CH707593A2 - Timepiece i.e. watch, has distribution system comprising auxiliary spring elastically connecting force intake to wheel, where system is arranged in such manner that wheels are simultaneously subjected to torque during arming of spring - Google Patents

Abstract

The timepiece has a barrel equipped with a spring that is connected to a shaft (12) and a drum of the barrel at inner and outer ends. A winding system (16) is arranged for arming the spring. A distribution system (18) is inserted between a force intake of the barrel and a wheel of the timepiece. The system includes an auxiliary spring (20) elastically connecting the intake to the wheel. The system is arranged in such manner that the wheel and another wheel are simultaneously subjected to torque during arming of the spring.

Description

Technical area

The present invention relates to the field of watchmaking. More particularly, it relates to a timepiece comprising a barrel with a spring connected, by a first of its inner ends, to a shaft of the barrel and by its second end, outer, to a drum. The barrel is arranged to supply energy by a first power take-off and a second power take-off respectively to a first gear train associated with a first mechanism and a second gear train associated with a second mechanism. The timepiece further comprises a winding system arranged to arm the spring of the barrel.

State of the art

There are timepieces with one or more barrels feeding the finishing gear of a movement, under the control of a regulating member. When these parts have an additional mechanism consuming a lot of energy, such as a bell, this additional mechanism is usually provided with its own independent energy source, so as not to disrupt the movement and not to spoil its power reserve. .

One can also increase the power reserve by having several barrels in series. We then have a single power take-off which feeds the movement, from which we can supply energy to various additional mechanisms or complications.

Rarely, a single energy source formed by a cylinder or several interconnected barrels, is used to feed both directly from the barrel, the gear train and the additional mechanism. Indeed, in this case, the barrel drum is used to transmit a torque, but also the shaft of the barrel which is used both for winding the barrel and for transmitting the torque stored by the barrel. However, there must be a safety system to disengage the winding system during the feeding of the gear train and the additional mechanism. In addition, the additional mechanism can not work when Tanning the barrel.

The present invention aims to solve these disadvantages.

Disclosure of the invention

More specifically, the invention relates to a timepiece as defined in the claims.

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: <tb> figs. 1a and 1b <SEP> are respectively views from above and in section of a first embodiment of a timepiece according to the invention, <tb> figs. 2a and 2b <SEP> are respectively views from above and in section of a second embodiment of a timepiece according to the invention, and <tb> fig. 3 <SEP> represents a further embodiment.

Embodiment of the invention

The invention relates to a timepiece comprising a barrel 10 provided, conventionally, a spring not shown. The latter is connected, by a first of its ends, inside, to a shaft 12 of the barrel and by its second end, external, to a drum 14 of the barrel. The timepiece further comprises a winding system 16 arranged to arm the spring of the barrel 10. This winding system 16 may be automatic and / or manual type, as is well known to those skilled in the art.

The barrel 10 is arranged to provide energy by a first power take-off and a second power take-off. In other words, there is no locking pawl at a ratchet or the winding system 16, which generally forces the mainspring spring 10 to unwind only at the drum 14. Any one of these power take-offs can be used to feed a finishing gear train enabling the energy of the barrel 10 to be transmitted to a regulating member and the other of these power take-offs to supply a striking mechanism. This second power take-off could also be used to feed a second regulator member or an additional complication, such as a second dead. More generally, the first PTO and the second PTO are respectively connected to a first gear associated with a first mechanism and a second gear associated with a second mechanism.

According to the invention, the timepiece further comprises a distribution system 18 interposed between one of the power take-offs of the barrel 10 and the first gear powered by the first power take-off.

As in figs. 1 and 2, the distribution system 18 can be connected firstly to the shaft 12 of the barrel and arranged to receive a winding torque of the winding system 16 and to transmit it to the mainspring spring 10. D on the other hand, the dispensing system 18 is connected to the first power take-off, to transmit to it a torque provided by the barrel spring 10 when it is armed.

The dispensing system 18 further comprises an auxiliary spring 20 resiliently connecting the first power take-off at the first wheel. The dispensing system 18 is arranged so that the first and second wheels are simultaneously subjected to a torque, including during the winding of the mainspring spring 10.

We will now describe in detail different embodiments, with different distribution systems.

A first embodiment is proposed in FIGS. 1a and 1b. The dispensing system 18 comprises: A ratchet 22 kinematically connected to the winding system 16 and integral with the shaft 12 of the barrel 10, A ratchet wheel 24 integral with the shaft 12 of the cylinder 10, and An output wheel 26 connected unidirectionally with the ratchet wheel 24.

