EP2869141A2 - Watch support - Google Patents

Abstract

The present invention relates to a watch carrier (17) for receiving in a receiving cylinder (3, 5, 7) of a watch winder (1) comprising - A viscoelastic base body (101) having a substantially cylindrical shape and two end surfaces (103a, 103b), wherein in the peripheral surface (105) of the viscoelastic base body (101) two opposite receiving troughs (107a, 107b) are arranged for a mechanical automatic watch, and - A coating (111) for improving the adhesion of the watch carrier (17) in the receiving cylinder (3, 5, 7) on at least a portion of the peripheral surface (105) of the viscoelastic base body (101). The present invention further relates to a watch winder (1) comprising at least one watch carrier (17) according to the invention and a method for mounting mechanical automatic watches using a watch carrier (17) according to the invention and the watch winder (1) according to the invention.

Description

The present invention relates to a watch holder for aufziehende watches, which is intended to be included in a receiving cylinder of a watch winder, as well as a watch winder and a method for mounting mechanical automatic watches.

Watch winders are generally used for mounting mechanical automatic watches. Such mechanical automatic watches are designed in principle that they are constantly raised by wearing on the wrist and the resulting movements. If the clock fully wound, that is, the drive spring of the watch mechanism is fully biased, so depending on the design and functionality of the clock a runtime, or a so-called power reserve, guaranteed from 20 to 40 hours. Unless the watch is worn, so if there is no regular movement, the movement stops at the end of the power reserve and the clock must be wound manually.

By stopping the clock but not only the current time must be set again, but especially in high-quality watches, the so-called complications, such as days of the week, months, moon phases, time zones, etc .. This is not only an unnecessary burden on the wearer of the clock but can be made in part only by appropriately trained persons such as watchmakers. In addition, stopping the movement has mechanical effects, for example, because when the movement stops, the viscosity of the lubricant changes in the bearings of the moving parts. If a watch often stops for an extended period of time, this can lead to an impairment of the movement.

Watch winder are known in principle from the prior art. For example, describes EP 1 780 614 A1 a tourbillon watch winder, in which a watch holder is stored in a drum and moved by means of driven rollers about a longitudinal axis. The watch carrier is not described specifically, it should be used only in the drum and can hold a clock.

A more concrete solution offers WO 2000/017713 A1 , which describes a device for moving and storing watches. The watch carrier is here designed as a simple cylindrical block made of a deformable material, which is pressed into a rotatable drum and there holds a clock applied to him. Further disclosed US 2005/0254352 A1 a controllable Uhraufzieher for self-winding clocks, in which a turntable is provided for holding and turning the clock. For receiving a watch, a holding piece is described with a substantially cylindrical shape, the size of which is dimensioned for insertion into an opening of the turntable. The edges of the retainer may be bevelled to secure a watch to it. Further, the retainer may be configured for rapid compressibility and decompressibility in the axial direction to facilitate attachment of the watch thereto. The retaining piece may be formed by an internal cylindrical block of open-cell foam and surrounded by a shell of porous material.

A disadvantage of the prior art is that depending on the size and weight of the aufziehenden clock and depending on the material of the watch carrier whose clamping effect in the drum is not sufficient to keep the aufziehende clock safely in the drum. In addition, the material of the watch wearer can age, so that its clamping effect is also lost.

It is therefore an object of the present invention to provide a watch carrier which securely and permanently holds each type of watch to be wound regardless of its size or weight in a receiving cylinder, even when the receiving cylinder is rotated about its longitudinal axis.

• einen viskoelastischen Grundkörper (101) mit im Wesentlichen zylindrischer Form und zwei Endflächen (103a, 103b), wobei in der Umfangsfläche (105) des viskoelastischen Grundkörpers (101) zwei gegenüberliegende Aufnahmemulden (107a, 107b) für eine mechanische Automatikuhr angeordnet sind, und
• eine Beschichtung (111) zur Verbesserung der Haftung des Uhrenträgers (17) in dem Aufnahmezylinder (3, 5, 7) auf zumindest einem Teilbereich der Umfangsfläche (105) des viskoelastischen Grundkörpers (101).

