CH693832A5 - Whirlwind pocket watch for telling the time has pivot mounting with rotary bearing near outer radial boundary and toothing near outer radial boundary for driving pivot mounting - Google Patents

Abstract

The pocket watch has a pivot mounting (1) with its rotary bearing arranged near its outer radial boundary and with toothing (2) arranged near its outer radial boundary for driving the pivot mounting. The pivot mounting has roller bearings (3), especially with grooved ball bearings, in particular a single roller bearing, especially a grooved ball bearing.

Description

The present invention relates to a tourbillon according to the preamble of claim 1.

A tourbillon is a mechanical watch in which the oscillation axis of the balance wheel carries out a progressive relative movement in relation to the watch case in addition to its oscillating movement. In the case of single tourbillons, this relative movement is preferably a progressive rotation about the axis of oscillation of the balance wheel, in the case of double and triple tourbillons it is a wobble movement, caused by a combination of progressive rotations around several different axes of rotation. In order to generate a corresponding relative movement, the balance is arranged in a bogie, which rotates relative to the clockwork. In the case of multiple tourbillons, it also rotates in the bogie around one or two additional axes. Due to this construction, inaccuracies in gear, which arise in different positions due to the center of gravity of the balance wheel and other position-dependent influences, such as position-dependent bearing friction, can be largely avoided by compensating them in one or more directions, so that the tourbillon is ideally independent of its position always runs with the same accuracy.

In most known tourbillons, the bogie has central bearing journals at the bogie ends, with which it is mounted in suitable bearings in the clockwork. Also known are so-called overhung bogies, which have a central bearing journal on only one side, by means of which they are mounted on one side in corresponding bearings in the clockwork.

These known constructions have the disadvantage that the view of the bogie is hindered by the central mounting and the bogie together with its bearings has a relatively large construction height, which is detrimental to the construction of flat tourbillon bags or wristwatches and the implementation of such Clocks as a multiple tourbillon is in the way.

It is therefore the task of providing a tourbillon which does not have the disadvantages of the prior art or at least partially avoids them.

This object is achieved by the tourbillon according to claim 1.

Accordingly, the bogie of the tourbillon is rotatably supported in the area of its radial limits in relation to its axis of rotation in the clockwork, as a result of which the bearing bridges, which are required according to the prior art and which overlap the bogie at one or both ends, are dispensed with. The bogie is therefore not supported in the area of its center of rotation, but in the area of its circumference in such a way that the individual bogie components, viewed in the axial direction, are arranged essentially within its bearing. This makes constructions possible in which the area of the center of rotation of the bogie is completely visible from above and from below and which also have a significantly reduced overall height compared to known constructions.

In a preferred embodiment of the tourbillon, the drive toothing of the bogie is arranged in the region of its outer radial boundaries, so that it essentially encircles the individual bogie components as peripheral toothing and, due to its relatively large circumference, enables multiple gears to engage. This also has the advantage that the view of the bogie and its components is not obscured by drive wheels.

The bogie is advantageously mounted with roller bearings, preferably with deep groove ball bearings, since these bearings cause only relatively small drive energy losses due to bearing friction.

 It is particularly preferred if the bearing of the bogie is formed by exactly one roller bearing, preferably by exactly one deep groove ball bearing, since this enables a particularly low-friction bearing to be implemented. Such a storage is also only possible with the invention, since due to the favorable ratio of the bearing diameter to the height of the bogie, the bending moments that become effective in the bearing only result in a low bearing load and, due to its size, the bearing can also absorb larger bending moments than the flying ones Bearings of known designs today, which is why this mounting variant is particularly suitable for multiple tourbillons, the bogies of which typically have significantly greater heights and masses than those of single tourbillons.

In a further preferred embodiment of the tourbillon, the diameter of the bearing of the bogie, i.e. in the case of rolling bearings, the diameter of the bogie-side running surface for the rolling elements and in the case of plain bearings, the diameter of the bogie-side sliding surface, the same size or larger than the axial extension of the bogie in the direction of its axis of rotation, since this results in the bearing loads caused by bending moments being particularly low and thus also being particularly important low bearing friction results.

In another preferred embodiment, the bogie bearing encloses a space that is open on one side or on both sides in the axial direction with respect to the bogie pivot axis, so that an area is available within the bearing in which certain bogie components can be arranged permanently or temporarily. This design enables the production of particularly compact and flat bogies.

