DE102008031444A1 - Automatic mechanical winding device for drive spring of mechanical clockwork of wristwatch, has eccentric mass acting on ratchet arm carrier over control surfaces for generation of linear stroke of ratchet arm carrier - Google Patents

Abstract

The device (1) has gear wheels (2-4) comprising two ratchet levers (12) with a ratchet wheel (10), where the ratchet levers are provided at a ratchet arm carrier (11). The gear wheels convert the pivoting or rotary movement of an eccentric mass (6) into a movement which causes winding of a drive spring. The gear wheels have two radially spaced crank levers or tappets (7, 8) that rotate in opposite directions during pivoting of eccentric mass. The eccentric mass acts on the ratchet arm carrier over control surfaces for generation of linear stroke (B) of the ratchet arm carrier.

Description

The The invention relates to a mechanical automatic elevator or spring lift for the Drive or clock spring of mechanical movements of wristwatches (Automatic) according to the generic term Claim 1 and on a wristwatch with such a lift according to the generic term Claim *.

wristwatches with mechanical movement and with an automatic elevator, the the winding of the drive or clock spring when moving the wristwatch causes are known. The elevator consists in such watches in usually one at the back of the movement around a central clockwork axis pivoting imbalance or eccentric mass whose pivotal movement via a gear arrangement in a winding the drive spring causing rotational movement is converted.

task The invention is to provide a mechanical elevator which is characterized by a high level of operational reliability and a reliable mounting at a reduced size ensures the drive spring of a wristwatch. To solve this Task is an elevator designed according to claim 1. A wristwatch (automatic watch) with such a lift is the subject of the claim *.

Of the Elevator according to the invention offers the advantage of a simplified design and high reliability. Furthermore, each phase of the pivoting movement of the eccentric mass acts or the mass weight in the sense of winding up the drive spring.

Further developments, Advantages and applications The invention will become apparent from the following description of exemplary embodiments and from the figures. All are described and / or illustrated illustrated features for itself or in any combination in principle the subject of the invention, independently from their summary in the claims or their dependency. Also, the content of the claims becomes a part of the description.

The invention will be described below with reference to the figure, which in a simplified representation of a mechanical self-winding 1 for the drive spring of a mechanical movement, such as a wristwatch shows, explained in more detail.

The elevator 1 consists essentially of three gears 2 . 3 and 4 , around parallel axes 2.1 . 3.1 and 4.1 are rotatably mounted on a circuit board, not shown, of a movement. That with the help of a ball bearing 5 stored gear 2 is drivingly with an indicated in the figure with broken lines eccentric mass 6 connected to the axis 2.1 is pivotable (double arrow C). The gear 2 stands with the gear 3 engaged and the latter with the gear 4 , so when pivoting the eccentric mass 6 around the axis 2.1 of the gear 2 the gears 3 and 4 in opposite directions about their axes 3.1 and 4.1 be rotated or pivoted. The gears 3 and 4 have the same size and number of teeth in the illustrated embodiment. The gear 2 is chosen slightly larger than the gears 3 and 4 so that a pivoting of the eccentric mass 6 z. B. already by an angular range smaller than 180 ° to an opposite pivoting of the gears 3 and 4 by an angular range of 180 ° leads.

At the gears 3 and 4 are radially spaced cranks or eccentrics 7 and 8th provided, namely the eccentric 7 on the gear 3 and the eccentric 8th on the gear 4 , Both eccentrics are identical and have a circular cylindrical eccentric surface whose maximum distance from the respective gear axis 3.1 respectively. 4.1 is significantly smaller than the maximum radius that the gears 3 respectively. 4 have on the inner surfaces of their teeth. With the eccentrics 7 and 8th the gears work 3 and 4 with a latch element 9 together, in such a way that when pivoting the eccentric mass 6 around the axis 2.1 and thus at each resulting rotation or pivoting movement of the gears 3 and 4 in one direction and in the other direction via the pawl element 9 a turning of the ratchet wheel 10 in a single direction indicated by the arrow A for the mounting or tensioning of the drive spring, not shown, of the movement, also not shown, takes place. The ratchet wheel 10 is for this purpose on a drivingly connected to the rotatably mounted for mounting the drive spring spring housing. The ratchet wheel 10 is around its axis 10.1 also rotatably mounted on the board, not shown, and further arranged so that the axes 3.1 . 4.1 and 10.1 form the vertices of an isosceles triangle, with equal distances between the axes 3.1 and 10.1 such as 4.1 and 10.1 ,

