CH703557B1 - push control mechanism for mechanical watch. - Google Patents

Abstract

The present invention relates to a mechanism for controlling pushers for a mechanical watch comprising a first slide (4.1.1) cooperating with a first push of said watch, a second slide (4.2.1) cooperating with a second push-piece, and a third slide ( 4.3.1) cooperating with a third pusher, the pushers controlling at least three different functions of the mechanical watch. The mechanism comprises connecting means (5) between the first pusher and the third pusher for preventing or releasing the actuation of the third pusher according to the actuation state of said first pusher. In addition, said connecting means (5) cooperate simultaneously with said second slide (4.2.1) kinematically connected to the second pusher so as to prevent or release the actuation of the third pusher depending on the state of actuation of said second pusher. The present invention also relates to a timepiece comprising such a mechanism.

Description

The present invention relates to a push button control mechanism for a mechanical watch comprising a first slide cooperating with a first pusher of said watch, a second slide cooperating with a second pusher, and a third slide cooperating with a third pusher, pushers controlling at least three different functions of the mechanical watch, or even a timepiece comprising such a mechanism.

Indeed, complicated mechanical watches are increasingly popular, they need the actuating means of the various and varied functions they have depending on the type of watch in question. For example, chronograph watches, diving watches, pilot's watches, or watches for other types of specific applications nowadays have a large number of functions that are normally managed, on the one hand , by the crown of the watch which often has three positions, and, on the other hand, by push buttons with regard to the functions which are better managed by this type of actuating device or which can not, or even more to be commanded by the crown. The regatta watches are a typical example for this kind of complicated mechanical watches because they have a display of the current time and a chronograph, the chronograph hands being sometimes programmable so that the user can display by the shows not only a time timed from 0, but also a countdown whose starting point is adjustable, for example between -1 min. and -5 min. before the start of the regatta. Such existing watches conventionally have complicated actuating means, a large number of actuating means, or both, which makes the use of these watches quite complicated and unintuitive. An example for this type of watch consists of the device described in the patent application EP 1 777 598, which also comprises means for actuating the various functions of the watch which make its use difficult.

In view of the prior art currently known, there is then the need to have a mechanism that makes the use of complicated watches more intuitive and easy, including mechanical watches equipped with several push buttons which he It is advisable to manage the actuation as a function of the actuation state of the other push buttons, this while keeping a relatively uncomplicated construction and moderate realization costs. Furthermore, there is also the need to make the use of these watches safer, especially in the sense of preventing two pushers acting on the same components or indicators of the watch are operated simultaneously, which could cause damage to these components of the watch.

The object of the present invention is therefore to overcome the disadvantages of known devices and to achieve the aforementioned advantages, in particular to allow the realization of a control mechanism pushers for mechanical watch without overly increasing the complexity, the volume occupied, or the production cost of the mechanism respectively of a timepiece comprising such a mechanism.

For this purpose, the present invention provides a mechanism of the aforementioned type, in particular for mechanical timepiece, which is distinguished by the features set forth in claim 1, or a corresponding timepiece. In particular, a mechanism according to the present invention comprises connecting means between the first pusher and the third pusher for preventing or releasing the actuation of the third pusher according to the actuation state of said first pusher, said means connecting links being arranged so as to cooperate simultaneously with said second slide kinematically linked to the second pusher so as to prevent or release the actuation of the third pusher depending on the operating state of said second pusher. In addition, the connecting means may advantageously be arranged so as to simultaneously allow the inverse constellation, that is to say to prevent or release the actuation of the first pusher depending on the actuation state of said third pushing and / or preventing or releasing the actuation of the second pusher according to the actuation state of said third pusher. Preferably, the connecting means comprise a rod that can be actuated by said third slide, the connecting rod being connected to a rocker comprising, at a first end, a tooth that can slide or not between the columns of a column wheel as a function of the angular position of the latter, this column wheel cooperating with said first slide of the first pusher, said rocker connection means also comprising, at a second end, means for cooperation with the second slide of the second pusher.

By these measures, we obtain a push button control mechanism, especially for mechanical watches, which allows to intuitively control and easily watches having many functions, this by blocking or releasing the pushers relative to each other according to of their actuation state. Compared to the devices of the prior art, the mechanism according to the present invention has the advantage of facilitating the control of complicated watches without increasing the cost or complexity of the watch.

