RU113320U1 - ELASTIC SUSPENSION FOR VIBROSTEND - Google Patents

Abstract

An elastic suspension for a shaker, containing at least one flat elastic element with concentrically located external and internal belts for fastening and at least one damping layer, and in the elastic element there are beam elements connecting the internal and external belts, characterized in that that the beam elements are made with the possibility of realizing in them mainly bending deformations due to the provision of the relative rotational movement of the said chords, while the beam elements are arranged evenly and symmetrically relative to the center of the chords.

Description

The utility model relates to mechanical engineering, instrumentation and can be used, for example, as a suspension bracket on a vibrostand table on metal coil multilayer springs for checking and calibrating vibration displacement sensors with eddy current transducers and vibration velocity sensors under conditions of their operation and manufacturing.

There is a known suspension scheme of the table of the vibration stand of the calibrator of vibration sensors KDV-1 IKLZH.442269.001 (it is a mass-produced device entered in the State Register for No. 27479-04, see http://www.volgogas.sarov.ru), consisting of two elastic suspensions, interconnected by means of hairpins. Each elastic suspension contains as a basis a flat elastic element in the form of a round membrane with a central hole made of sheet hetinax with concentrically located external and internal belts for fastening (see figure 1). The elastic element is made of beam elements formed by slots located concentrically to the belts. The elastic element is covered with a damping layer made of polyvinyl chloride tape with an adhesive layer with a through central hole. The disadvantage of this solution is the relatively high stiffness of the suspension when moving the vibrating table in the working direction, which is due to the fact that the beam elements in this configuration work not only in bending, but also in tension, so that significant efforts must be applied to ensure the given movements of the vibrating table.

The technical result achieved by the implementation of the inventive utility model is to reduce the effort to move the vibrating table due to the implementation in the elastic suspension predominantly bending deformations.

The specified technical result is achieved in that in an elastic suspension containing at least one flat elastic element with concentrically arranged external and internal belts for fastening and at least one damping layer, moreover, beam elements connecting the inner and the outer belt, new is that the beam elements are made with the possibility of realization in them mainly of bending deformations by providing relative rotational movement of these belts, etc. and this beam elements are uniformly and symmetrically with respect to the center of the belts.

The claimed implementation and location of the beam elements connecting the inner and outer belts means that during the working deformation of the elastic suspension, mutual rotational movement of the belts relative to each other is ensured, due to which tensile deformations are significantly reduced in the beam elements and mainly bending deformations are realized. As a result, the efforts spent on deformation of the suspension, and, as a consequence, on the movement of the vibrating table, are reduced. The most acceptable for the implementation of the described state of the elastic suspension is the implementation of the beam elements "spirally" oriented. At the same time, due to the selection of specific configurations of beam elements, it is possible to reduce the level of spurious resonances and the values of transverse vibration.

Figure 1 shows the elastic element of the elastic suspension of the prototype. Figure 2 shows an elastic suspension with one elastic element and one damping element, side view. Figure 3, 4, 5 show embodiments of the elastic element of the inventive elastic suspension.

The elastic suspension (figure 2) is made on the basis of a membrane 1 (flat elastic element) of beryllium bronze and a damping layer 2 of foam rubber with an adhesive layer. The membrane 1 (Figs. 3, 4, 5) has two concentrically arranged belts for fastening: the inner 3 and outer 4, interconnected by means of several beam elements 5, which are arranged uniformly (with the same pitch) and symmetrically with respect to the center of these belts and are made , in fact, spirally oriented, so that when the vibrating stand is working, bending deformations occur mainly in them. In the membrane 1, a through central hole 6 is made for installation on a vibrating table.

The number of elastic elements, damping layers, beam elements and their configuration are determined by the need to achieve a minimum level of spurious resonances and values of transverse vibration in accordance with the requirements for a specific design of the vibrating stand. In this case, the beam elements can be formed by making slits in the elastic element.

The work of the elastic suspension as part of the vibrating stand is as follows. When moving the vibrating table in the working direction, the beam elements 5 experience predominantly bending deformations, which allows less effort to move the vibrating table and, as a result, to obtain higher energy characteristics of the vibrating table drive. The implementation of the membrane 1 of beryllium bronze and the damping layer 2 of foam rubber with an adhesive layer allows to achieve stable mechanical characteristics and increase the durability of the elastic suspension.

In order to confirm the feasibility of the claimed object and to achieve a technical result, a computer simulation of the behavior of more than one hundred variants of the samples of the elastic suspension of the vibration bench was carried out. After an analysis of the data obtained, an elastic suspension for a vibrostand table with an elastic element in the form of a leaf membrane with five beam elements on a metal base was developed and manufactured (Fig. 4). Tests of the prototype showed the feasibility of the claimed technical solution and its practical value.

Claims (1)

An elastic suspension for a vibrating stand, comprising at least one flat elastic element with concentrically arranged outer and inner belts for fastening and at least one damping layer, moreover, beam elements connecting the inner and outer belts are made in the elastic element, characterized in that the beam elements are made with the possibility of realizing in them mainly bending deformations by providing relative rotational movement of these belts, while the beam elements are located uniformly and symmetrically relative to the center zone.