RU2583406C1 - Spring vibration isolator with hinges for angular displacements - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: bumper consists of three screw cylindrical springs, which are fixed to upper platform for installation of vibration isolated object and to lower base. In central part platform has threaded bore, axially to which spherical hinge is located. Conical springs rest on parallel surfaces of hinge. In upper part spherical hinge is fixed by means of screw with buffer at end to upper platform, and in bottom is by means of screw to base. Base is made in form of sleeve with support washer and rests on bottom of vibration isolator shell. To fix limit values of angular movements of upper platform there are three “dry friction” dampers. Base and helical taper spring surfaces, as well as inner surface of barrel are coated with frictional material.

EFFECT: improved efficiency in resonant mode of vibration isolation.

1 cl, 1 dwg

Description

The invention relates to means for protecting a human operator from the harmful effects of vibration and can be used in various kinds of machines and mechanisms, in particular in the textile and light industry, agriculture, instrumentation, and transport engineering.

The closest technical solution to the claimed object is a spring type vibration isolator according to RF patent No. 2269700 (prototype) containing a base, a strut, spring elastic elements and support nodes, and a rod with a threaded end, rigidly fixed perpendicular to the base, on which a stand is installed that fixes the spring-type elastic element by means of beveled support elements and a cover, and the angle of inclination of the support elements lies in the range of 10 ... 30 °.

A disadvantage of the known device is the relatively low efficiency at resonance due to the absence of vibration damping.

The technical result is an increase in the efficiency of vibration isolation in a resonant mode.

This is achieved by the fact that in a spring vibration isolator with hinges of angular displacements containing a frame with elastic elements, the frame is made in the form of an upper platform for installing a vibration-insulated object by means of at least three elastic elements, for example, in the form of a coil spring that are attached to the top the platform of the frame of the vibration isolator and to the base of the vibration-insulated object, in the central part of the platform there is a threaded hole, axisymmetrically to which a spherical hinge is located, made d in the form of a sphere, on which parallel conical springs rest, parallel surfaces being spaced from the diametrical plane of the sphere by the same distance necessary for fixing it in elastic elements, for example, in the form of conical springs, while in the upper part the spherical hinge is fastened with a screw with with a buffer at the end to the upper platform for installing a vibration-insulated object, and at the bottom - with a screw to the base, made in the form of a sleeve with a supporting washer, and resting on the bottom of the glass a vibration isolator, moreover, the screw heads are located in the inner cavity of the sphere with the ability to track angular vibrations of the upper platform with the vibration-insulated object, and to fix the limit values of the angular displacements of the upper platform with the vibration-insulated object, pivotally mounted between the lower part of the upper platform and the upper end plane of the glass shell at least three dampers, such as dry friction.

The drawing shows a frontal section of a spring vibration isolator.

The spring-loaded vibration isolator with hinges of angular displacements comprises a frame in the form of an upper platform 7 for installing a vibration-insulated object 8 by means of at least three elastic elements 10, for example, in the form of a coil spring, which are attached to the upper platform 7 of the vibration isolator frame and to the base of the vibration-insulated object 8 .

A threaded hole 11 is made in the central part of the platform 7, an axisymmetric spherical hinge made in the form of a sphere 18 is located, conical springs 14 and 15 rest on parallel surfaces 16 and 17, and parallel surfaces 16 and 17 are equally spaced from the diametrical plane of the sphere necessary to fix it in the elastic elements 14 and 15, for example in the form of conical springs.

In the upper part, the spherical hinge is fastened by means of a screw 6 with a buffer 5 at the end to the upper platform 7 for installing a vibration-insulated object 8, and in the lower part - by means of a screw 9 to the base 4, made in the form of a sleeve with a supporting washer 3 and resting on the bottom 1 of the glass 2 vibration isolator frame. The heads 12 and 13 of the screws 6 and 9 are located in the inner cavity of the sphere 18 with the ability to track the angular vibrations of the upper platform 7 with a vibration-insulated object 8.

To fix the limit values of the angular displacements of the upper platform 7 with the vibration-insulated object 8, at least three dampers 19, for example, “dry friction”, are pivotally fixed between the lower part of the upper platform 7 and the upper end plane of the glass 2 of the vibration isolator frame.

It is possible that the surfaces of the base 4, made in the form of a sleeve, of a part of the helical conical spring 15 located in the gap between the inner surface of the cup 2 and the outer surface of the base 4, as well as the inner surface of the cup 2 in contact with the helical conical spring 15, are coated with a friction material .

Spring vibration isolator with joints of angular displacements works as follows.

When a static load is applied to the upper platform 7 to install a vibration-insulated object 8, it falls down, compressing the elastic elements 10, which are attached to the upper platform 7 of the vibration isolator frame and to the base of the vibration-insulated object 8.

Nonlinear damping in the system is carried out due to the presence of a stroke limiter of the platform 7 in the form of a buffer 5 at the free end of the screw 6 of the spherical hinge.

When a dynamic load is applied from the side of the object 8, for example, operating equipment, the vibration is damped by conical springs 14 and 15, and the parallel surfaces 16 and 17 are spaced from the diametrical plane of the sphere 18 by the same distance necessary for fixing it in the elastic elements 14 and 15, for example, in the form of conical springs, the stiffness of which is designed for the operation of the complex system "overlap-elastic elements-object" in the resonant mode, while providing spatial vibration protection and shock protection due to in. The damping of the vibration-insulated object 8 at high frequencies increases due to dry friction, which provides the necessary damping in the system at resonance.

A spherical hinge, which is fastened by means of a screw 6 with a buffer 5 at the end to the upper platform 7 for mounting a vibration-proof object 8, and in the lower one through a screw 9 to the base 4, made in the form of a sleeve with supporting washer 3, and leaning on the bottom of 1 glass 2 of the vibration isolator frame.

To fix the limit values of the angular displacements of the upper platform 7 with the vibration-insulated object 8, at least three dampers 19, for example, “dry friction”, are pivotally fixed between the lower part of the upper platform 7 and the upper end plane of the glass 2 of the vibration isolator frame.

The proposed technical solution is an effective vibration-protective tool that can be used to protect both equipment and the operator, with ease of maintenance and reliability of the structure in operation.

Claims (1)

Spring vibration isolator with hinges of angular displacements, comprising a frame, elastic elements, an upper platform for mounting a vibroinsulated object and a lower base for attaching elastic elements, the frame is made in the form of an upper platform for installing a vibroinsulated object using at least three elastic elements, for example, in the form helical coil springs that are attached to the upper platform of the vibration isolator frame and to the base of the vibration-insulated object, threads are made in the central part of the platform a hole, axisymmetrically to which a spherical hinge is arranged, made in the form of a sphere, on which parallel conical springs rest, parallel surfaces being spaced from the diametrical plane of the sphere by the same distance necessary to fix it in elastic elements, for example, in the form of conical springs, in the upper part, the spherical hinge is attached by means of a screw with a buffer at the end to the upper platform for installing a vibration-insulated object, and in the lower part, by means of a screw to the base, in made in the form of a sleeve with a supporting washer, and resting on the bottom of the glass of the frame of the vibration isolator, the screw heads being located in the inner cavity of the sphere with the ability to track the angular vibrations of the upper platform with a vibroinsulated object, and hinged between the lower part of the upper platform and the upper end plane of the glass of the vibration absorber frame, at least three dampers, for example, “dry” of friction », she characterized in that the surface of the base, formed as a sleeve part conical helical spring situated in the gap between the inner surface of the cup and the outer surface of the base, and the inner surface of the glass, contact with the conical helical spring covered with friction material.

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