Other features, as well as the corresponding advantages, will emerge from the dependent claims, as well as from the description which sets forth the invention in more detail.

The accompanying drawings show schematically and by way of example an embodiment of the invention. <tb> Figs. 1a to 1d <SEP> schematically show the indications of a regatta watch equipped with a mechanism according to the present invention, namely the display after a reset of the chronograph, the display after a programming of the start time of the countdown, and , for example, two displays during operation of the chronograph in countdown mode. <tb> Figs. 2a to 2c <SEP> schematically represent, by a perspective view and two views from above, the arrangement and operation of the push control mechanism, this in three steps during its operation, namely when the mechanism allows to actuate the third pusher, when the third pusher is actuated, and when the third pusher can not be actuated. <tb> Figs. 3a to 3c <SEP> are a perspective view and two bottom views of the second slide showing the three relative positions it can take when it cooperates with the rocker of the connecting means.

The invention will now be described in detail with reference to the accompanying drawings illustrating by way of example an embodiment of the invention.

A mechanism according to the present invention is intended to facilitate the use of complicated mechanical watches often having a large number of functions and a corresponding number of pushers for controlling these functions. By way of example and in order to facilitate comprehension, this kind of mechanism will be described in the context of a regatta watch 1 without limiting its application to this type of watch, the mechanism being able in fact to be used in combination with any type of watch having at least three pushers 4.1, 4.2, 4.3 controlling at least three different functions of the mechanical watch. The mechanism according to the present invention is particularly important and advantageous when at least two of these different functions act on the same indicator organ (s), for example when a common minutes counter is controlled during chronograph operation and in countdown mode.

As schematically illustrated in FIGS. 1a to 1d, such a regatta watch 1 comprises a display of the current time via a 3.1 hour hand, a minute hand 3.2, and a second hand 3.3, the needles 3.1 and 3.2 being in the illustrated example arranged centrally in the dial 2.1 while the seconds hand 3.3 is placed in a first small separate dial 2.2. Preferably, the watch may also include a hand of the time of a time zone 3.4, arranged here concentrically with respect to the 3.1 and 3.2 hands, that the user will set the time according to his needs. In addition, the watch has a chronograph mechanism and a corresponding display of a timed time. The timed time can for example be displayed via a chronograph hour hand 3.5, a chronograph minute hand 3.6, and a chronograph second hand 3.7. Again, the needles 3.6 and 3.7 are in the illustrated example arranged concentrically with respect to the dial 2.1, while the chronograph hour hand 3.5 is placed in a second small separate dial 2.3. A crown 4.4 allows the time setting of the current time and, if applicable, the time zone displayed, as well as the reassembly of the watch. A first pusher 4.1 makes it possible, by a first actuation, to start the timing and, by a second actuation, to stop the measurement, and so on. A second pushbutton 4.2 is used to reset the chronograph hands 3.5, 3.6, 3.7 to zero, during a reset if the timing has already been stopped or during a flyback if the timing is still running. All these elements are known to those skilled in the art and therefore do not require other explanations.

It is in principle also known to provide a countdown function on this kind of watch which in fact makes the watch very suitable for use in a sailboat regatta. Indeed, it is possible for example to provide a third pusher 4.3 whose each actuation can move the chronograph minute hand 3.6 by a step of a minute so as to make the starting time of the programmable countdown, while the chronograph starts at position 0 after reset / flyback. Obviously, the length of said pitch can be modified by adapting the corresponding gear train, for example at a step of 30 seconds. Fig. 1a represents the display of the watch after a chronograph reset / flyback where all the chronograph hands 3.5, 3.6, 3.7 are at their position 0, FIG. 1b shows the display of the watch after a countdown start time programming using the third pusher 4.3, in the example shown at -3 min., And Figs. 1c and 1d show, by way of example, the display during operation of the chronograph in countdown mode, in the examples illustrated at -2 min. and 1.5 sec. respectively at -1 min. and 58.5 sec. Once the countdown time has elapsed, the chronograph will continue timing normally, in chronograph mode, unless the user stops the measurement using the first pushbutton.4.1.