This object is achieved according to the present invention by a watch carrier (17) for receiving in a receiving cylinder (3, 5, 7) of a watch winder (1), comprising

• a viscoelastic base body (101) with a substantially cylindrical shape and two end surfaces (103a, 103b), wherein in the peripheral surface (105) of the viscoelastic base body (101) two opposite receiving troughs (107a, 107b) are arranged for a mechanical automatic watch, and
• a coating (111) for improving the adhesion of the watch carrier (17) in the receiving cylinder (3, 5, 7) on at least a portion of the peripheral surface (105) of the viscoelastic base body (101).

• einen viskoelastischen Grundkörper (101) mit im Wesentlichen zylindrischer Form und zwei Endflächen (103a, 103b), wobei in der Umfangsfläche (105) des viskoelastischen Grundkörpers (101) zwei gegenüberliegende Aufnahmemulden (107a, 107b) für eine mechanische Automatikuhr angeordnet sind, und
• eine Beschichtung (111) zur Erhöhung der Haftung des Uhrenträgers (17) in dem Aufnahmezylinder (3, 5, 7), die auf zumindest einem Teilbereich der Umfangsfläche (105) des viskoelastischen Grundkörpers (101) aufgebracht ist.

Another object of the present invention is a watch carrier (17) for receiving in a receiving cylinder (3, 5, 7) of a watch winder (1) solved, comprising

• a viscoelastic base body (101) with a substantially cylindrical shape and two end surfaces (103a, 103b), wherein in the peripheral surface (105) of the viscoelastic base body (101) two opposite receiving troughs (107a, 107b) are arranged for a mechanical automatic watch, and
• a coating (111) for increasing the adhesion of the watch carrier (17) in the receiving cylinder (3, 5, 7), which is applied to at least a portion of the peripheral surface (105) of the viscoelastic base body (101).

The above-defined watch carrier (17) is characterized in particular in that it reliably and reliably holds a watch arranged in one of the receiving cylinders (3, 5, 7) in the receiving cylinder (3, 5, 7) without the watch carrier (17 ) slides on the inner wall of the receiving cylinder (3, 5, 7).

In the following, the present invention will be illustrated in detail.

In a first aspect, the present invention relates to a watch carrier (17) for receiving in a receiving cylinder (3, 5, 7) of a watch winder (1). The watch carrier (17) comprises a viscoelastic base body (101) with a substantially cylindrical shape and two end surfaces (103a, 103b), wherein in the peripheral surface (105) of the viscoelastic base body (101) two opposite receiving troughs (107a, 107b) for a mechanical Automatic watch are arranged. The watch carrier (17) further comprises a coating (111) for improving, that is increasing the adhesion of the watch carrier (17) in the receiving cylinder (3, 5, 7) on at least a portion of the peripheral surface (105) of the viscoelastic body ( 101) is applied.

The watch carrier (17) according to the invention has the advantage over the prior art that it adheres securely to the inner surface of a receiving cylinder (3, 5, 7), in particular by the coating (111) on its circumferential surface (105), so that it also in the assembly with a large and heavy clock during a movement of the receiving cylinder (3, 5, 7) does not slide. Rather, the coating (111) according to the invention increases the adhesion between the watch carrier (17) and the inner wall of the receiving cylinder (3, 5, 7) such that no unwanted movement takes place. In this respect, it is possible to speak of an essentially non-positive contact between watch carrier (17) and receiving cylinder (3, 5, 7).

By "receiving cylinder" is essentially understood a tubular body whose inner diameter is sufficiently dimensioned so that a clock on the watch carrier (17) according to the invention can be arranged therein. The inner diameter of the receiving cylinder (3, 5, 7) is generally 100 mm to 50 mm, preferably 90 mm to 60 mm, particularly preferably 75 mm to 65 mm and in particular 70 mm.

