CH712101A2 - Clockwork movement comprising a regulating device disposed between a power source and an exhaust. - Google Patents

Abstract

A mechanical clockwork comprises an energy supply device comprising a source of mechanical energy (1), in particular a cylinder, and a gear train, said energy supply device driving a regulating member composed of a spiral balance (4, 5) whose oscillating movement is maintained by said energy source (1). The movement further comprises a regulating device (7) arranged between the energy source (1) and an exhaust (2, 3) associated with said regulating member (4, 5), the regulating device (7) comprising a elastic connection arranged to control, said exhaust (2, 3). The elastic connection (8) comprises two spiral springs (8, 80) supporting the oscillations of at least two spiral balances (4, 5), one end of each spiral spring (8, 80) is connected to the spring device. energy supply (1, 9) and the other end of each spiral spring (8, 80) is connected to a regulating device (7) arranged in such a way that the energy supply device ( 9) is released periodically by a triggering device (6, 10, 12, 13) while the energy source (1) resets via a pinion (9) the triggering device (6) and the spiral spring (8, 80).

Description

Description: [0001] The present invention relates to a watch movement comprising a power source intended to maintain the oscillating movement of a mechanical oscillator by means of a finishing gear comprising a regulating device.

Such movements have been known for a long time, particularly in the field of clocks, to allow the use of a spring with a large power reserve, as a source of energy, while smoothing the inevitable variations of the the force applied by this spring to the work train, these arising from the change in the state of charge of the spring during the operation of the clock.

Thus a number of mechanisms have already been proposed involving a secondary spring which is loaded from the energy of the main spring, periodically. This period is sufficiently short for the force it applies to the movement to be considered constant between its states of minimum load and maximum load.

This is called constant force devices, especially when the secondary spring is arranged directly at the exhaust, while it speaks of equal winding when the secondary spring is put in place at the level of the gear train finishing.

[0005] CH 709 394 describes a clockwork movement comprising a mechanical energy source, two regulation assemblies, each regulation assembly comprising an escapement and a regulating organ. The watch movement further comprises a torque-sharing device comprising as many elastic members as regulation assemblies with an input connected to the source of mechanical energy, enabling the transmission of the energy produced by the source of power. mechanical energy to the control assemblies. Each regulation assembly is driven by an elastic member provided until the mobile exhaust.

The main purpose of the present invention is to propose an improvement to the known mechanisms of the prior art, by proposing a movement for a timepiece comprising a regulating device whose construction makes it possible to improve chronometry by distributing a torque constant by disturbing the exhaust as little as possible.

According to the invention, a mechanical clockwork comprises a source of mechanical energy, in particular a barrel, driving a regulating member composed of a balance spring, whose oscillating movement is maintained by the source of energy. The movement further comprises a regulating device disposed between the energy source and an exhaust associated with said regulating member, the regulating device comprising an elastic connection arranged to control the escapement. The elastic connection comprises a spiral spring whose one end is connected to the regulating device and the other end is connected to a triggering device arranged in such a way that the triggering device is released periodically by the regulating device.

In one embodiment, the control device comprises a second wheel kinematically with the gear of the energy input device, and an exhaust pinion which connects the seconds wheel to the exhaust . The seconds wheel is connected to the second end of the spiral spring.

According to the same embodiment, an additional wheel is carried by the exhaust pinion. The escape pinion meshes with an additional pinion carrying a trigger cam which controls a trigger anchor arranged to periodically release the trigger wheel.

According to this embodiment, the trigger cam is integral in rotation with the escape wheel.

In another embodiment, the trip cam is integral with the escape wheel.

Preferably, the triggering device is arranged to be released by the control device every second.

In one embodiment, the regulating device comprises a second elastic connection in the form of a second spiral spring arranged to control a second regulating member. In this example, the tripping device controls either the first spiral spring or the second spiral spring.

According to this embodiment, the first spiral spring, the second spiral spring and a wheel of the trigger device are arranged coaxially around an axis.