In order to make the use of such a regatta watch, or even any other watch having at least three pushers with at least three corresponding functions, more simple and intuitive, it includes a push control mechanism according to the present invention. . As schematically represented in perspective in FIG. 2a, this mechanism can advantageously be placed on an additional bridge 5.0 which comes to rest on the conventional chronograph mechanism, thus requiring only a minimum of modifications of an already existing movement. The bridge 5.0 is only partially illustrated in FIG. 2a so as to reveal some parts on the basic movement to which the following description will refer. In order to describe the arrangement and operation of a mechanical watch pusher control mechanism according to the present invention, it is noted in FIG. 2a it comprises a first slide 4.1.1 cooperating, in a conventional manner, with the first pusher 4.1 of the watch, a second slide 4.2.1 cooperating with the second pusher 4.2, and a third slide co-operating with the third push button 4.3. Each of the pushers 4.1, 4.2, 4.3 can in principle control any function of the watch, the functions mentioned above of a regatta watch having been given for illustrative purposes in order to make the following description clearer. .

More specifically, the mechanism according to the present invention comprises connecting means 5 between the first pusher 4.1 and the third pusher 4.3 to prevent or release the actuation of the third pusher 4.3 depending on the state of actuation of said first pusher 4.1, said connecting means 5 co-operating simultaneously with said second slider 4.2.1 which is kinematically connected to the second pusher 4.2 so as to make it possible to prevent or release the actuation of the third pusher 4.3 as a function of the actuation state of said second pusher 4.2. Preferably, the connecting means 5 are arranged so as to also allow the inverse constellation, that is to say to prevent or release the actuation of the first pusher 4.1 as a function of the actuation state of said third pusher 4.3, and / or to prevent or release the actuation of the second pusher 4.2 as a function of the actuation state of said third pusher 4.3.

For this purpose, the connecting means 5 comprise a rod 5.1 which can be actuated by translation of said third slide 4.3.1. The rod 5.1 is in turn linked, for example by means of a pin, to a rocker 5.2 which is mounted so as to be able to perform, following a translation of the rod 5.1, a pivot about an axis 5.2 .3 and which comprises at a first - 5.2.1 of its two free ends 5.2.1, 5.2.2 a tooth 5.2.1.1. The latter can slide between the columns of a column wheel 5.3 or is prevented from doing this depending on the angular position of the column wheel 5.3. The column wheel 5.3 cooperates with said first slide 4.1.1 actuated by the first pusher 4.1 so as to be rotated by an angle corresponding to the angular space occupied by a column or a space between said columns at each actuation of the first push button 4.1. In the example cited above of a regatta watch, the column wheel 5.3 is in the position illustrated in FIG. 2a where the tooth 5.2.1.1 can slide between the columns of the column wheel 5.3 when the chronograph is stopped, that is to say when the first pusher 4.1 is in its position respectively in its actuated state "stop" . In this state, the third pusher 4.3 can be actuated and causes via the third slide 4.3.1 and the rod 5.1 a pivoting of the rocker 5.2, the tooth 5.2.1.1 then entering between two columns of the column wheel 5.3. This configuration where the third pusher 4.3 is actuated is illustrated in FIG. 2b. In this state of actuation of the third pusher 4.3, the first pusher 4.1 can not be actuated.

[0016] As also illustrated in FIG. 2a, said flip-flop 5.2 of the connecting means 5 comprises at its first free end 5.2.1 actuating means 5.4 comprising a first arm acting as an actuating finger 5.4.1. The piece 5.4 can be fixed on the rocker 5.2 or be in one piece with the latter. During the pivoting of the rocker 5.2, this finger 5.4.1 can engage in the toothing of a correction wheel 5.5 so as to drive it by one step each time the third pusher 4.3 is actuated, this being illustrated schematically in FIG. fig. 2b. In the example of a regatta watch as described above, this correction wheel 5.5 is, by any means known to those skilled in the art, kinematically linked to the chronograph wheel carrying the chronograph minute hand 3.6, so that each actuation of the third pusher 4.3 causes the recoil of said chronograph minute hand 3.6 by a step, preferably by a step of one minute or a step of 30 seconds, to allow adjustment in steps the start time of a countdown. The gear train and / or the correction wheel 5.5 can be arranged correspondingly to adapt the length of the pitch as desired.

