RU2661649C1 - Two-stage cylinder-conical vibration isolator - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to the machine building and may be used for the processing equipment vibration isolation, including weaving looms. Two-stage cylinder-conical vibration isolator is made in the form of two-stage frame consisting of in-series connected and identical frames: the upper and lower frames, with elastic-damping element coaxially placed therein, made in the form of cylindrical helical spring, which turns are covered with the vibration damping material, for example, polyurethane. On the upper frame, a vibration-insulated object is fixed, and the upper frame is made in the form of rigid cylindrical shell, and a shell in the form of truncated cone coaxially arranged with the elastic-damping element, coaxially and axially symmetrically attached to the cylindrical shell upper part, made in the form of inverted cup with hard bottom. Truncated cone shell lower base is made open and intended for installation of correspondingly resting on the struts at least two inclined elastic elements, connected to the lower frame base, at that, on the lower frame base a ring with vibration damping material is fixed, for the resilient damping element lower end fixing, which upper end rests against the cylindrical shell rigid bottom through the vibration damping gasket. Correspondingly connected to the lower frame base and resting on the struts inclined elastic elements are made in the form of cylindrical helical springs.

EFFECT: increase in the vibration isolation effectiveness.

1 cl, 3 dwg

Description

The invention relates to mechanical engineering and can be used for vibration isolation of textile machines, including looms.

The closest technical solution to the claimed object is a vibration isolator according to the patent of Russian Federation No. 2578419, F16F 15/06, comprising a housing and an elastic element interacting with the object, the housing is made in the form of two interconnected corners, the upper of the shelves of which are rigidly connected to the pin, entering the hole made in the elastic element, and rests on the elastic element, consisting of two series-connected parts with different stiffness, and on the bar connecting the corners in the lower part of the free shelves, perpendicular to their surface m, based supporting piece of equipment.

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

The technical result is an increase in the effectiveness of vibration isolation.

This is achieved by the fact that in a two-stage cylindrical-conical vibration isolator made in the form of a two-stage frame, consisting of sequentially connected frames: the upper and lower frames, with an elastic-damping element coaxially placed in them, made in the form of a cylindrical helical spring, the turns of which are coated with a vibration-damping material, for example polyurethane while a vibroinsulated object is fixed on the upper frame, and the upper frame is made in the form of a coaxially located with an elastic damping element a rigid cylindrical shell and a shell in the form of a truncated cone, coaxially and axisymmetrically attached to the upper part of the cylindrical shell, made in the form of an inverted glass with a rigid bottom, the lower base of the shell of the truncated cone is made open and designed to install at least two inclined elastic elements based on jaws, respectively connected to the base of the lower frame, while on the base of the lower frame is fixed a ring with vibration damping material for fixation The lower end of the elastic-damping element, the upper end of which abuts through the vibration-damping gasket in the rigid bottom of the cylindrical shell, while the inclined elastic elements based on the jibs, respectively connected to the base of the lower frame, are made in the form of coil springs.

In FIG. 1 shows a frontal section of a two-stage cylindrical-conical vibration isolator; FIG. 2 is an embodiment of an elastic damping element 8, in FIG. 3 - embodiment of the inclined elastic elements 5 and 6, based on the jib, respectively 2 and 3 connected to the base 1 of the lower frame.

The two-stage cylindrical-conical vibration isolator is made in the form of a two-stage frame, consisting of sequentially connected frames: the upper and lower frames, with an elastic damping element 8 coaxially placed in them, made in the form of a cylindrical helical spring, the turns of which are coated with a vibration-damping material, for example polyurethane. A vibration-insulated object is fixed on the upper frame (not shown in the drawing).

The upper frame is made in the form of a rigid cylindrical shell 4 coaxially located with an elastic damping element 8 and a shell 7 in the form of a truncated cone, coaxially and axisymmetrically attached to the upper part of the cylindrical shell 4, made in the form of an inverted glass with a rigid bottom.

