SU1733759A1 - Flexible member - Google Patents

Abstract

Use: for vibroisolation of various technological machines of general purpose and in special equipment. Summary of the invention: in a hollow elastic element with stiffening ribs evenly spaced relative to the longitudinal axis, having an opening, the height of each edge is made decreasing from its middle part to opposite ends, which increases reliability and durability. 1 h, para. f-ly, 3 silt

Description

The invention relates to general engineering and can be used for vibration isolation of various general-purpose technological machines and in special vibration technology.

The known design of the elastic support, the main component of which is a hollow rubber element having two coaxial holes, placed between the cups with guide sleeves (1) The disadvantage of this support is the low shear stiffness of the elastic element, which negatively affects its stability and causes the complex, stress-strain state of the material from which this element is made.

The known structure of the device contains an elastic element with a cavity and stiffening ribs, made on the surface of this cavity, symmetrically with its longitudinal axis, equidistant from each other (2)

At the same time, during operation of various vibration process equipment, the maximum performance of which is determined by the maximum of the vibration parameters, it was found that when using these supports, the effectiveness of the latter is also low due to their low stability. In this case, to ensure the stability of the vibration systems, elastic elements with greater shear stiffness are used and, as a rule, with greater compressive stiffness (due to an increase in the side wall thickness of the element itself), which dramatically increases the dynamics of the impact of equipment on the base, foundation or overlap, on which it is mounted, and thus sharply reduces the durability of vibration-proof supports with rubber elastic elements

The aim of the invention is to increase the reliability and durability of the elastic element by stabilizing its strength.

WITH

with

v |

ate about

deformed condition and stability.

This goal is achieved by the fact that in a known elastic element, with stiffening ribs evenly spaced relative to the longitudinal axis and having an opening, the height of each edge is made decreasing from the middle part of the elastic element to opposite ends. In addition, the ribs are located in a helix with an angle to the inclination to its ends, equal to 70-110 °.

FIG. Figure 1 shows an elastic element in with linear edges, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 - elastic element with helical ribs, longitudinal section.

The elastic element comprises a body 1, an internal cavity 2 and stiffening ribs 3, which are made with a variable height relative to the surface of the cavity 2, decreasing from the middle part of the elastic element to opposite ends 1, normal to its longitudinal axis. In order to connect the elastic element with any vibration isolation object and fix it on any supporting surface, for example, the foundation, holes 5 and 6 are made from the end planes 4 in the housing 1. The ribs on the inner surface of the cavity 2 can be along a helix angle of inclination to its ends equal to 70-110 °. The latter can be carried out under the condition when it is necessary to simultaneously ensure the stability of the elastic element with its static, quasistatic or dynamic loading and low values of its vertical stiffness (compressive strength), in comparison with the case when the ribs 3 have a linear shape .

Works elastic element as follows.

When organizing axial loading of the end planes 4 of the elastic element, its side wall, having a complex surface shape, begins to experience compression. As a result, the resilient element begins to deform in the radial direction. The stiffening ribs 3 of variable height provide an equal durable steady state of the entire elastic element.

This stress distribution is due to the fact that in the zone where the side wall is subjected to maximum deformations, the edge adjoins with the greatest height, and in the area of the side wall that undergoes minimal deformation, the edge adjoins with the minimum height. In this case, part of the load energy is expended on the deformation of the side wall and stiffeners, and some on their heating. The dispersion of accumulated heat in this case will also be realized where the height of the ribs is maximum, which also contributes to increasing the durability of the elastic element as a whole. After removing the load, the elastic element returns to its original position due to a part of the energy accumulated during its deformation.

Claims (2)

1. Elastic element with stiffening ribs evenly spaced relative to the longitudinal axis, having an opening that differs in that, in order to increase reliability and durability, the height of each rib is made decreasing from the middle part of the elastic element to opposite ends. 2. An element according to claim 1, characterized in that the stiffening ribs are arranged in a helix with an angle of inclination to its ends equal to 70-110 °. FIG. one Aa FIG. 2 fig.Z