RU2666020C2 - Double vibration isolation system - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to the machine building. Vibration isolation system comprises base, supporting platform and two spring vibration isolators with equifrequential springs located between them. Lower spring flange is fixed at the resilient base, and the upper one is on the supporting plate. Vibration isolated object with variable process mass is fixed at the supporting plate by fastening elements. Platform is connected to support assemblies using the vertical and horizontal levers. Supporting units are fixed to the each vibration isolator support plate using adjusting rods with nuts. Nuts are rigidly fixing the bushings, rigidly connected to the supporting units horizontal levers. Between the rods and bushings bushing elastic-damping elements are placed. Inside the equal-frequency springs the elastic-damping devices are located. Their lower part is fixed on the equal-frequency spring elastic base, and the upper part is fixed on its supporting plate. Elastic base consists of alternating layers of sheet spring steel and layers of the vibration damping materials solid varieties, such as plasticate of “Agat”, “Antivibrite”, “Schwim” types. Below each elastic base mounted on the elastomeric rubber gaskets mesh dampers are placed.EFFECT: enabling increase in the vibration isolation efficiency.1 cl, 2 dwg

Description

The invention relates to the field of mechanical engineering, namely to equal-frequency vibration isolators, used to significantly reduce various equipment arising from the operation, mainly with variable mass, dynamic loads.

The closest technical solution to the claimed object is an equal frequency spring vibration isolator according to.with. USSR No. 299681 (prototype), containing a base, a support plate, an elastic element located between them, made in the form of a cylindrical spring, which has a variable pitch, ensuring the constancy of the natural frequency at any load from a given range.

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

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

This is achieved by the fact that in a dual vibration-isolating system containing a base, a support platform and an elastic element located between them, made in the form of a cylindrical equal-frequency spring having a variable pitch t, which ensures the constancy of the natural frequency of the system at any loads P from a given range: P ₁ ≤ P≤P ₂ due to its precipitation δ:

where P ₁ and P ₂ respectively the minimum and maximum loads under which the conditions of equal frequency are maintained; P is a load satisfying the condition P ₁ ≤P≤P ₂ ;

δ ₁ - a given initial spring draft, corresponding to the minimum load P ₁ , and the condition of equal frequency: the frequency of the natural oscillations of the vibration-insulated system is constant when the mass of this system changes within the specified limits, the system contains at least two spring-frequency equal-frequency vibration isolators with equally-frequency springs symmetrically installed relative to the support platform, while the lower flange of the equal-frequency spring of each vibration isolator is mounted on an elastic base, and the upper one on the base plate, and on the base the platform, by means of fasteners, a vibration-isolating object with a variable technological mass is fixed, and the platform is connected with support nodes mounted on the base plate of each vibration isolator using vertical and horizontal levers with the help of axisymmetric adjustment rods with nuts that are rigidly fixed to the bushings and rigidly connected to the bushings with horizontal levers of support nodes, while between the rods and bushings rigidly connected to horizontal levers of support nodes, coaxial to them, sleeve elastic-damping elements are placed, and inside each equal-frequency spring, axisymmetrically and coaxial to each of them, elastic-damping devices are placed, while their lower part is fixed on the elastic base of the equal-frequency spring, and the upper - on its base plate, while elastic the base on which the lower flange of the equal-frequency spring of the vibration-isolating system is fixed is made combined, consisting of alternating layers of elastic material, for example, sheet metal steel, and layers of vibration damping material, for example, hard grades of vibration damping materials, such as Agate, Anti-Vibrate, Shvim plastic compounds, and under each elastic base of the lower flange of the equal-frequency spring, axisymmetrically placed mesh dampers mounted on elastic damping gaskets made of elastomer.

In FIG. 1 shows a General view of a dual vibration isolation system; in FIG. 2 - characteristic of an equal-frequency spring.

The dual vibration isolation system (Fig. 1) contains at least two spring equal frequency vibration isolators with equal frequency springs 3 symmetrically mounted relative to the support platform 6. The lower flange of the equal frequency spring 3 of each vibration isolator is mounted on the elastic base 1, and the upper one on the support plate 2 , while the spring 3 has a variable pitch t, ensuring the constancy of the natural frequency at any loads P from a given range:

P ₁ ≤P≤P ₂

where P ₁ and P _2, respectively, the minimum and maximum loads under which the conditions of equal frequency are maintained.

Under the action of the load P, satisfying the condition P ₁ ≤P≤P ₂ , it will change its draft δ (see Fig. 2)

where δ ₁ - a given initial spring draft, corresponding to the minimum load P ₁ . This corresponds to the condition of equal frequency: v = const, i.e. the constancy of the frequency of natural vibrations of the vibration-insulated system when the mass of this system changes within specified limits.

