel 20a, corresponding to the dead angular zone of the wheel. mobile pin, which is larger than in the case of circular wheels with central axes of rotation. For a rotation of the limit angle α of the dead angular zone of the pinion gear 14, the maximum angular distance traveled by the wheel 20a associated with an auxiliary indicator 24 is obtained thanks to a maximum multiplication between the pinion pinion 14 and the pinion 14. wheel 20a, and therefore at a maximum reduction in the other direction. In the dead angular zone around the tangential position of the two pins 16a, 16b, there is therefore a strong reduction between the wheel 20a and the pinion pinion 14. Thus, the wheel 20a can rotate over a relatively wide angular range without that the display disk 4 does not move significantly.

In one embodiment, the non-circular profile 13a of the toothed wheel 12 may for example have an elliptical or substantially elliptical shape, the non-circular profile 13b of the pin wheel of the engagement wheel 16 being complementary . The non-circular profile 13b of the wheel for engaging the pin wheel 18 is in the illustrated example eccentric with respect to the axis of rotation A18 of this wheel. The engagement wheel 18 therefore performs two turns for each turn of the pin-type mobile 10. The tooth profiles can be configured for point or in-line contact to minimize frictional forces, which profiles can be defined using methods in themselves known.

In a preferred embodiment, the watch movement further comprises a jumper positioning the display disc, said jumper being arranged to maintain the display disc in a plurality of distinct display positions. In an advantageous variant, a substantially identical tangential clearance is provided, when the display disk is in any position of the plurality of distinct display positions, between the two pins 16a, 16b oriented tangentially and a corresponding tooth 5a of the toothing 5 which is inserted between these two pins.

In the illustrated example, the motor pinion 22 is coupled through three successive wheels 20c, 20b, 20a to the wheel 19 on which the engagement wheel of the pin wheel 18 is mounted, but it is of course possible to have another number or arrangement of wheels in the drive 6 according to the characteristics of the driving source 8, the reduction ratio between the wheels of the wheelset 20a, 20b, 20c, the dimensions of the display disk, and the desired auxiliary display function.

Advantages of embodiments of the invention include among others: the bidirectionality of the display disk, the optimization of the time during which the display disk remains in a locked position, a compact mechanism with few parts , and the possibility of integrating this technology into a modular platform of traditional watch movements.

List of references

[0030] <tb> Watch movement 2 <tb> <SEP> Date Display Disk 4 <tb> <SEP> <SEP> Denture 5 <tb> <SEP> <SEP> <SEP> Tooth 5a <tb> <SEP> Device for driving a display <tb> <SEP> <SEP> Training 6 <tb> <SEP> <SEP> Pin Mobile 10 <tb> <SEP> <SEP> <SEP> axis of rotation A10 <tb> <SEP> <SEP> <SEP> Gearwheel 12 <tb> <SEP> <SEP> <SEP> <SEP> Non-Circular Profile 13a <tb> <SEP> <SEP> <SEP> Pinion pinion 14 <tb> <SEP> <SEP> <SEP> <SEP> Pins 16 (pair of pins 16a, 16b) <tb> <SEP> Engagement wheel 18 (pin wheel) <tb> <SEP> <SEP> <SEP> Non Circular Profile 13b <tb> <SEP> <SEP> <SEP> axis of rotation A18 <tb> <SEP> Gear wheel 19 <tb> <SEP> Wheels 20a, 20b, 20c <tb> <SEP> <SEP> Auxiliary display wheel (eg chronograph) 20a <tb> <SEP> Driving Source 8 <tb> <SEP> <SEP> <SEP> Engine Sprocket 22 <tb> <SEP> <SEP> <SEP> Electric Motor <tb> Auxiliary display needle 24 <tb> Limit angle α of a dead angular zone (half angular distance from the zone) <tb> T tangential direction <tb> D16distance between the pair of pins <tb> thickness of a tooth

Claims (14)

A watch movement comprising a drive device of an analog display (2) formed by a display disc (4) comprising a toothing (5), the driving device comprising a driving source (8) and a drive (6) coupling said driving source (8) to the toothing (5), said drive comprising a pin-shaped carriage (10) formed of a toothed wheel (12) and a pinion gear (14), and a engagement wheel (18) engaging said gear wheel, the pinion gear comprising at least two pins (16a, 16b) spaced apart by a distance (d16) configured for their positioning on either side of any tooth of said toothing (5), characterized in that said toothed wheel has a first non-circular profile (13a) and said engagement wheel (18) has a second non-circular profile (13b) which is complementary to the first non-circular profile, and what the toothed wheel and the engagement wheel are arranged the u relative to the other such that, when said two pins are oriented in a tangential direction (7) to said toothing, these two wheels have a first gear ratio which is less than a second gear ratio between them ci when these two pins have an alignment perpendicular to this tangential direction. 2. watch movement according to the preceding claim, characterized in that said two pins are arranged to define, when these two pins are substantially oriented tangentially to said toothing of the display disc, a self-locking system in case of shock suffered by the watch movement and exerting a tangential force on this toothing. 3. watch movement according to the preceding claim, characterized in that said pinion pinion comprises only two pins diametrically opposed relative to the axis of rotation of said pin-shaped mobile. Clock movement according to one of the preceding claims, characterized in that the pinion gear is configured with respect to the toothing of the display disk so as to have a dead angular zone (+/- α) for the drive. of the display disk, and in that the angular distance of the dead angular zone is greater than ten degrees (5 ° <| a |). 5. Horological movement according to the preceding claim, characterized in that said two pin pins pin lock, in case of shock, the rotation of the display disk when the pinion pinion is in an angular position of said angular zone dead. 6. Watch movement according to one of the two preceding claims, characterized in that a reduction ratio between the engagement wheel (18) and the pin-shaped wheel (10) is greater in the dead angular zone than in outside this dead angular area. Clock movement according to one of Claims 4 to 6, characterized in that at least one auxiliary display wheel (20a) of the drive (6) comprises an auxiliary display element (24), this element auxiliary display can operate in the dead angular zone (- / + α) without changing the position of the display disc (4). 8. Watch movement according to the preceding claim, characterized in that the auxiliary display wheel (20a) is configured to be able to perform a rotation of at least 360 ° during an angular displacement within the dead angular zone. . Clock movement according to one of the two preceding claims, characterized in that the auxiliary display element is a needle (24) mounted on an axis of the auxiliary display wheel (20a). 10. Watch movement according to the preceding claim, characterized in that the auxiliary display wheel forms a chronograph mechanism. 11. watch movement according to one of claims 4 to 10, characterized in that it further comprises a jumper positioning the display disc, said jumper being arranged to maintain the display disc in a plurality of separate positions. 12. Watch movement according to the preceding claim, characterized in that a substantially identical tangential backlash is provided, when the display disk is in any position of said plurality of distinct positions, between said two pins tangentially oriented and the corresponding tooth. of said toothing which is inserted between these two pins. Clock movement according to one of the preceding claims, characterized in that the driving source is formed by a bidirectional electric motor controlled by an electronic unit of the watch movement. 14. Watch movement according to one of the preceding claims, characterized in that the display disk is a date ring.