DE1798191U - ANCHOR WHEEL, ANCHOR AND FORK FOR WATCHES. - Google Patents

Description

Components for Uhpen which show rubbing surfaces. Watch parts; !, which surfaces toeisen., which one To this day, they are mostly subject to frictional stress made of brass, partly also made of steel. Such Parts are s.-B. Anchor and 4nkerrd parts of the mechanism, which calendar clocks use the D & tums display Spring barrel for self-winding watches, among other things With this execution form always occur again through it Difficulties that the friction between dn surfaces sliding on top of each other as a result of poor sliding properties shafts enlarged or that the rubbing surfaces eroding, which led to malfunctions in the clock It was therefore suggested earlier for clocks components instead of steel zi-i useri.

So was z. B. already several times (Yearbook of the German Society for chronometry 1953, pages 67/68, Switzerland. Patent 155 194, Brit. Patent specification 497 648) tried to produce bearings for points and journals made of aluminum and with to be provided with an anodized surface layer (A12 03). The facts data all These attempts were unsuccessful, resulted in their use anodized watch parts that have rubbing surfaces.

The applicant now has no prospect of this from the other experts considered area further worked and, inter alia. a barrel for self-winding watches Developed from aluminum, which because of its anodically oxidized inner surface with the Spring forms a reliable slip clutch. The present invention relates to now other parts of the clock, namely those that have rubbing lifting bits, such as See, for example, the parts forming the lever escapement, i.e. the escape wheel, the anchor and the Anchor fork, as well as the levers and pawls of the date mechanism. The invention continues not only aiming at the moment of inertia of watch parts with rubbing lever surfaces reduce, but also other physical properties of watch components to improve.

The watch components according to the invention with rubbing lever surfaces, which are not bearing parts, are now characterized in that they consist of aluminum or an aluminum alloy and that at least the surfaces exposed to friction are anodically oxidized. The term anodically oxidized is to be understood as the process which is usually also referred to as an anodizing process, while the term "watch components" in the present description refers to all moving parts a watch, but above all those components of a watch concernp that require lubrication in order to function. As aluminum alloys, which are used for watch parts According to the invention can be used curable Alloys in question such as those with the following composition: Alloy I Alloy II Alloy III Cu-Cu3.5 - 5 Cu 1 - 2.5 Si0.5 - 1.5 Si 0 - 1 Si --- Mn 0.2-1 Mn 0.2-1.5 Mn 052-1 Mg0.5-1 Mg 0.2-1.5 Mg 2-3 Cr --- Cr --- Cr 0.1 - 1 Zn --- Zn --- Zn 5.5 - 7 Al remainder Al remainder Al remainder To achieve increased strength, these are Alloys expediently a suitable heat treatment subject. So you can z. B. the strength of alloy 1 by quenching from 530 to 550 ° C to room temperature and aging at 155 to 160 for about 4 hours, those alloy IX by quenching 505-515 Room temperature and storage at room temperature during approximately 100 hours and increase that of alloy III by annealing at 400 to 440 ° C. for approximately 5 hours and subsequent annealing at 250-340 for 4 to 8 hours, with quenching optionally being carried out between the two annealing processes.

Another advantage for the anchor parts is that they are at Use of aluminum alloys instead of heavy metal alloys is easier have a low moment of inertia and therefore less energy for their Need exercise. Furthermore, the bearing pressure is due to the lower weight and the bearing friction is lower.

There is another advantage of the watch components according to the invention in that they - made of aluminum alloys - are largely corrosion-resistant and are usagnetic and, moreover, are easy to work with.

It is understood by those skilled in the art that the present The invention is in no way intended to be restricted to the 3 exemplary embodiments, but rather that instead of the aluminum alloys described in the present description can also use other aluminum alloys.

The drawing shows the invention in a pawl in section. The inner part of the pawl (1) is made of aluminum, while the outer layer of the pawl (2) is made of aluminum Oxide consists of anodic oxidation of the surface of the Aluminum latch can be generated.

Claims (1)

Claim to protection. Escape wheel, anchor and anchor fork for watches, characterized in that that they are made of aluminum or an aluminum alloy and that the friction exposed surfaces are anodically oxidized.