In another embodiment, a first trigger device controls a first spiral spring arranged to control a first regulating member. A second triggering device controls a second spiral spring arranged to control a second regulating member. A differential mechanism cooperating with the power source is arranged to supply power to each of the first and second coil springs.

The characteristics of the invention will appear more clearly on reading the description of several embodiments given solely by way of example, in no way limiting with reference to the schematic figures, in which:

Fig. 1 represents a perspective view of a watch movement comprising a regulating device comprising two movable seconds arranged one above the other, two balance-spirals eccentric with respect to each other and a trigger device;

Fig. 2 is a bottom view of a control device according to the invention;

Fig. 3 is a side view of a control device according to one embodiment of the invention;

Fig. 4 is a perspective view of a watch movement comprising a regulating device comprising two mobile seconds arranged one above the other, two balance-springs arranged one above the other and a triggering device; and

Fig. 5 shows a perspective view of a watch movement comprising two regulating devices and a differential mechanism arranged to cooperate with each of the regulating devices.

As illustrated in FIG. 1, a mechanical clockwork, in particular for a wristwatch, comprises a barrel 1, driving two balance-springs 4,5. A regulating device 7, 8, 80 is disposed between the barrel 1, and the exhausts 2, 3 associated with each of the spiral balances 4, 5. The regulating device 7 comprises two spiral springs 8, 80 arranged to control the 2, 3. The first spiral spring 8 is connected at one end 8A (FIG 2) to the energy supply device 9, and the other end 8B (FIG 2) is connected to the control device 7, 8 arranged so that the energy arrival device 9 is released periodically by the trigger device 6, 10, 11, 12, 13. In this example, the spiral springs 8, 80 are concentric and only the exhaust 2 controls the trigger and resets the two spiral springs 8, 80, [0018] As illustrated in FIG. 2, the regulating device comprises two coaxial second wheels 7 mounted free on a second pinion 9, only one of the second wheels 7 being visible in said FIG. 2. The second wheel 7 cooperates with an escape gear 14 to connect the second wheel 7 to the exhaust 2. The second gear 9 carries a trigger wheel 6 and the inner end 8A of a spring- 8. The second wheel 7 is mounted free and is connected to the second free end, outer end 8B, of the spiral spring 8. During assembly, a pre-arming is given to the spiral spring 8 so that it can provide the torque needed to maintain the oscillations of a pendulum. This second wheel 7 meshes with the exhaust pinion 14 which carries the escape wheel 2 and an additional wheel 12. The escape wheel 2 works with an anchor as is usual in a traditional mechanical movement. The additional wheel 12 drives an additional pinion 13 carrying a trip cam 11 which controls a trigger anchor 10.

In the example illustrated in FIG. 3, the control device comprises two second wheels 7 carried by a pinion of seconds 9. The second pinion 9 also carries a trigger wheel 6 and the inner portion 8A of a spiral spring 8. Each of the second wheels 7 is connected to the second free end of the spiral, respectively 8B of the spiral spring 8 and 80B of the spiral spring 80. The trigger wheel 6 controls the rearming of the two spiral springs 8, 80. According to this configuration, the energy from the barrel is transmitted to the second gear 9, secured to the trigger wheel 6 and the inner ends 8A, 80A of the spiral springs 8, 80. The spiral springs 8, 80, pre-armed assembly, have outer ends 8B, 80B integral with the second wheels 7 each driving a balance spring 4, 5.

In the example illustrated in FIG. 4, the principle is the same as the mechanism illustrated in FIG. 1, with the difference that the balance springs 4, 5, in this example, are arranged one above the other. The cylinder 1 transmits kinematically the energy to the second pinion 9, secured to the inner ends 8A, 80A of the spiral springs 8, 80. The outer end 80B of the spiral spring 80, integral with a first wheel of the second 7 causes the Exhaust 3 and the balance spring 4. The outer end 8B of the spiral spring 8 secured to a second second wheel 7 drives the exhaust 2, the additional wheel 12 and the sprung balance 4. The additional wheel 12 drives the additional gear 13 carrying the trip cam 11 which controls the trigger anchor 10. The trigger anchor then releases the trigger wheel 6 integral with the second gear 9.