The latching wheel 24 has, typically, a sawtooth type toothing. At least one pawl 28 is disposed on the output wheel 26 so as to cooperate with the ratchet wheel 24 under the action of springs, in order to link in rotation said output wheel 26 and said ratchet wheel 24 when the normal running of the timepiece and so as not to transmit to the output wheel, a rotation of the ratchet wheel induced by an arming of the mainspring spring 10 via the ratchet 22. Indeed, during the normal operation of the watch, that is to say when the mainspring spring 10 expands, the ratchet wheel 24 is driven, with reference to FIG. 1a, counterclockwise. The pawl 28 is then kept engaged in the teeth and drive the output wheel 26 also in the opposite direction of clockwise. When reassembling, the ratchet wheel 24 is driven in the clockwise direction. The ratchet unclips 28 and the output wheel 26 is not driven by the ratchet wheel.

In a preferred embodiment, the output wheel 26 is engaged with a wheel of the finishing train of the timepiece, more particularly with a wheel of high average 30. The latter must be permanently subject to the action of a couple, so as not to stop the operation of the regulating organ. Thus, during winding of the mainspring spring 10 by the winding system 16, even if the torque of the barrel 10 is still available at the shaft 12 of the barrel 10, the large average 30 would no longer be subject to this condition. couple. To overcome this drawback, the dispensing system 18 further comprises an auxiliary spring 20 to be connected elastically to the wheel of medium 30.

More specifically, the output wheel 26 is engaged with a pinion 32 integral with a sleeve 34 to which is fixed a first end of the auxiliary spring member 20, a second end is connected to the wheel of large mean 30, freely mounted on the sleeve 34. The auxiliary spring 20 may be a spiral, as shown, or of another type. In normal operation, the auxiliary spring 20 is kept armed by the mainspring spring 10 and, during a winding, the auxiliary spring 20 takes over the mainspring spring 10 to exert a torque on the medium wheel 30 while the shaft 12 is driven in the direction of clockwise.

To prevent the auxiliary spring 20 is unwound on the side of the output wheel 26, the angular position of the output wheel must be maintained during arming. To do this, the output wheel cooperates further with at least one locking pawl 36, arranged to maintain the angular position of the output wheel 26 during winding of the spring.

Thus, when the barrel spring 10 is armed, it provides a torque at its drum 14, which defines the second PTO. This drum 14 can be kinematically connected to a striking mechanism or the like, to provide energy when actuated by its own trigger system. Although not shown, those skilled in the art can, without effort, imagine how the barrel drum 14 can feed a striking mechanism. The barrel spring 10 also simultaneously provides a torque at its shaft 12 which defines the first PTO. Through the dispensing system 18, the barrel spring 10 supplies energy to the finishing gear train. During the winding of the barrel 10, a torque is always transmitted to the second PTO, so that the striking mechanism can work if a function is triggered during arming. Thanks to the dispensing system 18, even during reassembly, a torque is supplied to the work train, if necessary by the auxiliary spring 20.

In a second embodiment illustrated in FIGS. 2a and 2b, the dispensing system 18 comprises a differential 40 with: An input connected kinematically to the winding system 16, An input / output connected to a ratchet 22 integral with the shaft 12 of the cylinder 10, and - An output connected elastically to the gear of the first mechanism.

More specifically, the input is a planet carrier 42 having a peripheral toothing engaged with the winding system 16 and rotatably mounted on the axis of the differential. At least one satellite 44 is rotatably mounted on the planet carrier, with a pinion on each side of the planet carrier, each being respectively engaged with first and second solar gears. The solar gears are secured respectively to a first 46 and a second 48 solar wheels, each pair pinion-solar wheel is free on the axis of the differential.

Also, the input / output is a solar wheels 46, 48, in engagement with a ratchet integral with the shaft 12 of the barrel 10. Thus, a winding torque provided by the winding system 16 causes the rotation of the planet carrier 42 and the first 46 of the solar wheels. The winding torque is thus transmitted to the ratchet. The satellite is in fact locked in rotation on itself, by the fact that the second 48 of the solar wheels, which defines the output of the differential, is connected to a cog that blocks it. If the output is connected to the work train and to a regulating member cooperating with an exhaust, the stopping phases of the exhaust block the second sun wheel in rotation relative to the first sun gear.

Like the one proposed in the first embodiment, the second sun gear 48 which defines the output of the differential, is engaged with a pinion 32 elastically connected to a wheel of high average 30. The pinion 32 is integral with a bush 34 to which is fixed a first end of the auxiliary spring 20, a second end is connected to the wheel of medium 30, freely mounted on the sleeve. The angular position of the output of the differential is also maintained by a locking pawl 36, in order to prevent the auxiliary spring 20 from unwinding towards the differential 40.

Thus, when the barrel spring 10 is armed, it provides a torque at its drum 14, which defines the second power take-off. This drum 14 can be kinematically connected to a striking mechanism or the like, to provide energy when actuated by its own trigger system. Although not shown, those skilled in the art can, without effort, imagine how the barrel drum 14 can feed a striking mechanism. The barrel spring 10 also simultaneously provides a torque at its shaft 12 which defines the first PTO. The planet carrier 42 is then blocked by the winding system 16 and the torque supplied to the first sun gear 46 is transmitted to the second sun gear 48 by the rotation on itself of the satellite 44. Thus, via the distribution system 18, the barrel spring 10 supplies energy to the finishing gear train. During the winding of the barrel 10, a torque is always transmitted to the second PTO, so that the striking mechanism can work if a function is triggered during arming. Thanks to the dispensing system 18, even during reassembly, a torque is provided to the work train, where appropriate by the auxiliary spring 20, as explained above.

