EP1445669A1 - Constant force escapement mechanism for a timepiece with indirect seconds - Google Patents

Abstract

The constant force arrangement has a mechanism for indirect seconds suitable for an intermediate seconds drive (14) driven by a seconds wheel (9) and an indirect seconds wheel (15) and a tensioning module (4-8), a cam (2), an armature (11) and a stop wheel (13). The stop wheel of the constant force arrangement is arranged on the intermediate seconds drive of the indirect seconds mechanism. An independent claim is also included for the following: (a) a clock mechanism for a clock, especially a wristwatch, with an indirect seconds mechanism.

Description

The present invention relates to a constant force device for watches, especially for wristwatches, with a mechanism for an indirect Second.

While the principle of constant force mechanisms has been around for a long time known as well as implemented in a variety of variants of these mechanisms Such mechanisms are usually for a special application or a predefined clockwork from scratch. This requires at the same time that these mechanisms based on their specialized conception only useful for the intended task and therefore very usable are limited. Changes in the design of the mechanism consequently, the clockwork that houses it usually requires corresponding ones Changes to the relevant constant force device, which under Circumstances with technical difficulties and usually with high costs can be connected.

The aim of the present invention is therefore to overcome the disadvantages mentioned to avoid the current systems and a constant force device for To make available, because of their conception in a simple way Anchor escapement of a new and especially an existing watch can be integrated, this to minimize the space required for the Device and its technical optimization taking into account and Utilization of the elements present in the clockwork should take place.

The present invention therefore has a constant force device for Watches, especially wristwatches, with a mechanism for one indirect second as an object, which those mentioned in claim 1 Has characteristics.

Further advantages result from the in the dependent claims expressed characteristics and the following the invention with the help of Drawings detailing the description.

A constant force device characterized by these features can especially because of their conception in a simple way Anchor escapement of new and especially of existing watches, which one Mechanism for an indirect second to be integrated. By a appropriate arrangement of the components of the constant force device can this integration takes place in such a way that no or only minor changes in the existing clockwork or in the immediate vicinity of the escapement Need to become.

It is possible in particular by using the existing one Clockwork elements present the number of elements required for the device Reduce parts and thus the space required for the constant force device minimize.

Likewise, the favorable arrangement of the components of the Constant force device according to the present invention regulating the Vibration amplitude of the balance during assembly of the watch or in Post-sale service made easier.

Through these measures, it is both flexible usable as well as easy to use, space-saving and comparatively to realize inexpensive constant force device, which in particular in Can be retrospectively integrated into watches of the type mentioned.

The attached figures exemplify two embodiments a constant force device according to the present invention.

Figure 1a shows a top view of a first one Embodiment of an integrated in a clockwork with indirect seconds Constant force device according to the present invention.

Figure 1b is a detailed view of the device of Figure 1a to explain the interaction of individual components of the Constant-force device.

Figure 1c is a section along line A-A according to Figure 1a.

Figure 2a shows a top view of a second one Embodiment of an integrated in a clockwork with indirect seconds Constant force device according to the present invention.

Figure 2b is a detailed view of the device of Figure 2a to explain the interaction of individual components of the Constant-force device.

Figure 2c is a section along line B-B according to Figure 2a.

Figure 2d is a section along the line C-C according to Figure 2b.

The invention will be described hereinafter with reference to the accompanying Illustrations, which exemplify several embodiments of the invention represent, are described in detail.

Figure 1a is a top view of a clockwork showing a first, exemplary embodiment of a constant force device according to the present invention, the inhibition, seconds and Stop organs and in particular the advantageous arrangement of the components of the Constant force device are illustrated. The others, not in the description or components of the clockwork or the components contained in the illustrations Gear trains are conventional and will therefore not be explained further.

The same device is in Figure 1c in section along the line A-A shown in Figure 1a. First you can see the usual ones Components of a clockwork in a similar arrangement to a mechanism for an indirect second. So is an escape wheel 1 as usual on one Anchor wheel shaft 3 attached, as well as a second wheel 9 on one associated seconds wheel drive 10. The seconds wheel 9 drives one Secondary intermediate drive 14, which in turn engages an indirect one Second wheel 15, which is on a corresponding indirect Second wave 16 is attached. Every movement, be it a new one or a new one existing clockwork, which has such a basic constellation, can now equipped with a constant force device according to the present invention become.

It should first be noted that a conventional one Tension arm drive 4, a tension arm 5, a spiral block 6, one Spiral spring roller 7 and a spiral spring 8 existing clamping module Constant force device advantageously attached to the escape wheel shaft 3 can be. The tension arm drive 4 is in this case, for example, by means of two stones 4a and 4b made of ruby, rotatable about the escape wheel shaft 3 on this attached that this tension arm drive 4 with the seconds wheel 9 in engagement stands. The tension arm 5 attached to the tension arm drive 4 carries this Spiral blocks 6, on which the outer end of the coil spring 8 is attached. their inner end is attached to the coil spring roller 7, which in turn to the Anchor wheel shaft 3 is fixed so that by a relative rotation between the escape wheel 1 and the seconds wheel 9, that is between the escape wheel 1 and the tension arm drive 4, a tension of the coil spring 8 can be effected. The spiral spring roller 7 is preferably on the bridge to the clockwork aligned side on the escape wheel shaft 3 attached to the coil spring roller 7 easily accessible to place and thus easier regulation of Vibration amplitude of the balance without disassembling the gear train allow.