The lower base of the shell 7 of the truncated cone is made open and designed to install at least two inclined elastic elements 5 and 6, based on the jibs, respectively 2 and 3 connected to the base 1 of the lower frame. On the base 1 of the lower frame, a ring with vibration-damping material 10 is fixed to fix the lower end of the elastic-damping element 8, the upper end of which abuts through the vibration-damping gasket 9 into the rigid bottom of the cylindrical shell 4.

In this case, the inclined elastic elements 5 and 6, based on the jibs, respectively 2 and 3 connected to the base 1 of the lower frame, are made in the form of coil springs.

A two-stage cylindrical vibration isolator operates as follows.

With vibrations of a vibration-insulated object mounted on the upper frame of a two-stage frame, spatial vibration protection of the base 1 and protection of the object from vibration and shock are provided. In this case, the inclined elastic elements 5 and 6 of the upper frame simultaneously perform the functions of vibration-isolating elements and hinge-type elements capable of tracking within the permissible limits the angular movements of the vibration-insulated object.

The implementation of the elastic-damping element 8 of a two-stage frame in the form of a cylindrical coil spring, the turns of which are coated with vibration damping material, allows for additional damping of the vibration isolation system as a whole.

In FIG. 2 shows an embodiment of an elastic damping element 8, made in the form of a damper, comprising a housing made in the form of a cylinder 11 with a bottom 12, in which a piston 13 is located, made in the form of a cup with the upper 14 and lower 15 beads parallel to each other and coaxial to the housing and a groove 16, which are located relative to the inner surface of the housing with a gap, and between the shoulders, in the groove 16 there is a friction material, for example metal chips, plastic or metal balls, i.e. selectable depending on the required coefficient of friction. A spring 19 abuts against the lower surface of the piston, located between the piston 13 and the bottom 12 of the damper body, the cavity 18 between the piston and the bottom of the body in which the spring 19 is located, is filled with friction material with a higher coefficient of friction, for example, in the form of crumbs made from vibration damping material.

The upper surface of the upper flange 14 of the piston 13 abuts against an elastic ring 20 connected to a retaining ring fixed in a groove of the inner surface of the cylinder 11, which is designed to fix the piston 13 in the damper body. A platform 17 is fixed on the piston 13. As a friction material with a higher coefficient of friction, located in the cavity 18 between the piston 13 and the bottom 12 of the housing in which the spring 19 is located, sand, polyurethane balls, mesh elements, mesh density are used, for example structure is in the optimal range of 1.2 g / cm ³ ... 2.0 g / cm ³ , and the wire material of the elastic mesh elements is steel grade EI-708, and its diameter is in the optimal range of 0.09 mm ... 0, 15 mm

It is possible that a sintered friction material based on copper containing zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon is used as friction material located in the groove 16 between the shoulders 14 and 15 of the piston 13 the following ratio of components, wt. %: zinc 6.0 ÷ 8.0; iron 0.1 ÷ 0.2; lead 2.0 ÷ 4.0; graphite 3.0 ÷ 7.0; vermiculite 8.0 ÷ 12.0; chrome 4.0 ÷ 6.0; antimony 0.05 ÷ 0.1; silicon 2.0 ÷ 3.0; copper is the rest.

The dry friction damper operates as follows.

The bottom 12 of the housing, in which the spring-loaded piston 13 is located, is mounted on a base that must be protected from an oscillating object.

When the platform 17 is oscillating, spatial vibration protection of the base and its protection against impacts are provided.

The dry friction damper contributes to the expansion of the vibration damping frequency range due to the combined damping and increases the vibration protection efficiency at resonance due to the friction material located between the shoulders 14 and 15 of the piston, as well as due to the mesh elements located in the cavity 18 between the piston and the bottom 2 of the housing in which the spring 19 is located.

It is possible that the spring 19, located between the piston and the bottom 12 of the housing, is made in the form of a conical spring, the turns of which are covered with vibration damping material, for example polyurethane.

In FIG. 3 shows an embodiment of the inclined elastic elements 5 and 6, based on the jib 2 and 3, respectively, connected to the base 1 of the lower frame, and made in the form of a vibration isolator from elastomer.

