DE807378C - Sliding point tension spring for driving all kinds of clocks, technical equipment, etc. - Google Patents

Description

On all tension springs generally used to date to drive Clocks, etc. have a great evil: The individual spring coils are always below strong pressure, combined with not insignificant friction on each other. One is therefore forced to oil the spring itself very well or to provide it with grease and graphite, in order to eliminate the friction or the resulting loss of power as much as possible.

However, a very strong oiling is often a major disadvantage for watches of all kinds. The coils of the spring lie very closely on one another and then press very hard quickly pulling the oil out of the tension spring. Then it works especially with clocks without a barrel (`` alarm clocks, wall clocks, etc.) around the plant and thus impairs good gait. Some watches are already in use for this reason completely refused.

However, if a tension spring is not oiled enough, then it is very easy There is a risk that the spring coils will become completely dry and then the same will be the same seize up. This is particularly easy because the same material is always used Steel on steel works together. A tension spring cannot be hardened as hard as glass to avoid sticking, otherwise it would break immediately.

All of these disadvantages can be eliminated by using the in the drawing can be eliminated. In the case of the one shown in FIG Tension spring, the inside d of the spring is covered with thin plates f, which are made of are made of a different material than the spring itself. The outside of the The spring remains smooth as with any tension spring used so far.

Fig. I shows a section of the spring band of the spring Fig. 2 seen from the outside e. The mainspring is completely smooth on this side; FIG. 3 shows a section of the spring band of FIG. 2 from the inside d seen. On this side, the mainspring with small metal plates, z. B. Brass, covered, which can be about 1/4 as strong as the spring band itself.

The size, thickness, shape and distance between the platelets are always based on the dimensions of the tension spring. It is also possible to change the distance to keep the platelets on the inner turns of the tension spring smaller than on the further outward turns. The material they are made of must always be different from the mainspring itself in order to avoid seizing.

The attachment of the plate can be, for. B. by brazing perform which is best operated electrically.

The platelets can also be placed on the outside e of the tension spring in FIG. 2 be applied instead of on the inside d. However, this is less advisable otherwise they can be easily attached to the attachment and to the end c of the tension spring Fig. 2 can fix. A lot would then have to be done in this area of the spring Leaflets are missing. By covering the tension spring with a plate according to FIG. 2 there is then there is always a small distance between the spring coils.

The oil or fat brought between the spring can never be pressed out of it, since the spring coils do not lie tightly on top of one another. Even when the spring is fully wound, there is always a small distance between the turns of the tension spring Fig. 2. The oil or grease can hold itself here very well and thus ensures excellent and permanent lubrication of the support plates.

Oil or grease can therefore never run out of a sliding point tension spring the spring are pressed out and go into the clockwork itself.

Another advantage is that the friction as well as the result The resulting loss of force is largely canceled out, since the spring coils only act the individual points (floating points) work on each other. Since the dots (platelets) consist of a different material than the spring itself, there is never any seizure possible.

As a result of the largely reduced friction losses, a greater and significantly more uniform force development of the tension spring is given. It is therefore possible to use a somewhat weaker spring for the same watch. The resulting larger space in an existing barrel can be used for the support plates. It is therefore possible to retrospectively equip every watch, with or without a barrel, with a sliding point mainspring. The advantages that can be achieved using a sliding point tension spring are summarized as follows: i. no leakage of 01 or grease from the mainspring, therefore no more oiling of clockworks, 2. no seizing of the spring coils, 3. easier winding of the mainspring, 4. greater power development, g. Significantly more even sequence and thus more precise rate of all clocks operated with it, etc.

Claims (1)

PATENT CLAIM: Sliding point tension spring for driving clocks of all kinds, technical devices, etc., characterized in that a small distance between the individual turns of the tension spring is achieved by covering the spring band on one side with support plates, in order to reduce the power losses due to friction between the spring coils to each other and preservation of the lubricant given in the mainspring.