RU2655244C1 - Spatial cylindroconical vibration isolator - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: vibration isolator is made in the form of in series connected upper and lower frames. Resilient damping element in the form of a cylindrical helical spring is coaxially placed in each frame, the coils of which are covered with polyurethane. Upper frame consists of rigid cylindrical shell in the form of an inverted cup, to which top a shell in the form of truncated cone is attached. Shell lower base in the form of truncated cone is made open for installation of two inclined elastic elements, which rest against the jigs, connected to the lower frame base. On the lower frame base, ring with vibration damping material is fixed. Resilient damping element lower end is fixed on the ring, and the upper end is resting against the cylindrical shell rigid bottom through the vibration damping gasket. Inclined resilient elements are made in the form of helical cylindrical springs.

EFFECT: higher efficiency of vibration isolation is achieved.

1 cl, 1 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 spatial cylindrical-conical vibration isolator made in the form of a two-stage carcass consisting of serially connected carcasses: the upper and lower carcasses, 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 vibroisolated object is fixed on the upper frame, and the upper frame is made in the form of a coaxially arranged with an elastic damping element m of 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 supported on the jibs, 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 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 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.

The drawing shows a frontal section of a spatial cylindrical-conical vibration isolator.

The spatial 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 jib 2 and 3, respectively, 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 2 and 3, respectively, connected to the base 1 of the lower frame, are made in the form of coil springs.

The base 1 of the lower frame is additionally installed through vertical elastic elements 12 and 13 and through vibration damping pads 14 and 15 on an additional platform 11 designed to absorb vibration shock loads, for example, when landing a landing cargo. The vertical elastic elements 12 and 13 are made with stiffness greater than the stiffness of the inclined elastic elements 5 and 6, for example of a vibration damping elastomer of the "polyurethane" type.

Spatial cylindrical vibration isolator works 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 the angular movements of the vibration-insulated object within acceptable limits.

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.

The proposed technical solution is an effective vibration-protective means, which can be used as a spatial vibration isolation system in many industries.

Claims (2)

1. A spatial cylinder-conical vibration isolator made in the form of a two-stage frame, consisting of a series of 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 being fixed on the upper frame a vibration-insulated object, and the upper frame is made in the form of a rigid cylindrical shell coaxially located with an elasto-damping element and 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, characterized in that the lower base of the shell in the form of a truncated cone is made open and designed to install at least two inclined elastic elements, based on the jibs, 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 fixing neither elastic-damping element has an end, which abuts the upper end through the vibration-damping pad in the bottom of the rigid cylindrical shell, wherein the oblique elastic elements, based on the jib, respectively connected to the base of the lower frame are formed as coil springs. 2. The spatial cylindrical-conical vibration isolator according to claim 1, characterized in that the base of the lower frame is additionally installed through vertical elastic elements to an additional platform designed to absorb vibration shock loads, which are made with stiffness, greater rigidity of inclined elastic elements, for example, of a vibration damping elastomer such as polyurethane .

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