While these elements are normally on one side of the escape wheel 1 are arranged, a, in the present example five-sided, cam 2 on the opposite side of the escape wheel 1 or alternatively also on the same side as the clamping module on the escape wheel 1.

As in particular from Figure 1b, which shows the cooperation of Main components of the constant force device illustrated, can be seen, plays this cam 2 with a fork of an armature 11 of the constant force device together. This anchor 11 can, as shown in Figure 1c, in advantageously rotatable on the seconds wheel drive 10 of the seconds wheel 9 be attached, for example by means of a ball bearing 12. This is to Example in the case of an existing movement with a mechanism for a indirect second, the existing axis of rotation of the second wheel 9 on elegant Way used as the axis of rotation for the armature 11 and allows at the same time by avoiding an additional axis of rotation saves space in the Integration of the constant force device in the existing (or new) clockwork.

The anchor pallets in turn work, see Figure 1b, in conventionally with a stop wheel 13 of the constant force device together. According to Figure 1c, this stop wheel 13 can preferably be used for one not concentric to the escape wheel 1 and the other in particular, analogously for the unconventional arrangement of the armature 11 on the second wheel drive 10, to be attached to the second intermediate drive 14 mentioned above.

The non-concentric arrangement of the stop wheel 13 to the escape wheel 1 allows the choice of different gear ratios between the Arm arm 4 and the second wheel 9 on the one hand and the Second wheel 9 and the stop wheel drive, which in the present example with the Secondary drive 14 is identical, on the other hand. As a result, the Rotation speed of the stop wheel 13 by reducing it Moment of inertia can be optimized.

By the arrangement of the stop wheel 13 on the secondary intermediate drive 14 will also, in the case of an existing as well as a newly designed one Movement with a mechanism for an indirect second, the existing one Axis of rotation of the intermediate intermediate drive 14 also serves as the axis of rotation for the Stop wheel 13 used. As a result, this is located above the second intermediate drive 14 engages with the seconds wheel 9, and by avoiding an additional one The axis of rotation thus saves space and simplifies integration achieved by the constant force device in the clockwork.

In addition, the stop wheel 13 is thereby under the influence of Torque of the second wheel 9 and is on one of the pallets of the armature 11th the constant force device pressed. The resulting reduction in axial play of the stop wheel 13 considerably reduces the play of the indirect second wheel 15. Therefore, with this arrangement of the stop wheel 13 the generally on the indirect seconds wheel 15 to avoid the consequences thereof Play built-in friction spring are eliminated, which increases performance translation operation and simplification of the clockwork is effected.

Due to the special arrangement of the stop wheel 13 on the one hand Second intermediate drive 14 and the other of the armature 11, coaxial to Second wheel 9, on the second wheel drive 10, the integration of a Constant force device in a clockwork with a mechanism for indirect Second optimized, especially what the efficient use of space, the usage existing elements of the clockwork for purposes of constant force device and the simplification of the clockwork involved.

The functional sequence of such a clockwork with an indirect second Integrated constant force device corresponds in principle to that of conventional devices and should therefore in the following, using the example of in clockwork outlined in the illustrations, only briefly outlined.

The maintenance of the vibrations of the regulating mechanism of the clockwork is caused by the tension of the above, on the inhibitory organ placed spiral spring 8 ensured. With every half vibration of the not Regulator shown, the escape wheel 1 rotates one certain angle, in the present example by 9 °, about its axis of rotation out. With a given number of half vibrations the balance, here at the fourth, i.e. when the escape wheel 1 rotates by 36 ° about its axis has performed, the escape wheel 1 over the attached to the escape wheel shaft 3 Cam 2 and on the second gear 10 by means of the ball bearing 12 rotatably attached armature 11 of the constant force device, the stop wheel 13 freely. This then turns one of the anchor pallets predetermined angle, in the present example of 22.5 °, about its axis of rotation out, this angle of movement of the at the input range of the anchor 11 adjacent tooth of the stop wheel 13 to the exit pallet of the armature 11 after the release of the stop wheel 13 corresponds. At the same time, the stop wheel drives 13 via the stop wheel drive, that means here the second intermediate drive 14, the Second wheel 9 and the indirect second wheel 15, which is, for example, in the Center of the ad can be located at. With the described constellation leads the second wheel 9 in the case of a regulator with a frequency of 4 Hz jump out every half second. Furthermore, the seconds wheel 9 drives via the tension arm drive 4 rotatably mounted on the escape wheel shaft 3 attached to this tension arm 5 and thus ensures the Retensioning the spiral spring 8 of the constant force device.

The number of teeth of the escape wheel shaft 3 and the stop wheel drive, that is here the second intermediate drive 14 is selected such that the tension angle the spiral spring 8 is identical to the angle of rotation of the escape wheel 1, in the example 36 °, during the specified number of half-oscillations, here four. The The angular amounts given are only exemplary and can also be chosen otherwise.