In yet another preferred embodiment of the tourbillon, the bogie comprises, in addition to the supporting cage, which is mounted in the clockwork and carries the bogie components, an auxiliary supporting cage in which the balance and / or the escapement are mounted and which is rotatable in the supporting cage about a preferably to the axis of rotation of the Carrying cage is mounted around the vertical axis of rotation. The support cage and the auxiliary support cage are mechanically positively coupled to one another such that a rotary movement of the support cage around its axis of rotation simultaneously causes a rotation of the auxiliary support cage around its axis of rotation, as a result of which the support cage rotates about an axis of rotation relative to the clockwork, while the auxiliary support cage rotates relative to the clockwork rotates around two axes of rotation and thus performs a wobble movement. A tourbillon with such an arrangement of support cage and auxiliary support cage is also referred to as a double or torkel tourbillon.

In another preferred embodiment of the tourbillon, the bogie comprises, in addition to the support cage, which is mounted in the clockwork and carries the various bogie components, a first and a second auxiliary support cage. The first auxiliary support cage is rotatably mounted in the support cage about an axis of rotation which is preferably perpendicular to the axis of rotation of the support cage. The second auxiliary support cage is rotatably mounted in the first auxiliary support cage about an axis of rotation which is preferably perpendicular to the axis of rotation of the first auxiliary support cage. The balance and / or the escapement of the tourbillon are stored in the second auxiliary cage. The support cage and the two auxiliary support cages are mechanically positively coupled to one another such that a rotary movement of the support cage around its axis of rotation simultaneously causes a rotation of the first auxiliary support cage around its axis of rotation and a rotary movement of the second auxiliary support cage around its axis of rotation, as a result of which the support cage is relative to the clockwork moved about an axis of rotation, while the first auxiliary support cage rotates relative to the clockwork around two different axes of rotation and the second auxiliary support cage rotates about three different axes of rotation relative to the clockwork. The two auxiliary support cages therefore perform a tumbling relative movement with respect to the clockwork. A tourbillon with such an arrangement of a support cage and two auxiliary support cages is also referred to as a triple tourbillon.

In the case of these multiple tourbillons described above, it is also preferred if the bogie is designed in such a way that the support cage storage encloses a space in which, during operation, the auxiliary support cage or part thereof is permanently or at least temporarily arranged in which the balance and / - or the escapement is stored. This results in a particularly well-balanced bogie and the differences in the bearing friction of the support cage bearing in different positions of the tourbillon can be kept small.

It is generally preferred if the balance and the escapement of the tourbillon are stored in a common support cage (for single tourbillons) or in a common auxiliary support cage (for multiple tourbillons), since these two bogie components should be connected as directly as possible.

It is also advantageous if the swing axis of the balance coincides with the axis of rotation of the support cage of the bogie (for single tourbillons) or with the axis of rotation of the auxiliary support cage (for multiple tourbillons) in which it is mounted. In this way, the supporting or auxiliary supporting cage can be kept as small as possible and can also be balanced independently of the balance. The balance can also be given the largest possible diameter.

The bogie is preferably driven by two drive pinions, which engage in opposite positions in a drive toothing on the bogie, it being advantageous if the connecting lines between the points of engagement of the drive pinion in the drive toothing and the axis of rotation of the bogie form an angle of more than 130 ° , before forming more than 150 DEG. As a result, the forces exerted by the drive pinions on the bogie bearing are completely or at least partially canceled out, so that they cause only slight friction losses.

If the drive pinion is driven by independent drive springs, this results in a particularly low-friction drive, since additional synchronization wheels subject to friction can be dispensed with.

The tourbillon according to the invention is preferably a pocket or wristwatch, since the advantages of the invention are particularly evident in these sizes.