Thus, in these two examples, the second spiral spring 80 and the second second wheel 7 give the force to the second balance spring 5 but only one of the two escape mobiles 2, 3 controls the trigger.

In the example illustrated in FIG. 5, a first trigger device 6, 10, 11, 12, 13 controls a first spiral spring 8 arranged to control a first balance-spring 4. A second trigger device 6, 10, 11, 12, 13 controls a second spring spiral 80 arranged to control a second balance spring 4. A differential mechanism 20 cooperates with the barrel 1 to supply energy to each of the first and second spiral springs 8, 80 via the pinion of second 9. In this example where the two regulating devices are connected in parallel, the differential mechanism is arranged in the average wheel 20 so as to receive upstream the energy of the cylinder 1 and to supply the energy to each regulating member 4, 5.

It is obvious that the present invention is not limited to the described embodiments. The movement can be applied to all kinds of timepieces, including wristwatches.

Claims (10)

claims 1. Mechanical clockwork comprising an energy supply device (1, 9) comprising a mechanical energy source (1), in particular a cylinder, and a gear train, said energy supply device (1) 9) driving a regulating member consisting of a balance-spring (4, 5) whose oscillating movement is maintained by said energy source (1), a regulating device (7, 8, 80) arranged between the energy source (1) and an exhaust (2, 3) associated with said regulating member (4, 5), the regulating device (7, 8, 80) having an elastic connection arranged to control said exhaust (2, 3). ), characterized in that said elastic connection comprises two spiral springs (8, 80) sustaining the oscillations of at least two balance wheels (4, 5), one end (8A, 80A) of each spiral spring (8, 80). ) is connected to the energy supply device (1,9) and the other end of each spiral spring (8B, 80B) is t connected to said regulating device (7) arranged in such a way that the energy supply device (9) is released periodically by a triggering device (6, 10, 11, 12, 13) while the energy source (1) resets via a pinion (9) the triggering device (6) and the spiral (8, 80). 2. A watch movement according to claim 1, wherein the regulating device (7) comprises a second wheel (7) in kinematic engagement with the power train, an exhaust pinion (14) which connects the seconds wheel (7) to the exhaust (2), the seconds wheel (7) being connected to the second end (8B) of the spiral spring (8). 3. A clock movement according to claim 2, comprising an additional wheel (12) carried by the escape pinion (14), the escape pinion (14) meshing with an additional pinion (13) carrying a trip cam (11) which controls a trigger anchor (10) arranged to periodically release the trigger wheel (6). 4. Watchmaking movement according to claim 3, wherein the trip cam (11) is integral in rotation with the escape wheel (2, 3). Timepiece according to one of the preceding claims, in which the regulating device (7) is arranged to be released by the triggering device (6, 10, 11, 12, 13) every second in order to reset the spiral springs (8, 80). 6. Timepiece according to one of the preceding claims, wherein the triggering device (6) controls either the first spiral spring (8) or the second spiral spring (80). 7. Timepiece according to one of the preceding claims, wherein the first spiral spring (8), the second spiral spring (80) and a wheel (6) of the trigger device are arranged coaxially about an axis. 8. Horological movement according to one of the preceding claims, comprising a second control device associated with a second trigger device, the second control device being independent of the first control device. Timepiece according to one of the preceding claims, in which the first triggering device (6, 10, 11) controls the first spiral spring (8) arranged to control the first regulating member (4), the second device for tripping (6, 10, 11) controls the second spiral spring (80) arranged to control the second regulating member (5), a differential mechanism (20) cooperating with said energy source (1) being arranged to provide energy to each of the first and second coil springs (8, 80). Timepiece, in particular a wristwatch, comprising a movement according to one of claims 1 to 9.