For the purposes of the present invention, "clock" is understood in particular to be watches whose mechanical movement has an automatic elevator. These are often wristwatches, but can in principle be all sorts of mechanical watches with automatic winding.

"Viscoelastic body" is an element that can be reversibly deformed within certain limits, on the one hand to apply a clock on it and hold and on the other hand can be compressed so far that a trouble insertion into a receiving cylinder (3, 5, 7) possible is.

The coating (111) according to the invention is applied in a suitable manner to the viscoelastic base body (101) during the production of the watch carrier (17). The coating (111) is different from the viscoelastic base (101).

The phrase "to improve the adhesion of the watch carrier (17) in the receiving cylinder (3, 5, 7)" is to be understood in the context of the present invention that the adhesion of the watch carrier (17) according to the invention in the receiving cylinder (3, 5, 7) compared with a generic watch carrier, which has no inventive coating (111) is increased.

For compression, the viscoelastic base body (101) preferably has recessed grips (115), which are arranged opposite one another in the peripheral surface (105).

The "receiving wells" are also depressions in the peripheral surface (105), which are configured to receive, for example, the wristband of a watch without it coming into contact with and rubbing against the inner surface of the receiving cylinder (3, 5, 7).

On the one hand to improve the adhesion of the watch carrier (17) in the receiving cylinder (3, 5, 7), but on the other hand to ensure trouble-free insertion of the watch carrier (17) in the receiving cylinder (3, 5, 7), the coating (111 ) be applied flat, punctiform, linear and / or strip-shaped on the peripheral surface (105). In addition, a full-surface coating (111) is possible.

Preferably, the coating (111) comprises rubber, latex, silicone and / or polyurethane. These materials are characterized by good adhesion to smooth surfaces such as the inner surfaces of the receiving cylinder (3, 5, 7), with simultaneous aging resistance.

The improved adhesion may further contribute to the development that the outer diameter (D _A ) of the watch carrier (17) is 0.1% to 10% greater than the inner diameter of the receiving cylinder (3, 5, 7). As a result, the clamping force of the watch carrier (17) in the receiving cylinder (3, 5, 7) is increased by the viscoelasticity of the base body (101). At a level of less than 0.1%, a sufficient clamping effect is no longer observed, while at a level of more than 10% of the watch carrier (17) must be excessively deformed to insert it into the receiving cylinder (3, 5, 7) ,

Outer diameter (D _A ) of the watch carrier (17) is preferably 101 mm to 51 mm, preferably 91 mm to 61 mm, more preferably 76 mm to 66 mm and in particular 71 mm.

In a further embodiment of the watch carrier (17), a dimensionally stable disc (113) can be applied to at least one of the two end surfaces (103a, 103b). This serves in particular for the secure holding and support of the watch case with respect to the viscoelastic base body (101). "Dimensionally stable" in this context means that the disc (113) is made of a strong, stiff material and can not be easily deformed.

Preferably, the dimensionally stable disc (113) has an outer contour which substantially corresponds to the cross-sectional contour of the viscoelastic base body (101). This ensures that the disc (113) rests well on the viscoelastic base body (101) and shows excellent optics.

So that the disk (113) does not jam when inserting the watch carrier (17) into a receiving cylinder (3, 5, 7), it has proved to be advantageous if the outer contour of the dimensionally stable disk (113) is 0.1% to 10% smaller is as the inner diameter of the receiving cylinder (3, 5, 7). Less than 0.1% does not assure jam-free insertion, while more than 10% greatly affects the optics of the watch carrier (17).

In a preferred embodiment of the watch carrier (17) according to the invention, the viscoelastic base body (101) and / or the dimensionally stable disc (113) may comprise a sheath (109). In addition to an increase in the optical value, the sheath (109), depending on its material, leads to an improved fit of the watch on the watch carrier (17).