The latch element 9 consists essentially of a footbridge 11 and two at each end of a bridge in the same direction from the bridge 11 standing up, integral with the bridge 11 manufactured and elastic or resilient trained latch arms 12 and 13 , In the dock 11 are two formed in the illustrated embodiment as slots recesses 14 and 15 provided, which lie with their longitudinal extent in a common axis and in which the eccentric 7 and 8th are included, namely the eccentric 7 in the recess 14 and the eccentric 8th in the recess 15 ,

In the area of the jetty 11 remote ends is any latch arm 12 with a molded latch 12.1 respectively. 13.1 provided with the ratchet wheel of the ratchet wheel 10 interacts. With the pawls 12.1 and 13.1 lie the latch arms 12 and 13 resilient against the ratchet wheel 10 or its teeth on, at two areas, which relate to the Rinkenradachse 10.1 diametrically or approximately diametrically opposite.

The two latches 12.1 and 13.1 are in contrast designed such that the pawl 12.1 further rotation of the ratchet wheel 10 at least one pitch of the ratchet teeth then causes, if by the interaction of the web 11 with the eccentrics 7 and 8th on the latch arm 12 a pulling force is applied, and the pawl 13.1 further rotation of the ratchet wheel 10 at least one pitch of the ratchet teeth then causes, if by the interaction of the web 11 with the eccentrics 7 and 8th on the latch arm 13 a thrust is exerted. For this purpose, in the illustrated embodiment form the pawl 12.1 at her the jetty 11 facing a power transmission to the ratchet 10 or on the ratchet gear causing pawl surface and the pawl 13.1 such a latch surface on her at her the web 11 opposite side.

The latch element 9 is in the illustrated embodiment apart from the opposite design of the pawls 12.1 and 13.1 including the latch arms 12 and 13 , of the footbridge 11 and the recesses 14 and 15 formed and arranged mirror-symmetrically to an imaginary center plane M, which is the Klinkenradachse 10.1 includes and also the connecting line VL of the gear axes 3.1 and 3.4 cuts in the middle. Due to this design, in particular, that of the resilient latch arms 12 and 13 each in the range of the associated latch 12.1 respectively. 13.1 applied spring force equal or substantially equal.

Furthermore, the training is made such that in each pivot position of the eccentric mass 6 around the axis 2.1 the two eccentrics 7 and 8th are arranged and formed mirror-symmetrically to the center plane M, in the illustrated embodiment such that the area of the largest radial distance of the peripheral surface of the eccentric 7 and 8th from the associated gear axle 3.1 respectively. 4.1 in the initial or middle position of the pivoting movement of the eccentric mass 6 each on a connecting line VL of the gear axes 3.1 respectively. 4.1 located.

By the described training, the pawl element 9 when panning C of the eccentric mass 6 around the gear axle 2.1 through the eccentric 7 and 8th in this case counter-rotating reciprocating gears 3 and 4 in the direction of the median plane M relative to the ratchet wheel 10 moved back and forth, as indicated in the figure with the double arrow B, and without the need for further guidance. In the representation chosen for the figure thus takes place with each movement of the pawl element 9 down over the latch arm 12 and the latch 12.1 and with each movement of the pawl member 9 up over the latch arm 13 and the latch 13.1 further rotation of the ratchet wheel 10 in the direction of arrow A. Each phase of the pivoting movement of the eccentric mass 6 is thus effectively used for mounting or tensioning the drive spring.

