DE873333C - Multi-part can friction spring - Google Patents

Description

The invention relates to a multi-part Dosenrelbungsfoder with a slotted inner sleeve, on each of the ends of which one is directed transversely to the spring axis Bottom provided pressure cap is put on. The invention consists in the conical outer wall of each pressure cap to apply a slotted outer spring, such that between the inner sleeve and the cap on the one hand and between the cap and the outer spring on the other hand, two conical friction surfaces in the same direction are formed. Through this becomes a considerable extension of the spring travel without significantly increasing the overall height -achieved. The loading pressure is not only caused by, the inner spring, but also taken up by the two outer springs; whereby it is possible through each Different angles of inclination of the conical friction or guide surfaces special and to achieve novel effects. Is z. B. the angle of inclination on the guide surface of the outer ring is flatter than that of the inner sleeve, this increases the force absorption on the outer ring, while the work of friction is reduced accordingly. It kicks a double spring action with a progressively increasing force absorption, whereby the characteristic of the spring diagram runs like a curve. On the other hand, is the angle of inclination steeper on the outer ring than that on the inner ring, the other way round the force absorption is lower, . But the work of friction is greater, with the curve-like rise in the characteristic curve remaining. A special effect arises when the guide surfaces of the two outer rings have a different angle of inclination. In the event of a load, the outer ring is exposed to a shorter load time with the flatter guide surface, which at Relief also quickly initiates the fall in the spring.

The new arrangement of the spring allows a larger number of them assemble axially and accommodate in a common housing, the Spring effect through the 'desired or required difference in the angle of inclination can be adapted to any load on the guide surfaces: In the The drawing shows two exemplary embodiments of the subject matter of the invention, namely Fig. i shows the multi-part annular spring in a side view; Fig. 2 a Longitudinal section, FIG. 3 half of the spring housed in a housing in longitudinal section.

i is the cylindrical inner spring with a longitudinal slot a, whose tapered ends have a guide surface 3 and 4 for the appropriately designed Form the inner wall of a pressure cap 5 and 6 respectively. These pressure caps are on the dem Floor adjacent part of its outer surface, each with a conical guide surface 7 or 8 provided, on each of which a resilient, provided with a slot 9 or io Outer ring ii or 12 leads.

This creates a can friction spring with a slight increase in the overall height created by their multiple spring action -particularly to accommodate high Prints is suitable. By changing the angle of inclination of their guide surfaces 3, q., 7, 8 can, as mentioned in the introduction, have special effects with regard to Force absorption, friction work and relaxation of the spring can be achieved.

The can friction spring designed for a high end force must be a have a high spring constant with a short spring deflection. To get a long one for the same final force To obtain spring travel, as can be seen from Fig. 3, in a two-part, telescopic displaceable housing n, 5, 16 a plurality of multi-part can friction springs arranged axially one behind the other, with a common resilient between two springs Outer ring 17 is arranged with a guide surface provided on each end. -

Claims (3)

PATENT CLAIMS: i. Multi-part can friction spring with slotted Inner sleeve, on each of the ends of which one is provided with a base directed transversely to the spring axis Pressure cap is placed, characterized in that the conical shape A slotted outer spring (11, 12) is applied to the outer wall of each pressure cap (5, 6) is such that between. Inner sleeve (i) and cap # (5 or 6) on the one hand as well between the cap and the outer spring on the other hand two rectified 'conical friction surfaces (3, 7 or 4., 8) are formed. 2. Spring according to claim 1, characterized in that that the conical friction surfaces (3, q., 7, 8) optionally with different angles of inclination are provided. 3. Spring according to claim i and ä, characterized in that a A plurality of five-part springs arranged axially one behind the other in a common housing consisting of two parts (i5, 16) which telescope into one another is housed. Referenced publications: German Patent No. 66457o.