The sheath (109) is applied as a separate layer on the viscoelastic base (101) and / or the dimensionally stable disc (113). For example, the viscoelastic base body (101) and / or the dimensionally stable disc (113) is covered with the material of the sheath (109) or coated with the material of the sheath (109).

In the event that the viscoelastic base body (101) comprises a sheath (109), the coating (111) according to the invention is applied to the sheath (109) on at least a portion of the peripheral surface (105) of the viscoelastic base body (101).

Preferably, the sheath (109) comprises textiles, leather, plastic materials and / or flocking. By choosing a suitable material, the stop of the clock on the watch carrier (17) can be improved.

Embodiments are also provided in which only the viscoelastic base (101) is provided with the sheath (109) while the material of the rigid disc (113) remains visible to set a visual accent. This can be, for example, a dimensionally stable disc (113) made of a fine wood, while the base body (101) is covered with a matching color velvet.

In a further embodiment of the watch carrier (17) according to the invention, it is preferred if the viscoelastic base body (101) comprises a core (101a) of a first viscoelastic material and at least one carrier layer (101b, 101c) adjoining the core (101a) a second viscoelastic material, wherein the first viscoelastic material has a lower stiffness than the second viscoelastic material.

By this combination of features is achieved that by the less stiff, i. softer, core (101 a), the base body (101) can be deformed in the direction of its longitudinal axis, while its end portions of the stiffer carrier layers (101 b, 101 c) are formed.

According to the invention, a construction is preferred which comprises a carrier layer (101b, 101c) on both sides of the core (101a) in the direction of the longitudinal axis of the base body (101). Preferably, the carrier layers have a thickness of 5 mm to 15 mm, in particular 10 mm, while the core (101 a) has a thickness of 20 mm to 40 mm, in particular 30 mm.

In order to achieve the combination of features described above, it has proven to be advantageous if the core (101 a) polyurethane foam and the adjacent carrier layer (101b, 101c) comprises a closed-cell crosslinked polyethylene foam. The polyurethane foam thus forms the softer core, while the cross-linked polyethylene foam is significantly stiffer. Closed cell crosslinked polyethylene foams are available, for example, under the trade name "Plastazote LD 18".

It is further preferred that the dimensionally stable disc (113) comprises plastic, metal, cardboard and / or wood.

It is particularly preferred if the dimensionally stable disc (113) comprises polymethylmethacrylate. A particularly preferred embodiment of the polymethylmethacrylate is Plexiglas ^®.

• einen ersten Aufnahmezylinder (3), der um seine Längsachse drehbar gelagert ist,
• eine Anzahl zweiter Aufnahmezylinder (5), die jeweils um ihre Längsachse drehbar geführt sind,
• eine Anzahl dritter Aufnahmezylinder (7), die jeweils um ihre Längsachse drehbar geführt sind,
• zumindest ein Gehäusebauteil (9) mit einer im Wesentlichen kreisrunden Öffnung (11), das den ersten Aufnahmezylinder (3) und die zweiten und dritten Aufnahmezylinder (5, 7) aufnimmt, und
• zumindest einen erfindungsgemäßen Uhrenträger (17), wie er vorstehend beschrieben wird.

In a second aspect, the present invention relates to a watch winder (1) comprising

• a first receiving cylinder (3) which is rotatably mounted about its longitudinal axis,
• a number of second receiving cylinders (5) which are each guided rotatably about their longitudinal axis,
• a number of third receiving cylinders (7), each rotatably guided about its longitudinal axis,
• at least one housing component (9) having a substantially circular opening (11) which receives the first receiving cylinder (3) and the second and third receiving cylinders (5, 7), and
• at least one watch carrier (17) according to the invention, as described above.

The watch winder (1) described above is distinguished by the fact that a watch arranged on the watch carrier (17) according to the invention is moved uniformly and reliably in one of the receiving cylinders (3, 5, 7), while by simply reversing the rotational movement of the receiving cylinder (FIG. 3, 5, 7) is possible to change the movement of the clock and thus exert a different mechanical stress on the watch mechanics. This leads to the advantage that a one-sided mechanical load of the watch mechanism is prevented, so that the service life can be increased and the maintenance intervals of the mechanism can be extended. The clock is held by the watch carrier (17) according to the invention securely and permanently in the respective receiving cylinder (3, 5, 7).