Said actuating means 5.4 further comprise a second arm acting as a locking pin 5.4.2 cooperating with a locking spring 5.6 which is biased towards said correction wheel 5.5. As shown in fig. 2a, the locking finger 5.4.2 raises the locking spring 5.6 of the correction wheel 5.5 when the rocker 5.2 is in its initial position, that is to say rest. Upon pivoting of the rocker 5.2, the locking finger 5.4.2 releases the locking spring 5.6, thus letting it press on the circumference of the correction wheel 5.5 so that it prevents any rotation or movement of and back when the rocker 5.2 returns to its initial position, during which the actuating finger 5.4.1 slides back on the teeth correction wheel 5.5. This is schematically visible in FIG. 2b. This correction wheel 5.5 is at all times secured against unintentional rotation by a second locking spring 5.7 also visible in FIGS. 2a and 2b. This second spring 2.7 low prestressing is sufficient to prevent involuntary movement during the normal running of the watch or the chronograph. The first locking spring 5.6 is stronger so as to prevent any reciprocating movement or rotation of the correction wheel 5.5 even when the actuating finger 5.4.1 touches it during its return movement into the position of rest of the rocker 5.2. It is lifted during the normal running of the watch or the chronograph so as not to interfere with the operation of the watch respectively the energy consumption of the movement.

The connecting rod 5.1 mentioned above is preferably substantially V-shaped, the ends of its first arm 5.1.1 being respectively connected to said third slide 4.3.1 and said rocker 5.2. Its second arm 5.1.2 is elastic and exerts a prestress, preferably by cooperating with a pin 5.2.2.1 positioned on a second free end 5.2.2 of the rocker 5.2. Thus, a pivoting of said rocker 5.2 during an actuation of the third pusher 4.3 causes a spacing of the two arms 5.1.1, 5.1.2 of the rod 5.1, as can be seen in FIG. 2b. The preload of the second arm 5.1.2 being opposed to this spacing, it causes, following the release of the third pusher 4.3 by the user of the watch, the return of the rocker 5.2 in its initial position shown in FIG. 2a. Obviously, the skilled person can choose any other solution, such as a conventional prestressing spring, to define the rest position of the rocker 5.2.

Starting from the constellation of 2a again, an actuation of the first pusher 4.1 in its "stop" actuation state illustrated above causes the start of the chronograph, the pusher 4.1 being then in its operating state " start ". Through the first slide 4.1.1, the column wheel 5.3 is, when the first pusher 4.1 is actuated, simultaneously rotated by an angle corresponding to the angular space occupied by a column, so as to that the tooth 5.2.1.1 of the first free end 5.2.1 of the rocker 5.2 is in this state of actuation of the first pusher 4.1 opposite a column of the column wheel 5.3, this being illustrated in FIG. . 2c. In this state of actuation of the first pusher 4.1, the third pusher 4.3 can not be actuated, that is to say in the example of a regatta watch that the user can not program the starting point of the countdown while the chronograph is running, which is obviously desirable, especially since the needles 3.6 and 3.7 are controlled in both chronograph and countdown modes.

Thus, the column wheel 5.3 serves to store the actuation state of the first pusher 4.1, and depending on this state, either "stop" or "start", the third pusher 4.3 is released or blocked in this way. which concerns its actuation. Conversely, depending on the actuation state of the third pusher 4.3, pushed or not, the first pusher 4.1 can be actuated or not because the actuating finger 5.4.1 enters the column wheel 5.3 or not. In the latter case, since the third pusher 4.3 can only be pushed or not, without a state or function corresponding for example to a "stop" or "start" chronograph mode as for the first pusher 4.1, a means of " state memory "such that the column wheel is not necessary on the side of the third pusher.

It remains to mention that said flip-flop 5.2 connecting means 5 comprises a second free end 5.2.2 carrying a pin 5.2.2.1 whose end is engaged in a groove 4.2.1.1 substantially L-shaped. This groove is formed in the second slide 4.2.1 cooperating with the second pusher 4.2. so as to achieve a cooperation between the rocker 5.2 and the second pusher 4.2, thus a connection between the second - 4.2 and the third pusher 4.3, similar to the connection described above between the first - 4.1 and the third pusher 4.3, so to manage the mutual actuation of these pushers.