In general, the above-mentioned frequency of the regulator or that for the present example from the figures apparent number of teeth of the different wheels and the number of sides of the cam 2 are not specified and can also be chosen elsewhere. Depending on the frequency chosen by the regulator is usually a practical one Configuration for the number of teeth of the different wheels as well as the number the sides of the cam 2 interesting and is used.

A second embodiment of a constant force device according to the present invention is illustrated in Figures 2a to 2d.

In this case, a constant force device according to the invention is in integrated a chronograph mechanism. Figures 2a to 2c correspond to Figures 1a to 1c, their explanations regarding the structure and operation of the constant force device or Clockwork also apply to this embodiment.

In this case, however, the second intermediate drive 14, which is in this Case could also be referred to as a chronograph intermediate drive, as tiltable drive executed. As can be seen from Figure 2c, this drives Drive 14 in a first, usually vertical and first embodiment corresponding position I the indirect seconds wheel 15, which is also called here Chronograph wheel could be named. In a second, tilted Position II, which, for example, by a known, not shown The chronograph's pusher mechanism can be adjusted Chronograph wheel 15, however, decoupled and therefore no longer from Second wheel 9 driven by the chronograph intermediate drive 14.

In addition to those in the description of the first embodiment Advantages mentioned is additionally achieved in this case that Use of a constant force device in connection with a Chronograph mechanism by clicking the Chronograph mechanism caused sudden reduction in amplitude of the Oscillations of the regulator can be avoided. Because as long as that Torque at the seconds wheel 9 above that for re-tensioning the coil spring 8 the constant force device necessary torque, delivers the Device a constant torque to the regulator, resulting in a improved isochronism of the regulatory system follows.

Finally, in Figure 2d, a cross section of the teeth is one for this case preferred embodiment of the stop wheel 13 outlined. To that Tilting the stop wheel 13 to release the chronograph mechanism have teeth, as shown in this figure, a slightly rounded, the tilting movement of the chronograph drive 14 corresponding cross section.

In the above-described embodiments of the present invention is due to the special arrangement of the one stop wheel 13 on the Second intermediate drive 14, that is, in that the stop wheel 13 and the Second intermediate drive 14 have the same axis of rotation, as well as the other Anchor 11, coaxial to the seconds wheel 9, on the seconds wheel drive 10, that is in that the seconds wheel 9 and the armature 11 have the same axis of rotation, thus the integration of a constant force device in a clockwork with a Mechanism optimized for an indirect second. This affects above all efficient use of space, the use of existing elements of the clockwork for Purpose of constant force device and simplification of the whole Movement.

Claims (10)

Constant force device which is suitable for integration into a clockwork of watches, in particular wristwatches, with a mechanism for an indirect second, which has a secondary intermediate drive (14) driven by a second wheel (9) of the clockwork and an indirect second wheel (15), and which has a clamping module (4, 5, 6, 7, 8), a cam (2), an armature (11) and a stop wheel (13), characterized in that the stop wheel (13) of the constant force device on the secondary intermediate drive ( 14) the mechanism is arranged for an indirect second. Constant force device according to the preceding claim, characterized in that the axis of rotation of the armature (11) of the constant force device is identical to the axis of rotation of the second wheel (9) of the clockwork. Constant force device according to the preceding claim, characterized in that the armature (11) is rotatably arranged by means of a ball bearing (12) on a seconds wheel drive (10) which carries the seconds wheel (9). Constant force device according to one of the preceding claims, characterized in that the teeth of the stop wheel (13) have a rounded cross section corresponding to a tilting movement of the second intermediate drive (14) and the stop wheel (13). Constant force device according to one of the preceding claims, characterized in that the tensioning module has a tension arm drive (4), a tension arm (5), a spiral block (6), a spiral spring roller (7) and a spiral spring (8) and an escape wheel (1 ) supporting the escape wheel shaft (3) of the clockwork. Constant force device according to the preceding claim, characterized in that the tension arm drive (4) of the tensioning module, rotatably mounted about the escape wheel shaft (3), is in engagement with the seconds wheel (9) of the clockwork and the spiral spring roller (7) on the escape wheel shaft (3) is attached. Constant force device according to one of the preceding claims, characterized in that the cam (2) cooperating with the armature (11) is attached to an armature wheel shaft (3) of the clockwork which carries an armature wheel (1). Movement of a watch, in particular a wristwatch, with a mechanism for an indirect second, which has a secondary intermediate drive (14) driven by a second wheel (9) of the clockwork and an indirect second wheel (15), characterized in that it comprises a constant force device according to one of the previous claims. Clockwork according to the preceding claim, characterized in that the second intermediate drive (14) is designed to be tiltable in order to implement a chronograph mechanism. Clockwork according to the preceding claim, characterized in that in a first position (I) of the secondary intermediate drive (14) the indirect seconds wheel (15) engages with it, while in a second, tilted position (II) of the secondary intermediate drive (14) is decoupled from this.

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