Further preferred embodiments of the invention result from the dependent claims and from the following description with reference to FIG. 1, which shows a side view of the bogie of a triple tourbillon pocket watch according to the invention, half in section and uncut. As can be seen, the bogie 1 comprises a support cage 5, which is mounted in the area of its outer radial limits with a single deep groove ball bearing 3 so as to be rotatable about the axis of rotation D1 in the clockwork 10. The axis of rotation D1 of the support cage 5 is identical to the axis of rotation of the bogie 1. The support cage 5 carries a first auxiliary support cage 6, which with two ruby bearings 11 (one of which is indicated on the right by two crossed boxes) can be rotated by one relative to the support cage 5 stationary axis of rotation D2 is mounted around in the support cage 5. This axis of rotation D2 is perpendicular to the axis of rotation D1 of the support cage 5. The first auxiliary support cage 6 in turn carries a second auxiliary support cage 7, which is rotatable by one with two ruby bearings 12 (one half of each bearing is indicated on the right-hand side by a crossed box) on the first auxiliary support cage 6, a fixed axis of rotation D3 is mounted in the first auxiliary support cage 6. This axis of rotation D3 is perpendicular to the axis of rotation D2 of the first auxiliary support cage 6 and coincides in the arrangement of the cages 5, 6, 7 shown in FIG. 1 with the axis of rotation D1 of the support cage 5 and thus with the axis of rotation of the bogie 1. The second auxiliary support cage 7 carries the escapement 9 and the balance 8, the pivot axis of the balance 8 coinciding with the axis of rotation D3 of the second auxiliary support cage 7. In the case shown here, an escapement 8 with constant force is used, which can be seen on the inertia wheel 13.

The support cage 5 has in the area of its outer radial limits next to its bearing 3 or the bogie bearing 3 a drive toothing 2, in which the drive pinions (not shown) engage two independent drive springs (also not shown) for driving the bogie 1. In addition, this is The bogie 1 is surrounded by a first bevel face gear fixed to the clockwork, in the toothing of which engages a first auxiliary drive gear firmly connected to the first auxiliary support cage 6. Arranged on and firmly connected to the support cage 5 is a second bevel face gear 16, in the toothing of which a second auxiliary drive gear 17, which is fixedly connected to the second auxiliary support cage 7, engages. Arranged on and firmly connected to the first auxiliary support cage 6 is an annular gear wheel 18, in the toothing of which the pinion 19 of the inertia wheel 13 engages.

If the bogie 1 is now driven via its drive toothing 2, the support cage 5 and with it the entire bogie 1 make a rotation about the axis of rotation D1 with respect to the clockwork 10. At the same time, the first auxiliary drive wheel 15 meshes in the first bevel face gear 14 fixed to the clockwork and rotates the first auxiliary support cage 6 about its axis of rotation D2, as a result of which the second auxiliary drive gear 17 meshes in the second bevel face gear 16 fixed to the support cage and thereby rotates the second auxiliary support cage 7 about its axis of rotation D3. The rotation of the second auxiliary support cage 7 about its axis of rotation D3 also meshes the pinion 19 of the inertia wheel 13 of the escapement 9 in the toothing of the ring-shaped gear 18 fixed on the first auxiliary support cage 6, as a result of which the balance 8 and escapement 9 are driven on the one hand and on the other at the same time regulate the cyclical rotation of the bogie 1 and thus all of the cages 5, 6, 7 of the same. How this happens in detail is well known to the person skilled in the field of the manufacture of mechanical watches, which is why it is not discussed in more detail here.

As can further be seen from FIG. 1, the diameter of the bearing 3 of the bogie 1 in the present case is significantly larger than the maximum overall height of the bogie 1, so that any bending moments introduced into the bearing by different positions or by driving forces can only cause very low bearing loads and thus have only a minor influence on the bearing friction. In addition, the bearing 3 is arranged on the circumference of the support cage 5 such that the individual bogie components, viewed in the direction of the axis of rotation D1 of the bogie 1, are arranged essentially within the bearing 3 and the bearing 3 in the region of the lower axial end of the bogie 1 is a space 4 encloses in which in operation, ie when the bogie 1 rotates and thus all the cages 5, 6, 7 of the same, the balance 8 and the second auxiliary support cage 7 occur at times. As a result, the bearing 3 of the bogie 1 causes practically no additional increase in the overall height of the bogie 1 beyond the minimum dimensions specified by the balance 8 or the second auxiliary support cage 7, and the entire bogie 1 including the bogie center is clearly visible both from above and from below. What is very desirable is that in the age of electronic watches it is the aesthetics of the perfection of craftsmanship and the movement of the mechanics that make a tourbillon so appealing.

