SU1062449A2 - Spherical disc spring - Google Patents

Abstract

SPHERICAL HEATED SPRING on author St. 580383, about the fact that, with - {the goal of providing spatial vibration damping while maintaining the carrying capacity, it is provided with the wife of the boss, installed in the field of springs, is an additional elastic element, which is a set of flexible steel pipes installed parallel to each other, filled with lead, one of which ends; the others are rigidly fixed in the bobpick, while others are designed to fasten the insulated object, and cable sections that are placed along the Archimedean spiral and are respectively fixed on the outer and inner sides of the spring with offset in the step. (P with O) Iv3; i WITH

Description

The invention relates to mechanical engineering, in particular to devices for damping spatial dynamic loads.

According to the main auth. No. 580383, a spherical trailed spring is known, with an ikhetsa circular track at the end, and in its middle part there is a sphere directed inward Cl.

The disadvantages of the well-known spring are low dissipative characteristics when exposed to vibration and shock loads of increased power and spatial protection.

The purpose of the invention is to provide spatial vibration damping while maintaining the carrying capacity.

This goal is achieved by the fact that the spherical spherical spring has a circular path along its end, a. in its middle part there is a sphere directed inward, equipped with a boss installed in the spring sphere, with an additional elastic element representing a set of flexible steel pipes installed parallel to each other, filled with lead, some of which are rigidly fixed in the boss and others are designed for fastening an insulated object, and cable segments G, which are placed along an Archimedean spiral and are respectively fixed on the outer and inner side of the spring with mixing in a step.

FIG. Figure 1 shows a spherical spring spring, a general view; in fig. 2 - section A-A (on an enlarged scale) in FIG. 1; in fig. 3 fastening of cables to the surface 5} m of the spring.

The spherical tarellate spring has a circular track at the end (not shown), and a sphere is made in its spherical part (not shown inwardly, equipped with a boss 1 installed in the spring sphere, an additional elastic element 2, which is a set of steel pipes filled with lead 3 , one ends of which are fixed in a lug (not shown), while others are intended for fastening an insulated object 4, and cable sections 5 and 6, which are placed along an archimedean spiral and are respectively fixed on the outer and inner The lower sides of the spring are offset in pitch.

In addition, the steel tubes of the additional elastic element 2 do not touch each other and there is no friction between them, moreover, it practically does not appear even if the tubes are made in contact, since the ends of the additional elastic element are rigidly fixed, and also the maximum angle of inclination the elastic element to the vertical (under the action of vibration) is relatively small (10 - 15 at the maximum amplitude of oscillation). Thus, on the one hand, each tube has the ability to deform autonomously, regardless of the others, and on the other hand, the total load is evenly distributed between all the tubes, which increases the fatigue strength of the additional elastic element.

The friction between the tubes, which would perform the function of dissipating the energy of dynamic loads, is replaced by plastic flows in the lead material 3, which perform the same function. The placement of cable sections along Archimedean spirals and the arrangement of these spirals with displacement in pitch is necessary for two reasons: on the one hand, for uniform E | distribution of flexural stresses over the entire surface of the disc spring, on the other, for uniform energy dissipation across its surface.

Works spherical spring belt as follows.

The vertical vibration is transmitted through the additional elastic element 2 to the cup spring (when this is the additional elastic element 2 in this direction can be considered almost absolutely rigid, not deformable), which is deformed, radial waves go along its surface, which quickly decay due to interwire friction in the cable sections 5 and 6, which are deformed along the entire length with a cup spring. Thus, cf a6 reduction of the cup spring arranged along archimedean spirals with segments of a steel cable offset in pitch allows efficient dissipation of the energy of dynamic loads, i.e. provide effective vibration isolation in the vertical direction.

In the presence of horizontal (radial) vibration, the additional and elastic element 2 begins to elastically bend, and lead 3 in the cavity of the tubes undergoes plastic (reversible) deformation during deformation and causes effective absorption and energy of horizontal vibration, while the pipes are completely restored to each cycle of oscillation, its shape is completely straightened. In addition, from the addition of another element of the horizon

Claims (1)

SPHERICAL SHELTERED SPRING by author St. No. 580383, which is characterized by the fact that in order to ensure spatial vibration damping of vibrations while maintaining the bearing capacity, it is equipped with a boss installed in the spring sphere, with an additional elastic element, which is a set of flexible steel pipes installed parallel to each other, filled with lead, some ends of which are rigidly fixed in the boss, while others are intended for fastening the insulated object, and by segments of the cable, which are placed along an Archimedean spiral and are respectively fixed on the external and internal It springs from the sides of the offset step. _from Fig 1