SU894257A1 - Cone spring - Google Patents

Description

(54) CONE SPRING

one

The invention relates to mechanical engineering.

A known spring in the form of a tapered corrugated surface, the corrugations of which in the cross section to them have the shape of an isosceles triangle, and the sides of the corrugations are of the same size in any direction perpendicular to them, and the tops of the corrugations are made as part of a cylindrical surface 1.

The closest to the proposed invention for technical sushiing, and the achieved result is a conical spring, and the corrugations, which in the section perpendicular to them have the shape of an isosceles triangle 2.

A disadvantage of the known springs is that they have a reversible ability at a certain moment of action of the load to drastically change the direction of the resistance forces.

The purpose of the invention is to eliminate the reverse of the resistance forces.

This goal is achieved by the fact that the corrugations are arranged in parallel in two rows in such a way that the protrusions of the corrugations of one row are located against the valleys of the corrugations of the other row and are interconnected by additional corrugations, which form perpendicular to those that form the main corrugations.

FIG. 1 shows a conical spring, a general view; in fig. 2 shows section A-A in FIG. one.

The cone spring is made of rectangular thin-walled steel tape by shtampovki. The formed rectangular band is connected in the form of a cylinder.

10 and is compressed from the ends by the action of internal forces resulting from the formation of corrugations. The spring is provided with a double-sided conical shape due to the expansion of the corrugations in the central part of the spring and compression of the corrugations along the ends due to

IS action of stresses from inclined corrugations. The conical spring contains corrugations 1 and 2, which in the section perpendicular to them have the shape of an isosceles triangle. The corrugations 1 and 2 are installed in parallel in two rows in such a way that the projections 3 of the corrugations I

20 of one row are located against depressions 4 corrugations 2 of the other row and are interconnected by additional corrugations 5, which form perpendicularly forming basic corrugations 1 and 2.

Spring works as follows.

When an external force acts on the conical spring in the vertical plane, the corrugations 1 and 2 deform, while the protrusions 3 of the corrugations 1 and the depressions 4 of the corrugations 2 approach the geometric center of the spring, the vertices 6 descend, the protrusions 7 approach the horizontal plane, and the depressions 8 rise the spring is compressed.

When the spring is compressed, the corrugations 1 move closer to the corrugations 2, thereby eliminating the reverse of the resistance forces.

Claims (2)

1. USSR author's certificate No. 615295, cl. F 16 F 1/08, 1976. 15 2. USSR author's certificate No. 358559, cl. F 16 F 1/08, 1971 (prototype). Aa ftsg.g