On the supporting platform 6, by means of fasteners 8, a vibration-insulated object 7 with a variable technological mass is fixed (for example, removing chips from the workpiece during metal processing, reducing the mass of navoi in weaving equipment, etc.). Platform 6 with the help of vertical 5 and horizontal 4 levers is connected with support nodes mounted on the support plate 2 of each vibration isolator with the help of axisymmetric with equal-frequency springs 3 adjustment rods 9 with nuts 12 and 13, rigidly fixing bushings 10, rigidly connected to horizontal 4 supporting levers nodes, while between the rods 9 and the bushings 10, rigidly connected to the horizontal 4 levers of the support nodes, coaxially placed sleeve elastic damping elements 11. Inside each equal-frequency zhiny 3 axially and coaxially of each, has elastic-damping device 15 and 16, made for example of elastomer, with their lower part fixed to the elastic base 1 equifrequent spring, and the top - in the base plate 2.

The elastic base 1, on which the lower flange of the equal-frequency spring 3 of the vibration-isolating system is fixed, is made combined (not shown in the drawing), consisting of alternating layers of elastic material, such as sheet spring steel, and layers of vibration-damping material, for example, hard grades of vibration-damping materials, such as a plastic compound like "Agate", "Anti-Vibrate", "Shvim".

Under each elastic base 1 of the lower flange of the equal-frequency spring 3, axisymmetrically to it, mesh dampers 17 and 18 are mounted on elastic-damping pads 19 and 20 of elastomer.

Dual vibration isolation system works as follows.

When a dynamic load is applied to the spring 3, an equal-frequency vibration isolation of the object is ensured, since the spring has a variable pitch t, which ensures the constancy of the natural frequency at any loads P from a given range:

P ₁ ≤P≤P ₂

where P ₁ and P _2, respectively, the minimum and maximum loads under which the conditions of equal frequency are maintained.

Under the action of the load P, satisfying the condition P ₁ ≤P≤P ₂ , it will change its draft δ (see Fig. 2)

where δ ₁ - a given initial spring draft, corresponding to the minimum load P ₁ . This corresponds to the condition of equal frequency: constant frequency of the natural oscillations of the vibration-insulated system when the mass of this system changes within specified limits.

Damping in the vibration isolation system is ensured by: the elastic base 1 of the lower flange of the equal-frequency spring 3, made by a combined one consisting of alternating layers of elastic material, for example sheet spring steel, and layers of vibration-damping material, as well as mesh dampers 17 and 18 mounted on elastic-damping pads 19 and 20, and elastic damping devices 15 and 16, located inside each equal-frequency spring 3, axisymmetrically and coaxially to each of them.

Claims (5)

A dual vibration-isolating system containing a base, a support platform and an elastic element located between them, made in the form of a cylindrical equal-frequency spring with a variable pitch t, ensuring the constancy of the natural frequency of the system at any loads P from a given range: P ₁ ≤P≤P ₂ , for account of its precipitation δ:

where P ₁ and P _2, respectively, the minimum and maximum loads under which the conditions of equal frequency are maintained; P is a load satisfying the condition P ₁ ≤P≤P ₂ ; δ ₁ - a given initial spring draft, corresponding to the minimum load P ₁ , and the condition of equal frequency: the constancy of the frequency of natural vibrations of the vibration-insulated system when the mass of this system changes within the specified limits, the system contains at least two spring equal-frequency vibration isolators with equal-frequency springs symmetrically mounted relative to the support platform, with the lower flange of the equal-frequency spring of each vibration isolator mounted on an elastic base, and the upper on the support plate, and a vibration-insulated object is fixed to the supporting platform with fasteners variable technological mass, with the platform using vertical and horizontal levers connected with supporting nodes mounted on the pore plate of each vibration isolator with the help of adjustment rods axisymmetric with equal-frequency springs with nuts rigidly fixing the bushings rigidly connected to the horizontal levers of the support nodes, while between the rods and bushings rigidly connected to the horizontal levers of the support nodes coaxially placed sleeve elastic-damping elements, characterized in that inside each equal-frequency spring, elastic-damping devices are placed axisymmetrically and coaxially with each of them, while the lower part is fixed on the elastic base of the equal-frequency spring, and the upper on its supporting plate, while the elastic base on which the lower flange of the equal-frequency spring of the vibration-isolating system is fixed is made combined, consisting of alternating layers of elastic material, such as sheet spring steel, and layers of vibration-damping material, for example, hard grades of vibration-damping materials, such as plastic compound of the type “Agate”, “Anti-vibration”, “Shvim”, and under each elastic base of the lower flange p vnochastotnoy springs symmetrically placed her net dampers installed on the elastic-damping elastomer gaskets.

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