Since the second pusher 4.2 serves in the example illustrated here a regatta watch as flyback reset button respectively, this cooperation can be arranged in a simple manner, without means of "state memory" such as the column wheel 5.3 used for the first pusher 4.1. Indeed, as shown in the perspective view of FIG. 2a, the pin 5.2.2.1 is at the tip of the groove 4.2.1.1 L-shaped when the rocker 5.2 is in its rest position, so when neither the third pusher 4.3 nor the second pusher 4.2 are actuated. When the user presses the third pusher 4.3, the rocker pivots as described above and the end of the pin 5.2.2.1 engaged in the groove 4.2.1.1 slides in the groove portion 4.2.1.1 in the form of L oriented perpendicular to the longitudinal axis of the second free end 5.2.2 of the rocker 5.2. This is schematically illustrated by a bottom view in FIG. 3b. In this constellation, as long as the user presses the third pusher 4.3, the second pusher 4.2 can not be actuated, because being blocked by the pin 5.2.2.1 against any translation oriented parallel to the longitudinal axis of the second end free 5.2.2 of weighbridge 5.2. Conversely, starting from the constellation illustrated in FIG. 3a, when the user actuates the second pusher 4.2, the end of the pin 5.2.2.1 engaged in the groove 4.2.1.1 slides in the part of the groove 4.2.1.1 L-shaped oriented parallel to and in extension of the longitudinal axis of the second free end 5.2.2 of the rocker 5.2, as schematically illustrated by a bottom view in FIG. 3c. In this constellation, it is the opposite, that is to say that as long as the user presses on the second pusher 4.2, the third pusher 4.3 can not be actuated because being blocked by the pin 5.2. 2.1.

It is then possible by these fairly simple means to prevent or release the actuation of the third pusher 4.3 as a function of the actuation state of said second pusher 4.2 and vice versa, so to control the mutual actuation of these pushers 4.2, 4.3, similarly to the control described above of the mutual actuation of the pushers 4.1, 4.3, so that the user is guided automatically and intuitively when using the watch equipped with such a push control mechanism. The mechanism therefore makes the use of a complicated mechanical watch easier and convenient for the user. Specifically, for the example of the regatta watch described above, the user can not program the countdown start time by pressing the third push button 4.3 when the chronograph is running, so when the first push 4.1 is in start mode. Conversely, the first pusher 4.1 can not be operated when the user programs the countdown, so press the third pusher. Similarly, the second 4.2 and third pushers 4.3 can not be used simultaneously.

In addition, ignoring the example of a regatta watch used for convenience in the description above, it is obvious that the mechanism can be adapted according to the type of the watch to equip, for example by providing another column wheel with several pushers depending on the function that these pushers are led to manage in a specific watch, this without the overall operation or the result differ substantially from what has been disclosed hereinafter above. For example, it is also conceivable to equip the rocker 5.2 with a third free end that could interact with a fourth pusher if necessary on a specific watch. These other embodiments of a mechanism according to the present invention are in fact, without it being possible to describe them all here in detail, within the reach of those skilled in the art having the technical instruction according to the present invention. description.

It is clear that a mechanism having the characteristics mentioned above has the important advantage of being able to cooperate in a conventional manner with the other parts of the timepiece in which it is intended to be integrated, in particular with its basic movement, so that the mechanism can easily be integrated into existing timepieces without requiring too much adjustment or even a major redesign of these parts. Moreover, these advantages are obtained without increasing the complexity, the volume occupied, or even the production cost of the mechanism respectively of the watch equipped with such a mechanism. Preferably, the mechanism is integrated in a regatta watch as described above, but it can also be used in other applications such as a diving watch or the like.

Claims (10)