1. a) Befestigen zumindest einer mechanischen Automatikuhr auf einem erfindungsgemäßen Uhrenträger (17),
2. b) Einsetzen des Uhrenträgers (17) mit der darauf befestigten mechanischen Automatikuhr in einen ersten, zweiten oder dritten Aufnahmezylinder (3, 5, 7) des Uhrenbewegers (1), indem zunächst der Uhrenträger (17) so zusammengedrückt wird, dass das Einsetzen des Uhrenträgers (17) ermöglicht wird, und dann der Uhrenträger (17) freigegeben wird, so dass durch seine Viskoelastizität die Umfangsfläche (105) des Uhrenträgers (17) mit der Beschichtung (111) zumindest teilweise an die Innenflächen der Aufnahmezylinder (3, 5, 7) angelegt wird, und
3. c) Antreiben des ersten Aufnahmezylinders (3) oder der dritten Aufnahmezylinder (7), so dass die Aufnahmezylinder (3, 5, 7) in eine Drehbewegung versetzt werden,
   wobei durch die Drehbewegung der Aufnahmezylinder (3, 5, 7) die zumindest eine mechanische Automatikuhr aufgezogen wird.

In a third aspect, the present invention relates to a method of mounting mechanical automatic watches using a watch carrier (17) according to the invention as described above and the watch winder (1) described above, comprising the steps:

1. a) attaching at least one mechanical automatic watch to a watch carrier (17) according to the invention,
2. b) insertion of the watch carrier (17) with the mechanical automatic watch mounted thereon in a first, second or third receiving cylinder (3, 5, 7) of the watch winder (1) by first the watch carrier (17) is compressed so that the insertion of the 17) is released, and then the watch carrier (17) is released, so that by its viscoelasticity, the peripheral surface (105) of the watch carrier (17) with the coating (111) at least partially against the inner surfaces of the receiving cylinder (3, 5, 7) is created, and
3. c) driving the first receiving cylinder (3) or the third receiving cylinder (7), so that the receiving cylinders (3, 5, 7) are set in a rotational movement,
   wherein by the rotational movement of the receiving cylinder (3, 5, 7), the at least one mechanical automatic watch is mounted.

With the method according to the invention using the watch carrier (17) according to the invention, it is possible to reliably and simultaneously wind several mechanical automatic watches simultaneously.

Other features, advantages and applications will become apparent from the following description of embodiments of the invention with reference to the accompanying figures. All described and / or illustrated features alone or in any combination form the subject matter of the invention, regardless of their combination in the claims or their dependency.

Figur 1

eine schematische Ansicht eines erfindungsgemäßen Uhrenträgers 17 in einer bevorzugten Ausführungsform,

Figuren 2a, 2b, 2c

schematische Ansichten eines erfindungsgemäßen Uhrenträgers 17 mit verschiedenen Ausführungsformen der Beschichtung 111,

Figur 3

eine Querschnittsansicht durch einen erfindungsgemäßen Uhrenträger 17 in einer bevorzugten Ausführungsform,

Figur 4

eine Querschnittsansicht durch einen erfindungsgemäßen Uhrenträger 17 in einer alternativen bevorzugten Ausführungsform,

Figur 5

eine schematische Ansicht eines erfindungsgemäßen Uhrenbewegers 1 in einer bevorzugten Ausführungsform und

Figur 6

einen in Figur 5 dargestellten erfindungsgemäßen Uhrenbeweger 1 mit eingesetzten erfindungsgemäßen Uhrenträgern 17.

