RU2668874C2 - Anti-vibration system for process equipment with variable mass - 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. Springs are symmetrically set in relation to the supporting platform. 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 the supporting units by nuts embracing adjusting bolts with the help of vertical and horizontal levers. Support units are fixed to the support plate of each vibration isolator with the help of adjusting bolts, rigidly connected to the bushings. Every supporting unit comprises vibration damping bushes set coaxially to the adjusting bolts. Resilient base is connected to the vibration isolator lower platform by three posts with screws and with coaxially located outside the posts elastic bushings. Cylindrical-conical damper made from elastomer is set under the resilient base of the lower spring flange. Damper is mounted on the lower platform of each vibration isolator by its cylindrical part. Conical part of the damper is connected to the resilient base of the spring.EFFECT: higher efficiency of vibration isolation is achieved.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 [1] (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 vibration-isolating system for technological equipment with variable mass, 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, ensuring 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 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 vibrations 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 support 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 support plate of each vibration isolator using vertical and horizontal levers with axial-symmetrical adjustment bolts with equal-frequency springs, rigidly connected to bushings covering the adjustment bolts nuts, and each of the support nodes contains vibration damping bushings, coaxially mounted with adjusting bolts, when th lower flange equifrequent spring.

In FIG. 1 shows a general vibration isolating system for variable mass production equipment; in FIG. 2 - characteristic of an equal-frequency spring.

Vibration isolation system for technological equipment with variable weight (Fig. 1) contains at least two spring equal frequency vibration isolators with equal frequency springs 3 symmetrically mounted relative to the support platform 20. The lower flange of the equal frequency spring 3 of each vibration isolator is mounted on an elastic base 1, and the upper - 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 20. by means of fasteners 19. a vibration-insulated object 12 with a variable technological mass is fixed (for example, removing chips from the workpiece during metalworking, reducing the mass of navoi in weaving equipment, etc.). The platform 20 with the help of vertical 18 and horizontal 11 levers is connected with the support nodes 10, mounted on the support plate 2 of each vibration isolator with the help of axisymmetric adjustment bolts 16 with equal frequency springs 3, rigidly connected to the bushings 14, covering the adjustment bolts 16 with nuts 15 and 17. Each of the supporting nodes 10 contains vibration damping bushings 13, coaxially mounted with adjusting bolts 16.

The lower flange of the equal-frequency spring 3 of each vibration isolator is mounted on an elastic base 1, which is connected to the lower platform 7 of the vibration isolator by means of at least three posts 6 with screws 4 and elastic bushings 5 coaxially located outside the posts.

Under the elastic base 1 of the lower flange of the equal-frequency spring 3, axisymmetrically placed a cylindrical damper 9, for example of elastomer, mounted with its cylindrical part on the lower platform 7 of each vibration isolator, and the conical part 8 is connected with the elastic base 1 of the equal-frequency spring 3.

Vibration isolation system for technological equipment with variable mass 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 5 (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.

It is possible that the cylinder-conical damper 9, located between the elastic base 1 of the lower flange of the equal-frequency spring 3, and the lower platform 7 of the vibration isolator, is made combined, while the cylindrical part located on the lower platform 7 of the vibration isolator is made in the form of a cylindrical coil spring, and the conical part 8 - in the form of a conical coil spring (not shown in the drawing). In this case, the screw surfaces of the damper springs are covered with a layer of vibration damping material.

Claims (4)

A vibration-isolating system for technological equipment with variable weight, 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 , due to its precipitation 5:

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 support plate of each vibration isolator using vertical and horizontal levers with axial-symmetrical adjustment bolts with equal-frequency springs, rigidly connected to bushings covering the adjustment bolts nuts, and each of the support nodes contains vibration damping bushings, coaxially mounted with adjusting bolts, at The lower flange of the equal-frequency spring of each vibration isolator is mounted on an elastic base, which is connected to the lower platform of the vibration isolator by at least three pillars with screws and coaxially located outside the pillars, and under the elastic base of the lower flange of the equal-frequency spring, it is axisymmetric to it , a cylindrical-conical damper, for example, of an elastomer, mounted with its cylindrical part on the lower platform of each vibration isolator, is placed, and the conical part is connected with an elastic the development of an equal-frequency spring, characterized in that the cylindrical conical damper located between the elastic base of the lower flange of the equal-frequency spring and the lower platform of the vibration isolator is combined, while the cylindrical part located on the lower platform of the vibration isolator is made in the form of a cylindrical coil spring, and the conical part in the form of a conical coil spring, while the screw surfaces of the damper springs are covered with a layer of vibration damping material.

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