DE2137565C3 - Holder for a watch crown - Google Patents

Description

45

The invention relates to a holder for a watch crown, optionally in the longitudinal direction of its Shaft is displaceable in different operating positions marked by locking points and the shaft has a plurality of axially spaced grooves running all around, in which an approach depending on the displacement position engages, which is formed so as to protrude towards the surface of a base on a head part, which is resiliently resilient, leaf-spring-shaped, perpendicular to the surface of the pad Spring part and a fastening part is set on the base, on which the shaft is under spring force of the spring part rests and is held out in the axial direction.

In conventional mountings, the crown or the crown shaft is held against radial displacements by means of a bore in the edge of a ⁶ S carrier plate. In Figs. 1 and 2 of the drawing, an embodiment of such a known device is shown. The axially displaceable in different operating positions crown 3 engages by means of an annular groove on a pin 2, which is on a pivotably mounted locking lever! 1 is arranged. The latching lever 1 engages with a stop on a spring lever which, in the area of the attack, has a plurality of latching points for the stop of the latching lever arranged one behind the other in the direction of the pivoting area of the latching lever. Like F i g. 2 shows, the crown shaft 3 is held in a bore in a support plate 5 of the clockwork against radial changes in position. This type of bracket suffers from a number of disadvantages; so the play of the crown shaft in the axial and radial directions is relatively large. Since the position of the locking lever is determined by the shape and position of the spring lever, the axial position of the crown shaft shows relatively large deviations. Similarly, the deviations in the strokes when pulling out or pushing in the crown shaft are correspondingly large. Furthermore, the production of the locking lever is complex. The number of individual parts required is relatively large; it takes up a lot of space. Finally, it is expensive to make a lateral hole in the carrier plates; high levels of accuracy are difficult to achieve.

A known bracket of the type mentioned (DT-PS 442 874) has the disadvantage that the total for the axial guidance of the bolt and the locking device for marking the various longitudinal displacement or operating positions taken relatively extensive and require at least some complex manufacturing processes. The manufacturing tolerances the axial guide directly determine the radial play or the ease of movement of the crown shaft.

Other known brackets are based on largely similar basic design ideas out; basically the measures for the axial guidance of the shaft on the one hand and for the On the other hand, mark the locking points in the various longitudinal displacement positions of the shaft separated and secured with separate facilities. For guiding the shaft against radial ones Displacement movements are either appropriately long axial guides (DT-PS 442 874, DT-PS 51 059, CH-PS 175 072 and 203 731) or two guides spaced axially accordingly (DT-PS 522 462, FR-PS 778980, CH-PS 75 362 and 328 138). The spring devices to determine the longitudinal shift locking positions work predominantly with spring elements, which in Attack in the direction of the board biased to the shaft and this approximately perpendicular to his Reach over lengthways (DT-PS 51 049 and 522 462, FR-PS 778 980, CH-PS 75 362, 175 072 and 203 731). These spring elements are - for example as wires - the same in all directions Rigid or are rod-shaped in such a way that the greater bending moment in terms of a movement perpendicular to the board adjusts, while a movement in the axial displacement direction of the shaft counteracts a lower bending moment. Another known bracket works with a kind of spring latch, the spring movement of which runs in a plane parallel to the board (CH-PS 428 581). Furthermore, a solution has become known.

the, in which a two-legged spring arrangement between the shaft in the area of the locking points takes up (CH-PS 72 754); the proposed round wire spring element is axially closed held the locking points offset point and is not able to prevent the shaft against radial movements to back up.

The invention is based on the object of creating a holder of the type mentioned at the outset, which after manufacture and construction a much simpler, more cost-saving and moreover Allows low backlash guidance of the crown shaft. The object is achieved according to the invention by that formed on the head part two directed towards the base striving guide sections which, receiving the shaft between them, form an axial shaft guide.

The holder according to the invention is characterized in that it is cushioned against the base held latch is structurally combined with the axial guide. The ones taken for it Measures are extremely simple and can be easily mastered in terms of production technology. The constructive one The combination of razor device and axial guide also makes it possible in principle to practically eliminating radial play in the axle guide. For this purpose, the edges of the Shank between receiving guide sections in a preferred embodiment light designed to spread out towards the base.

In a preferred embodiment, the head part is against movements in the axial direction of the shaft on one component fixed to the housing guided; this feature is known per se (e.g. CH-PS 175 072 and 75 362). to For this purpose, an L-shaped section can be provided on the head part, which is inserted into a recess of the component engages. Finally, in a preferred further embodiment, the head part with the Approach and the sections, the spring part and the fastening part from a flat raw material part produce constant thickness.