The vibration isolator comprises a housing made in the form of support elements 26 containing washers, bolts and nuts located coaxially and opposite to the elastic element in its upper and lower parts, made in the form of an elastomer sheath, consisting of flat mounting surfaces 21 and 25, on which are fixed supporting elements, as well as a cylindrical surface 23 located in a central perpendicular section relative to the axes of the supporting elements, and conical surfaces 22 and 23 located between the mounting surfaces 21 and 25, and of cylindrical surface 23, and associated in a single shell.

Vibration isolator works as follows.

With vibrations of a vibration-insulated object mounted on the mounting surfaces 21 and 25 through the supporting elements, the shell perceives vertical loads, thereby weakening the dynamic effect on the floors of buildings or on board an aircraft or a mobile vehicle. Horizontal vibrations are damped due to the unrestricted location of the elastic element, which gives it a certain degree of freedom of vibrations in the horizontal plane.

Claims (1)

A two-stage cylindrical-conical vibration isolator made in the form of a two-stage frame, consisting of series-connected frames: the upper and lower frames, with an elastic damping element coaxially placed in them, made in the form of a coil spring, the turns of which are coated with a vibration-damping material, for example, polyurethane, or an elastic-damping element in the form of a damper containing the housing and the piston located therein, the housing is made in the form of a cylinder with a bottom in which the piston is located, made in the form of a cup with upper and lower flanges parallel to each other and coaxial to the housing, which are located relative to the inner surface of the housing with a gap, and friction material located between the flanges, and a spring located between the piston and the bottom of the housing abuts against the lower surface of the piston, and the cavity between the piston and the bottom of the housing in which the spring is located is filled with friction material with a higher coefficient of friction, and the upper surface of the upper shoulder of the piston abuts against the elastic a ring connected to a locking element, made, for example, in the form of a locking ring fixed in the groove of the inner surface of the cylinder of the housing, while the locking element is in contact with the upper surface of the upper shoulder of the piston through the elastic ring, holding it in its original state, as a friction material located between the shoulders of the piston, sintered friction material based on copper is used, containing zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon, in the following ratio , wt. %: zinc 6.0 ÷ 8.0; iron 0.1 ÷ 0.2; lead 2.0 ÷ 4.0; graphite 3.0 ÷ 7.0; vermiculite 8.0 ÷ 12.0; chrome 4.0 ÷ 6.0; antimony 0.05 ÷ 0.1; silicon 2.0 ÷ 3.0; copper - the rest, and the spring located between the piston and the bottom of the housing is made in the form of a conical spring, the turns of which are covered with a vibration-damping material, for example polyurethane, while a vibroinsulated object is fixed on the upper frame, and the upper frame is made in the form of a rigid rigidly aligned with the elastic-damping element a cylindrical shell and a shell in the form of a truncated cone, coaxially and axisymmetrically attached to the upper part of the cylindrical shell, made in the form of an inverted glass with rigid m bottom, characterized in that the lower base of the shell of the truncated cone is made open and intended for installation of at least two inclined elastic elements resting on the jibs, respectively connected to the base of the lower frame, while a ring with vibration-damping material is fixed on the base of the lower frame for fixing the lower end of the elastic-damping element, the upper end of which abuts through the vibration-damping gasket in the rigid bottom of the cylindrical shell, while inclined elastically the elements based on the jibs, respectively connected to the base of the lower frame, are made in the form of coil springs, or the inclined elastic elements connecting the peripheral parts of the spherical shells are made in the form of a vibration isolator from an elastomer containing a housing, an elastic element from an elastomer, the housing is made in the form supporting elements containing washers, bolts and nuts located coaxially and opposite to the elastic element in its upper and lower parts, and made in the form of a shell of elastomer, consisting of pl Sgiach mounting surfaces on which the support elements are fixed, and the cylindrical surface located in the central section perpendicular axes relative to the support members and conical surfaces located between the mounting surfaces and the cylindrical surface, and associated in a single shell.

Images