While a preferred embodiment of the invention is described in the present application, it should be clearly pointed out here that the invention is not restricted to this embodiment and can also be carried out in other ways within the scope of the following claims. In particular, it is also provided that the bearing 3 of the bogie 1 be arranged approximately in the region of the center of its axial extent, as a result of which any torques caused by different positions, which act on this bearing, can be kept particularly low and the bogie from above and from below is equally easy to see.

Claims (13)

1. tourbillon with a bogie (1) rotatably mounted in its clockwork (10) in the area of its outer radial limits. 2. tourbillon according to claim 1, characterized in that the bogie (1) in the region of its outer radial boundaries has a drive toothing (2) for driving the bogie (1). 3. tourbillon according to any one of the preceding claims, characterized in that the bogie (1) with roller bearings (3), in particular with deep groove ball bearings (3), is mounted, and in particular that the bogie (1) with exactly such a roller bearing, in particular Deep groove ball bearing is stored. 4. tourbillon according to one of the preceding claims, characterized in that the diameter of the bearing of the bogie (1) is equal to or larger than its maximum axial extent in the direction of its axis of rotation (D1). 5. tourbillon according to one of the preceding claims, characterized in that the storage of the bogie (1) encloses a space (4), and in particular that in this space (4) certain bogie components are arranged permanently or temporarily during operation. 6. tourbillon according to any one of the preceding claims, characterized in that the bogie (1) comprises a support cage (5) and an auxiliary support cage (6), wherein the support cage (5) is mounted in the clockwork (10) and carries all other bogie components and the auxiliary support cage (6) is mounted in the support cage (5) so as to be rotatable about a rotation axis (D2) which is fixed to the support cage and in particular perpendicular to the axis of rotation (D1) of the support cage (5) and carries the balance (8) and / or the escapement (9) of the tourbillon , and wherein the support cage (5) and the auxiliary support cage (6) are connected to one another in such a way that rotation of the support cage (5) about its axis of rotation (D1) causes the auxiliary support cage (6) to rotate about its axis of rotation (D2). 7. tourbillon according to one of claims 1 to 5, characterized in that the bogie (1) comprises a support cage (5) and a first auxiliary support cage (6) and a second auxiliary support cage (7), the support cage (5) in the clockwork ( 10) is mounted and carries all the other bogie components, the first auxiliary support cage (6) is mounted in the support cage (5) so that it can rotate about an axis of rotation (D2) fixed to the support cage and in particular perpendicular to the axis of rotation (D1) of the support cage (5), and the second auxiliary support cage (7 ) is rotatably mounted about an axis of rotation (D3) which is stationary with respect to the first auxiliary support cage (6) and in particular perpendicular to the axis of rotation (D2) thereof, and the balance (8) and / or the escapement (9) of the tourbillon carries, and wherein the support cage (5) and the two auxiliary support cages (6, 7) are motionally connected to one another such that rotation of the support cage (5) about its axis of rotation (D1) rotation of the auxiliary support cages (6, 7) in each case around their axes of rotation (D2, D3). 8. tourbillon according to claim 5 and according to one of claims 6 to 7, characterized in that at least part of the auxiliary support cage (6, 7), in which the balance (8) and / or the escapement (9) is mounted, in operation is arranged permanently or at least temporarily in the space (4) enclosed by the storage of the bogie (1). 9. tourbillon according to one of the preceding claims, characterized in that the balance (8) and the escapement (9) of the tourbillon are mounted in a common support cage (5) or in a common auxiliary support cage (6, 7) of the bogie (1) , 10. tourbillon according to one of the preceding claims, characterized in that the swing axis of the balance (8) of the tourbillon and the axis of rotation (D1, D2, D3) of a support cage (5) of the bogie (1) or an auxiliary support cage (6, 7) the same in which the balance (8) is mounted are identical. 11. tourbillon according to one of the preceding claims, characterized in that the bogie (1) can be driven via two drive pinions which engage at opposite positions in a drive toothing (2) on the bogie (1), and in particular that the connecting lines between the Points of engagement of the drive pinion in the drive toothing (2) and the axis of rotation (D1) of the bogie (1) form an angle of more than 130 °, in particular more than 150 °. 12. tourbillon according to claim 11, characterized in that the drive pinion can be driven by independent drive springs. 13. tourbillon according to one of the preceding claims, characterized in that it is designed as a pocket or wristwatch.