SU1739129A1 - Helical spring - Google Patents

Abstract

Usage: mechanical engineering, namely, helical coil springs of compression, Summary of the invention: in a helical coil spring 1, the supporting elements are made in the form of spacers 5 mounted on each of the support coils 3, the surface of the spacer 5 facing the working coil 2 is made with a lifting angle equal to the elevation angle of the working turns 2 in a compressed state before touching. In the spacer 5, a groove is made corresponding to the shape of the support coil 3. When the spring 1 is compressed before the coils 2 come into contact, the outermost working coils 2 are adjacent to the surface of the spacers 5, which ensures uniform loading of the workers and the support coils. . cl

Description

PU2.1.

The invention relates to mechanical engineering, in particular, to elastic elements in the form of helical compression springs.

The known coil is a coil spring, containing working and supporting coils, the first of which are wound in a spiral with a given angle of lift, and the latter are bent to a plane.

This spring is easy to manufacture, since it does not require the protrusion of the support coils, followed by the manufacture of a spiral when the ends of the workpiece are flattened.

The disadvantage of this spring is that, when it is compressed, the outermost working coil adjacent to the support coils in contact with the end of the support coil and works on fracture, making the spring inoperable, especially under alternating loads.

Closest to the claimed screw spring is a coil spring containing working and supporting turns, the latter of which are located perpendicular to the axis of the spring and connected to supporting elements made in the form of protrusions that are equally spaced from each other in diameter. This contributes to the strength of the spring.

However, the known spring has insufficient durability due to the fact that the protrusions on the support coils create a point contact of the support coil with the loading surface, and this increases the eccentricity of the spring and the uneven loading of the workers and the support coils.

The aim of the invention is to increase the durability of the spring by uniformly loading the working and supporting turns.

The goal is achieved by the fact that in a helical coil spring containing working and supporting coils, the latter of which are located perpendicular to the spring axis and connected to the supporting elements, the supporting elements are designed as spacers covering the supporting coils, the surface of which is angled elevation, chosen equal to the elevation angle of the working turns in a compressed state before touching. In the spacer is made a groove corresponding to the shape of the reference coil.

FIG. Figure 1 shows a coil spring, general view; Fig. 2 shows a helical coil spring compressed to the contact of coils; in fig. 3 - spacer design; in fig. 4 is a section A-A in FIG. one.

. The spring 1 contains wound coils 2 wound at a certain angle of elevation of the spiral, and the support coils 3, bent on

the plane perpendicular to the longitudinal axis 4 of the spring 1.

The spacers 5 cover the support coils 3, the surface of the spacer 5 facing the working turn being made with an angle

lifting the aPS spiral equal to the lifting angle of a conventional coil spring compressed before contact of the coils, having the same dimensions as proposed. In the spacer 5 is made a groove 6, corresponding to the shape of the reference coil.

The spring works as follows. When the ends of the spring 1 are compressed by a statistical load, the coils of the spring approach each other, but due to the spacer 5 between

the supporting 3 and working 2 turns remain a gap, as in a conventional spring.

Spring 1 under static load can work without the impact of coils on the application of dynamic loads,

When the spring 1 is compressed before the turns come into contact, the extreme working turns 2 adjoin the surface 7 of the spacer 5 in the same way as the working turns to each other.

Spring 1 has a maintainability, which means the possibility of replacing a spacer 5 that has failed.

Claims (2)

1. A helical coil spring containing working and supporting coils, the latter of which are located perpendicular to the spring axis and connected to the supporting elements, so that, in order to increase durability by uniformly loading the working and supporting coils, the supporting elements are in the form covering the supporting coils of the spacers, the surface facing the working coil of which is made with a lifting angle chosen equal to the lifting angle of the working coils in a compressed condition before the contact. 2. A spring according to Claim 1, characterized in that a groove corresponding to the shape of the support coil is made in the protrusion. 5 5 (Rig.2 Fig, 1