Show it:

FIG. 1

a schematic view of a watch carrier 17 according to the invention in a preferred embodiment,

FIGS. 2a, 2b, 2c

schematic views of a watch carrier 17 according to the invention with various embodiments of the coating 111,

FIG. 3

a cross-sectional view through a watch carrier 17 according to the invention in a preferred embodiment,

FIG. 4

a cross-sectional view through a watch carrier 17 according to the invention in an alternative preferred embodiment,

FIG. 5

a schematic view of a watch winder 1 according to the invention in a preferred embodiment and

FIG. 6

one in FIG. 5 Watch winder 1 according to the invention with inserted watch carriers 17 according to the invention.

FIG. 1 schematically represents a preferred embodiment of the watch carrier 17 according to the invention. The viscoelastic base body 101 has a substantially cylindrical shape, wherein on its peripheral surface 105 two opposing receiving troughs 107a, 107b for a mechanical automatic watch and offset by 90 ° to two opposite recessed grips 115 are provided. The remaining portions of the peripheral surface 105 form in imaginary completion the cylindrical shape. The remaining portions are on the inner surface of the receiving cylinder 3, 5, 7 at.

On the end face 103a is in the illustration of the FIG. 1 a dimensionally stable disc 113 is shown, which has substantially the same contour as the cross section of the viscoelastic base 101. However, in the presentation of the FIG. 1 the corners of the disc 113 configured less far, so that they do not clamp when inserting the watch carrier 17 in the receiving cylinder 3, 5, 7.

The outer diameter D _{A of} the watch carrier 17 is 0.1% to 10%, in particular 5% larger than the inner diameter of the receiving cylinder 3, 5, 7.

The FIGS. 2a . 2b and 2c various embodiments of the coating 111 schematically illustrate. The coating 111 may be in the form of transverse strips (FIG. Fig. 2a ), Points ( Fig. 2b ) or longitudinal stripes ( Fig. 2c ).

A cross section through the Uhrenträges 17 along its longitudinal axis FIG. 3 Depicted on both sides of the core 101a of a polyurethane foam are carrier layers 101b, 101c of a closed-cell crosslinked polyethylene foam, which is available under the trade name "Plastazote LD 18". The core 101a is 30 mm thick in this embodiment, while the two carrier layers 101b, 101c are each 10 mm thick.

At the two end surfaces 103a, 103b dimensionally stable discs 113 made of Plexiglas ^® are arranged on which rest the watch case or the bracelet closure of the clock and are stably stored.

Not shown in the figures, the sheath 109. In the case of the viscoelastic body 101, this is applied so that possibly overlapping portions of the sheath material at the end surfaces 103a, 103b are located. The disk 113 is encased in such a way that possibly overlapping portions of the casing 109 are located on the rear side, so that no optically disturbing seams or overlaps of the casing 109 are visible after the joining of the sheathed body 101 and the sheathed disk 113.

FIG. 4 represents a further embodiment in which the viscoelastic base 101 is constructed multi-layered. Between two cores 101 a, a carrier layer 101 d is first introduced. The outer sides of the two cores 101 a are covered by two further carrier layers 101 b, 101 c, so that a five-layer structure is formed. This embodiment is due to the three carrier layers 101b, 101c, 101 d on the one hand more stable, but on the other hand, by the two cores 101 a further sufficient deformability for receiving the clock. In this embodiment, the three carrier layers 101b, 101c, 101d each have a thickness of 7 mm and the two cores 101a each have a thickness of 15 mm.

In FIG. 5 a preferred embodiment of the watch winder 1 according to the invention is shown. In it, a receiving cylinder 3 is centrally arranged, which has a flange 13 at its two opposite ends. To the receiving cylinder 3 five receiving cylinder 5 a, 5 b, 5 c, 5 d, 5 e are arranged, which each touch with their lateral surface, the lateral surface of the receiving cylinder 3, which are spaced from each other, however. This ensures that the rotational movement of the receiving cylinder 3, which is transmitted in an opposite rotational movement of the receiving cylinder 5a, 5b, 5c, 5d, 5e, is not inhibited. The receiving cylinders 5a, 5b, 5c, 5d, 5e form a second arrangement plane. The receiving cylinders 5a, 5b, 5c, 5d, 5e have no flange 13 at their opposite ends, but are guided between the flanges 13 of the receiving cylinder 3.

