DE429894C - feather - Google Patents

Description

Feather. The subject of the invention is a spring, which with the same material expenditure has a greater load capacity than the known disc springs.

The drawing shows three exemplary embodiments of the invention Illustrated spring columns in axial section.

At. the embodiment according to Fig. i consists of each Fedezelement from a circular ring A with a curved cross-section, the edges of which a1 and a2 in one cherish a plane perpendicular to the spring axis. The spring elements A are in the. Plate springs usually assembled into a spring column. With the load on the spring reaction forces R occur at the edges a1 and a2, which cross the individual spring cross-sections Try to bend flat and work on lever arms x (Fig. i). There - this lever army compared to the length of the corresponding lever arms for disc springs where the lever arms dike the radius of the spring are only a small one length own, and furthermore, with the same spring deflection and the same wall thickness, the load-bearing forces these springs behave approximately the other way around as the squares of the mentioned lever arms, the spring described has a considerably larger one with the same material expenditure Load-bearing capacity than an ordinary disc spring.

In the embodiment according to Fig.2, the wall thickness increases each Spring element B from the center to the edges of its cross section in itself is known to gradually decrease. This makes it possible to reduce the tension of the loaded Distribute feathers approximately evenly over the cross-section.

The invention also allows coil springs to be produced that possess the properties of disc springs. Such a spring is shown in Fig.3 shown. To produce the spring, a sheet metal strip C is arched Cross-sectioned in upright position wound into a helical spring and then into it a second helical spring screwed into it, consisting of a strip D of the same, but a mirror image of the generating cross-section of the first spring lying cross-section is wrapped. The cross-sections of the two individual springs then touch theirs Edges cl, c2 and dl, d2. If the two individual springs are wound in such a way that the turns of the formed by screwing the individual springs together. Coil spring Do not touch in the unloaded state, you get a spring that can compress opposed at first a slight, but then rapidly growing, resistance.

The springs described allow it, finally, in which the To arrange the cavity surrounding the spring axis, a second spring or other components. In this way, springs with a very high load-bearing capacity can be accommodated in a small space.

Claims (3)

PATENT CLAIMS; i. Spring, characterized in that it consists of a The ring has a curved cross-section, the edges of which are perpendicular to the spring axis Lie level. 2. Spring according to claim i, characterized in that the wall thickness of the ring gradually decreases from the center to the edges of its cross-section. 3. Helical spring, characterized in that it consists of two springs (C, D) screwed into one another, which have a curved cross-section and which touch their edges.