1. Pusher control mechanism for mechanical watch comprising a first slide (4.1.1) cooperating with a first pusher (4.1) of said watch, a second slide (4.2.1) cooperating with a second pusher (4.2), and a third slide (4.3.1) cooperating with a third pusher (4.3), the pushers (4.1, 4.2, 4.3) controlling at least three different functions of the mechanical watch, characterized in that the mechanism comprises connecting means (5); ) between the first pusher (4.1) and the third pusher (4.3) for preventing or releasing the actuation of the third pusher (4.3) as a function of the operating state of said first pusher (4.1), and by the said connecting means (5) cooperate simultaneously with said second slide (4.2.1) kinematically connected to the second pusher (4.2) so as to make it possible to prevent or release the actuation of the third pusher (4.3) by function of the actuation state of said second pusher (4.2). 2. Mechanism according to the preceding claim, characterized in that the connecting means (5) are arranged to allow, conversely, to prevent or release the actuation of the first pusher (4.1) depending on the state actuating said third pusher (4.3), and / or that the connecting means (5) co-operating simultaneously with the second slider (4.2.1) are arranged so as, conversely, to prevent or release the actuation the second pusher (4.2) as a function of the actuation state of said third pusher (4.3). 3. Mechanism according to one of the preceding claims, characterized in that the connecting means (5) comprises a rod (5.1) can be actuated by said third slide (4.3.1), the connecting rod (5.1) being linked to a rocker (5.2) pivotally mounted and comprising at a first (5.2.1) of its free ends (5.2.1, 5.2.2) a tooth (5.2.1.1) which may or may not slide between the columns a column wheel (5.3) according to the angular position of the latter, this column wheel (5.3) cooperating with said first slide (4.1.1) of the first pusher (4.1) so as to be rotated by an angle corresponding to the angular space occupied by a column or even a space between said columns at each actuation of the first pusher (4.1), so as to prevent or release the actuation of the third pusher (4.3) according to the state actuating said first pusher (4.1) and vice versa. 4. Mechanism according to the preceding claim, characterized in that said flip-flop (5.2) connecting means (5) comprises at its first free end (5.2.1) actuating means (5.4) having a first arm serving as actuating finger (5.4.1) engageable during the pivoting of the rocker (5.2) in the toothing of a correction wheel (5.5) so as to drive it by one step each time the third pusher is actuated ( 4.3). 5. Mechanism according to the preceding claim, characterized in that the actuating means (5.4) comprise a second arm acting as locking finger (5.4.2) cooperating with a locking spring (5.6) preloaded to said wheel of correction (5.5), said locking finger (5.4.2) lifting this locking spring (5.6) of the correction wheel (5.5) when the rocker (5.2) is in its initial position, but letting the locking spring ( 5.6) on the correction wheel (5.5) during the pivoting of the rocker (5.2) so as to prevent its rotation when the rocker (5.2) returns to its initial position, the correction wheel (5.5) being secured in all time against unintentional rotation by a second locking spring (5.7). 6. Mechanism according to one of claims 3 to 5, characterized in that said flip-flop (5.2) connecting means (5) comprises a second free end (5.2.2) carrying a pin (5.2.2.1) including a end is engaged in a substantially L-shaped groove (4.2.1.1) and formed in the second slide (4.2.1) of the second pusher (4.2), so as to prevent or release the actuation of the third pusher (4.3) depending on the actuation state of said second pusher (4.2) and vice versa. 7. Mechanism according to one of claims 3 to 6, characterized in that said connecting rod (5.1) is substantially V-shaped, the ends of its first arm (5.1.1) being respectively connected with said third slide ( 4.3.1) and said rocker (5.2), its second arm (5.1.2) being elastic and exerting a prestress, preferably by cooperating with a pin (5.2.2.1) on the second free end (5.2.2) of the flip-flop (5.2), so that a pivoting of said flip-flop during an actuation of the third pusher (4.3) causes a spacing of the two arms (5.1.1, 5.1.2) of the connecting rod (5.1), the prestressing the second arm (5.1.2) being opposed to this spacing and causing, following the release of the third pusher (4.3), the return of the rocker (5.2) to its initial position. 8. Timepiece, particularly mechanical wristwatch, characterized in that it comprises a push control mechanism according to one of claims 1 to 7. 9. Timepiece according to the preceding claim, characterized in that it is a regatta watch having a display of the current time via an hour hand (3.1), a needle minutes (3.2), and a seconds hand (3.3) and a display of a timed time via a chronograph mechanism and displayed via a chronograph hour hand (3.5), a chronograph minute hand (3.6), and a chronograph second hand (3.7), a correction wheel (5.5) of the push control mechanism being kinematically connected to the gear wheel of the chronograph the chronograph minute hand (3.6), so that each actuation of the third pusher (4.3) causes said chronograph minute hand (3.6) to retreat by one step, preferably by a step of one minute , in order to allow adjust with no time to start a countdown. 10. Timepiece according to the preceding claim, characterized in that the first pusher (4.1) of the watch allows starting respectively to stop the timing, the second button (4.2) allows a reset respectively a flyback at the end respectively during the timing, and the third pusher can program in steps, preferably in steps of one minute, the start time of a countdown.