In a third arrangement level, the receiving cylinder 7a, 7b, 7c, 7d, 7e are arranged, which in turn each have flanges 13 at their ends. Again FIG. 5 can be seen, the receiving cylinder 7a, 7b, 7c, 7d, 7e are not in contact with each other, in each case a receiving cylinder 7a, 7b, 7c, 7d, 7e, however, with two receiving cylinders 5a, 5b, 5c, 5d, 5e in frictional contact , so the respective rotational movements of the receiving cylinders 5a, 5b, 5c, 5d, 5e are converted into opposite rotational movements of the receiving cylinders 7a, 7b, 7c, 7d, 7e.

The receiving cylinders 7a, 7b, 7c, 7d, 7e in turn are in frictional contact with the circular openings 11 of two parallel spaced apart housing components 9 and engage with their flanges 13 so that they are held securely in their movement. The housing components 9 are mounted on a base 19 and are held by suitable, not shown in the figures fastening means spaced from each other.

By a rotational movement of the receiving cylinder 3, the receiving cylinder 5a, 5b, 5c, 5d, 5e both rotated about its longitudinal axis, as well as on a concentric to the receiving cylinder 3 circular path K1 moves. This movement is also transmitted to the receiving cylinder 7a, 7b, 7c, 7d, 7e, which also not only rotate about their own longitudinal axis, but also move on a further concentric to the receiving cylinder 3 circular path K2. The different rotational movements of the receiving cylinder 3, 5a, 5b, 5c, 5d, 5e, 7a, 7b, 7c, 7d, 7e are in FIG. 5 shown.

The illustrated watch winder 1 with the watch carrier 17 according to the invention is designed so that it ensures not only by its reliable and uniform movement, the mounting of mechanical automatic watches, but at the same time allows a visually appealing presentation of watches. For this purpose, individual watches are placed on the watch carriers 17 according to the invention and this watch carrier 17 is inserted into the respective receiving cylinders 3, 5, 7, that the dial faces the viewer. FIG. 6 schematically shows the arrangement of the watch carrier 17 according to the invention in the receiving cylinders 3, 5, 7 of a watch winder 1 according to the invention in the operation of the watch winder 1 according to the invention thus results in a harmonious carousel movement in which the clocks dance during their winding formally around each other, while they by the inventive Watch holder 17 can be held securely.

Due to the open design of the individual receiving cylinders 5, 7, viewing of the clocks to be wound up is possible from both sides, by inserting from each side an inventive clock carrier 17 into each receiving cylinder 5, 7.

The visual appearance of the watch carrier 17 of the watch winder 1 according to the invention is still supported by the selection of high quality materials. For the sheath 109 of the watch carrier 17 can soft leather or fine textiles are used as well as flocking or plastic materials.

Likewise, for the receiving cylinder 3, 5, 7, for example, transparent materials such as Plexiglas be used while the flanges 13 and the housing member 9 are made of aluminum, stainless steel or other high-quality materials. Likewise, individual components may be constructed by noble woods, steel, natural stone or glass or be veneered or clad.

LIST OF REFERENCE NUMBERS

1

winder

3

first receiving cylinder

5a, 5b, 5c, 5d

second receiving cylinder

7a, 7b, 7c, 7d

third intake cylinder

9

housing component

11

circular opening

13

flange

15

Device for improving the frictional contact

17

clock peddler

19

base

21

fastener

23

drilling

101

viscoelastic body

101

core

101b, 101c, 101d

backing

103a, 103b

end surfaces

105

peripheral surface

107a, 107b

receiving troughs

109

jacket

111

coating

113

dimensionally stable disc

115

handholds

D _A

outer diameter

Claims (15)