The invention is explained in more detail with reference to the examples shown in the drawing. Show it

F i g. t and 2 a plan view and a section of a known embodiment of a holder and Locking device of a watch crown,

F i g. 3 to 5 a plan view and two mutually perpendicular sectional views of an exemplary embodiment according to the invention.

The exemplary embodiment according to dtn F i g. 1 and 2 has already been explained in connection with the statements on the prior art.

The correct execution example according to 3 to 5 shows an element 6 designed as a holder for the crown shank, on which Head part on the side facing away from the crown an L-shaped bent projection 9 is provided, which in on the crown shaft 7 provided grooves 8 engages. On the opposite ropes of the headboard * of the element 6, L-shaped sections 10 and 11 are provided which adjoin the crown shaft between them record the location of the outer diameter. As shown in FIG. 5 are those of the crown shaft wall facing edges of the sections 10 and 11, seen in the direction of the base, slightly spreading formed, whereby a secure contact of the edges on the lateral surface of the crown shaft is guaranteed. At the fortification part! opposite Side of the head part of the element, an L-shaped portion 14 is formed in a Recess 13 of a component 12 engages, which in turn is firmly connected to the base. on in this way, the head part is subjected to spring movements directed approximately perpendicular to the axis of the crown shaft not hindered, but movements approximately parallel to the crown shaft axis due to the guide through the recess 13 do not run. The element 6 is fixed with the aid of a screw 15 connected to the base. Between the fastening area at the location of the screw 15 and the Head part is a relatively wide strip-shaped part that acts as a spring element.

If the crown shaft is shifted in the axial direction, the function changes in a certain way the spring-loaded bracket into that of a spring-loaded locking lever. The approach 9 must be from the respective Groove 8 raised out over the projection located between the adjacent further groove 8 the spring force is increased. This increased spring force now acts as a resistance, which has to be overcome when moving the crown shaft from one rest point to another. Due to different heights and differently shaped projections between the grooves 8, this is Resistance variable, so that in terms of the force to be used between the individual locking positions can be distinguished.

If one compares this embodiment according to the invention with that corresponding to the prior art Embodiment, the following results that can be achieved with the training according to the invention Advantages: The crown shaft is held with practically no radial and axial play. The deviation the stroke distance with axial movement of the crown shaft is very short; the locking positions of the Crown shafts are precisely fixed. In comparison with the spring lever and the Rasthebcl according to the embodiment of the prior art is not a separate spring element in the holder according to the invention provided, it also has no bulges and does not require a stop pin. on in this way, the manufacture of the entire crown device is much easier. The number of required Items is less. Furthermore, there is a smaller space requirement. Since the entire holding and locking device on the surface of the base or carrier plate - i.e. on the side, on which the bridge parts of the clockwork are attached - can be arranged, must do not turn the clock over for reassembly. This is with a view to automatic manufacturing very advantageous. The holder of the crown shaft, its guidance in the radial and axial direction and installation and removal of the crown shaft is made easy by the leaf spring-shaped Reached part of the element that can be made comparatively flat and also wide.

The measures according to the invention can also be operated externally if they are separate in this respect Shanks for correcting or adjusting a datuniancigc as well as a corresponding one Use element of a chronograph and the like.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Bracket for a watch crown, which can optionally be arranged in different, operating positions marked by locking points can be displaced and its shaft has a plurality of axially spaced grooves running all around, in which depending on the displacement position an approach engages that protrudes towards the surface of a pad on a head ίο part is formed, which is resiliently flexible via a spring-elastic, perpendicular to the surface of the base, leaf spring-shaped spring part and a fastening part is fixed on the base, on which the shaft rests under the spring force of the spring part and is guided in the axial direction is held, characterized in that on the head part (9 to 11, 14) two on the Base to directed striving guide sections (10, 11) are formed, the Shank (7) receiving between them, form an axial shaft guide. 2. Holder according to claim 1, characterized in that the head part (9 to 11, 14) guided against movements in the axial direction of the shaft (7) on a component (12) fixed to the housing is. 3. Holder according to claim 2, characterized in that on the head part (9 to 11, 14) an L-shaped section (14) is provided which engages in a recess (13) of the component (12). 4. Holder according to one of the preceding claims, characterized in that the to the shaft (7) engaging edges of the guide sections (10, 11) in the direction of the Slightly spreading underlay seen. 5. Holder according to one of the preceding claims, characterized in that the Head part with the approach (9) and the sections (10,11,14) the spring part and the fastening part is made from a flat piece of raw material of constant thickness.