The elevator 1 is characterized by a particularly simple and reliable construction, in particular because of the possibility of the pawl element 9 in one piece from a suitable material, for example, from a non-metallic starting material, for. As silicon or polycrystalline silicon in a suitable method, for. B. by laser cutting or by etching.

The invention has been described above by means of an embodiment. It is understood that changes and modifications are possible. In particular, it is possible, instead of the slots formed as recesses 14 and 15 others with the eccentrics 7 and 8th interacting surfaces on the bridge 11 provided.

1

elevator

2, 3, 4

gear

2.1 3.1, 4.1

gear axis

5

ball-bearing

6

eccentric

7, 8th

eccentric

9

latch member

10

ratchet

10.1

Klinkenradachse

11

web

12 13

pawl

12.1, 13.1

pawl

14 15

recess or long hole

A

Rotational movement of the ratchet wheel 10

B

Stroke of the pawl element 9

C

Swivel movement of the eccentric mass 6

M

Medium- or symmetry axis

VL

Connecting line of gear axes 3.1 and 4.1

Claims (10)

Automatic, mechanical lift for the Drive spring of a mechanical movement of a wristwatch with one around a joint ( 2.1 ) pivotable eccentric mass ( 6 ) with one opposite the axis ( 2.1 ) This joint radially offset center of mass, with transmission means ( 2 . 3 . 4 ) for converting the pivoting or rotating movement of the eccentric mass ( 6 ) in which the winding of the drive spring causing movement, wherein the gear means at least one ratchet wheel ( 10 ) and at least two with the ratchet cooperating pawl lever ( 12 . 13 ), which on a pivoting (C) of the eccentric mass ( 6 ) moved ratchet ( 11 ) are provided and in both pivot directions of the eccentric mass ( 6 ) turning the ratchet wheel ( 6 ) in the sense of winding up the drive spring, characterized in that the gear means two when pivoting the eccentric mass ( 6 ) counter rotating or donating and radially spaced cranks or eccentrics ( 7 . 8th ) via control surfaces for generating a linear lifting movement (B) of the ratchet ( 11 ) act on this. Elevator according to claim 1, characterized in that the linear lifting movement (B) of the ratchet carrier ( 11 ) perpendicular or transverse to a connecting line VL of the rotary or pivot axes ( 3.1 . 4.1 ) of the eccentric ( 7 . 8th ) is oriented. Elevator according to claim 1 or 2, characterized in that the counter-rotating about their axes of rotation or pivot ( 3.1 . 4.1 ) pivoting eccentric ( 7 . 8th ) mirror-symmetrical to a median plane (M), preferably to one the axis of the ratchet wheel ( 10 ) enclosing center plane (M) are arranged and / or formed. Elevator according to claim 3, characterized in that the stroke (B) of the ratchet carrier ( 11 ) is oriented parallel to the median plane (M). Elevator according to one of the preceding claims, characterized in that the eccentrics ( 7 . 8th ) in recesses ( 14 . 15 ) of the ratchet carrier ( 11 ). Elevator according to one of the preceding claims, characterized in that the latch arms ( 12 . 13 ) each with at least one pawl ( 12.1 . 13.1 ) at a toothing of the ratchet wheel ( 10 ), and that the pawls ( 12.1 . 13.1 ) are oriented opposite. Elevator according to one of the preceding claims, characterized in that the latch arms ( 12 . 13 ) with their latches ( 12.1 . 13.1 ) at two mutually 180 ° or about 180 ° offset from each other peripheral portions of the ratchet wheel ( 10 attack). Elevator according to one of the preceding claims, characterized in that the latch arms ( 12 . 13 ) sprung against the ratchet wheel ( 10 ) issue. Elevator according to claim 8, characterized in that the latch arms ( 12 . 13 ) are elastic or resilient. Elevator according to one of the preceding claims, characterized in that the latch arms ( 12 . 13 ) with their latches ( 12.1 . 13.1 ) and / or with the ratchet carrier ( 11 ) are made in one piece.