SU1465515A1 - Dynamic oscillation damper - Google Patents

Abstract

The invention relates to the field of noise and vibration control and can be used to reduce equipment vibrations. The purpose of the invention is to increase the damping of oscillations and the sensitivity of the adjustment. For this, in a dynamic vibration damper consisting of a supporting structure 1 and associated with it by elastic elements 2 of inertial mass 4, the device for smoothly adjusting the natural vibration frequency of the damper is made in the form of screw pairs consisting of nuts 7 and screws 6 rigidly connected to the cylindrical supports 9, and the damping layer - in the form of two layers 10, 11 of sheet elastic damping material and located between them metal balls 12. 3 Il. with $ (L

Description

The invention relates to the field of combating noise and vibration and can be used to reduce vibration of the equipment.

The purpose of the invention - an increase demp- ³ firovaniya oscillations and regulating sensitivity.

In Fig.) Shows a dynamic vibration damper, longitudinal section, θ res ’; figure 2 is the same, a top view with a cut; in Fig. 3 - view A in Fig. 2 (device for smooth regulation of the natural frequency of the damper), 15

The dynamic vibration damper includes a support structure 1 connected with it by means of elastic elements 2 on fixed: cylindrical supports 3, an inertial mass 4, 20 placed inside a closed cavity 5, a device for smoothly controlling the frequency of natural damper oscillations, consisting of screws 6 and nuts 7 and 8 for fixation of screw 25 pairs, cylindrical supports 9 rigidly connected to screws 6 and a damping layer in the form of two grooves 10 and H of sheet elastic-damping material and metal balls 12 located between them jq. For damping, for example, horizontal vibrations, the interlayers 10 and 11 are attached respectively to the lower surface of the inertial mass 4 and the bottom of the cavity 5. In order that the elastic bonds 2 are not completely unloaded completely during operation, they have an initial deformation exceeding the amplitude of the inertial mass 4. dd independence of the horizontal movements of the inertial mass 4 with a significant amplitude in two mutually perpendicular directions of the nut 7 and 8 are connected to the platform 13 mounted on the body 1.

Preparation for operation of a dynamic vibration damper consists in the selection of vibration damping required for efficient operation, and tuning to a given vibration frequency. Changing the vibration damping within certain limits is carried out by selecting the properties of the elastic damping material, the number of metal balls 12 and their diameters. The adjustment is carried out by translational movement of the cylindrical supports 9 with the help of a screw pair along the axes of the elastic elements 2, which causes a change in their deflections at the point of contact with the stiffening rods 9 of the elastic bond between the inertial mass 4 and the supporting structure 1, and therefore the natural frequency of the damper.

Dynamic damper operates as follows.

The oscillations from the supporting structure I through the elastic elements 2 and the rod 9 are transmitted to the inertial mass 4. When it is, for example, horizontal displacement relative to the supporting structure 1, the metal balls 12 are pressed into the layers 10 and 11 of the elastic-damping material. In this case, part of the deformation energy of the material is dissipated. Elastic-damping material and metal balls 1 2 if necessary, just change. With the fine tuning of the vibration-absorbing building element, the vibrations of the supporting structure 1 will be significantly reduced in a certain frequency range.

The use of a dynamic absorber reduces the level of equipment vibrations, which ensures an improvement in equipment operating conditions, an increase in the overhaul period, as well as compliance with sanitary standards when servicing vibrating objects.

Claims (1)

Formula of invention A dynamic vibration damper, including a supporting structure, an inertial mass installed in it, connected with an elastic element interacting with the supporting structure, and a damping layer, which is characterized in that, with a chain for increasing vibration damping and regulation sensitivity, the inertial mass is set to supporting structure on ball bearings with a damping layer in the form of two layers placed above and below the ball bearings, and the elastic elements are located on the sides of the inertial mass and are connected with it through Twom adjustable feet.