Watch carrier (17) for receiving in a receiving cylinder (3, 5, 7) of a watch winder (1), comprising - A viscoelastic base body (101) having a substantially cylindrical shape and two end surfaces (103a, 103b), wherein in the peripheral surface (105) of the viscoelastic base body (101) two opposite receiving troughs (107a, 107b) are arranged for a mechanical automatic watch, and - A coating (111) for improving the adhesion of the watch carrier (17) in the receiving cylinder (3, 5, 7) on at least a portion of the peripheral surface (105) of the viscoelastic base body (101). Watch holder (17) according to claim 1, wherein the coating (111) is arranged flat, punctiform, linear and / or strip-shaped on the peripheral surface (105). A watch carrier (17) according to claim 1 or 2, wherein the coating (111) comprises rubber, latex, silicone and / or polyurethane. Watch carrier (17) according to one of claims 1 to 3, wherein the outer diameter (D _A ) of the watch carrier (17) is 0.1% to 10% greater than the inner diameter of the receiving cylinder (3, 5, 7). Watch holder (17) according to one of claims 1 to 4, wherein on at least one of the two end surfaces (103a, 103b) a dimensionally stable disc (113) is applied. Watch holder (17) according to claim 5, wherein the dimensionally stable disc (113) has an outer contour which substantially corresponds to the cross-sectional contour of the viscoelastic base body (101). Watch holder (17) according to claim 5 or 6, wherein the outer contour of the dimensionally stable disc (113) is 0.1% to 10% smaller than the inner diameter of the receiving cylinder (3, 5, 7). Watch holder (17) according to one of claims 1 to 7, wherein the viscoelastic base body (101) and / or the dimensionally stable disc (113) comprises a sheath (109). A watch carrier (17) according to claim 8, wherein the sheath (109) comprises textiles, leather, plastic materials and / or flocking. A watch carrier (17) according to any one of claims 1 to 9, wherein the viscoelastic base (101) comprises a core (101a) of a first viscoelastic material and at least one backing layer (101b, 101c) of a second viscoelastic material adjacent to the core (101a) wherein the first viscoelastic material has a lower stiffness than the second viscoelastic material. The watch carrier (17) of claim 10, wherein the core (101 a) polyurethane foam and the adjacent backing layer (101b, 101c) comprises a closed cell crosslinked polyethylene foam. Watch carrier (17) according to one of claims 5 to 11, wherein the dimensionally stable disc (113) comprises plastic, metal, cardboard and / or wood. The watch carrier (17) of claim 12, wherein the dimensionally stable disc (113) comprises polymethyl methacrylate. Watch winder (1) comprising - A first receiving cylinder (3) which is rotatably mounted about its longitudinal axis, - A number of second receiving cylinder (5), which are each guided rotatably about its longitudinal axis, - A number of third receiving cylinder (7), which are each guided rotatably about its longitudinal axis, - At least one housing member (9) having a substantially circular opening (11) receiving the first receiving cylinder (3) and the second and third receiving cylinder (5, 7), and - At least one watch carrier (17) according to one of claims 1 to 13. A method of mounting mechanical automatic watches using a watch carrier (17) according to any one of claims 1 to 13 and the watch winder (1) according to claim 14, comprising the steps of: a) attaching at least one mechanical automatic watch on a watch carrier (17) according to one of claims 1 to 13, b) inserting the watch carrier (17) with the mechanical automatic watch mounted thereon in a first, second or third receiving cylinder (3, 5, 7) of the watch winder (1) by first the watch carrier (17) so is compressed, that the insertion of the watch carrier (17) is enabled, and then the watch carrier (17) is released, so that by its viscoelasticity, the peripheral surface (105) of the watch carrier (17) with the coating (111) at least partially against the inner surfaces the receiving cylinder (3, 5, 7) is applied, and c) driving the first receiving cylinder (3) or the third receiving cylinder (7), so that the receiving cylinders (3, 5, 7) are set in a rotational movement,
wherein by the rotational movement of the receiving cylinder (3, 5, 7), the at least one mechanical automatic watch is mounted.

Images