In FIG. 3 is proposed a further embodiment, wherein the winding system 16 is connected to the barrel 10 by the drum 14. The drum 14 also defines the first PTO as explained below. The dispensing system 18 comprises a ratchet wheel 24 mounted free to rotate on the shaft 12 of the cylinder 10 and unidirectionally connected to the drum 14. At least one pawl 28 is mounted on the drum 14 so as to drive the wheel latching 24 during the normal running of the timepiece, but so as to unclip when winding the spring. The dispensing system 18 further comprises an output wheel 26 integral with the ratchet wheel and elastically connected to the gear of the first mechanism, typically to the large average 30, according to the examples above. The second PTO is arranged at the shaft of the barrel, which can carry a drive wheel 50.

Thus, it is proposed to associate a dispensing system 18 to the barrel 10, to enable it to receive a pair of arming and to transmit a torque from the barrel 10 via a second PTO, which is cumulative to the first defined by the drum 14 of the barrel 10. The two power take-offs are still functional and, if necessary, during the winding of the barrel spring 10, an auxiliary spring 20 can be provided, particularly in the case where the second power take-off is connected to the finishing train, in order to permanently maintain a torque on the regulating member. The above examples implement a single cylinder 10, but the skilled person can directly associate in series (or parallel) other (s) barrel (s), the distribution system 18 being associated with the one of the power take-offs of the energy source.

Claims (10)

1. Timepiece comprising: At least one barrel (10) provided with a spring connected, at one of its ends, inside, to a shaft (12) of the barrel (10) and at its second, outer end, to a drum (14) of barrel (10), said barrel (10) being arranged to supply energy by a first PTO and by a second PTO, respectively to a first gear associated with a first mechanism and a second gear associated with a second mechanism, and A winding system (16) arranged to arm the spring of the barrel (10), characterized in that it further comprises a distribution system (18) interposed between the first take-off of the barrel (10) and the first wheel of the timepiece, said dispensing system (18) comprising an auxiliary spring (20) resiliently connecting said first power take-off to said first wheel, said dispensing system (18) being arranged in such a way that the first and second wheels are simultaneously subjected to a torque, even during tanning of the mainspring (10). 2. Timepiece according to claim 1, characterized in that the dispensing system (18) is further arranged to receive the winding system (16) and transmit to said spring, a pair of arming. 3. Timepiece according to one of the preceding claims, characterized in that said dispensing system (18) comprises: A ratchet (22) kinematically connected to the winding system (16) and integral with the shaft (12) of the barrel (10), A locking wheel integral with the shaft (12) of the barrel (10), and An output wheel (26) unidirectionally connected to the ratchet wheel, defining said second power take-off. 4. Timepiece according to claim 5, characterized in that it comprises at least one pawl (28) disposed on the output wheel so as to cooperate with the ratchet wheel (24), so as to bind in rotating said output wheel (26) and said ratchet wheel during the normal running of the timepiece and so as not to transmit to said output wheel, a rotation of the ratchet wheel induced by an armature the barrel spring (10) via the ratchet (22). 5. Timepiece according to one of claims 5 and 6, characterized in that said output wheel (26) further cooperates with at least one locking pawl (36), arranged to maintain the angular position of said wheel output when winding the mainspring. 6. Timepiece according to one of claims 3 to 5, characterized in that the output wheel (26) is engaged with a pinion (32), integral with a sleeve (34) to which is fixed a first end of the auxiliary spring (20), a second end is connected to a wheel of the first gear, freely mounted on said sleeve. 7. Timepiece according to one of claims 1 to 4, characterized in that said dispensing system (18) comprises a differential (40) with: An input connected kinematically to the winding system (16), An input / output connected to a ratchet integral with the shaft (12) of the cylinder (10), and An outlet defining said second power take-off. 8. Timepiece according to claim 9, characterized in that said input is a planet carrier (42) engaged with the winding system (16) and in that said input / output is a first sun gear (46). ) engaged with said ratchet and connected to a satellite (44) carried by the planet carrier, so that a winding torque provided by the winding system (16) is transmitted to said ratchet. 9. Timepiece according to one of claims 7 and 8, characterized in that the output is a second sun gear (48) connected to said satellite (44) and engaged with a pinion (32), integral with a sleeve (34) to which is fixed a first end of a spring member, a second end is connected to a wheel of the first gear, freely mounted on said sleeve. 10. Timepiece according to one of the preceding claims, characterized in that said first wheel is a finishing train connecting the barrel (10) to a regulating member.