RU2597688C2 - Spring vibration isolator by kochetov for process equipment with variable mass - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building. Vibration isolator comprises base, supporting platform and resilient element located between them made in form of cylindrical equifrequential spring. Lower spring flange is fixed at the resilient base, and the upper one - on the supporting plate. Object with variable process mass whose vibration shall be isolated is fixed at the supporting platform by fastening elements. Platform is connected to the supporting unit by nuts embracing adjusting bolts. Supporting unit is fixed on the supporting plate of the vibration isolator by adjusting bolts rigidly coupled to the bushes. Every supporting unit comprises vibration damping bushes set coaxially to the adjusting bolts. Resilient base is coupled with the lower platform of the vibration isolator by three poles with screws and elastic bushes coaxially set outside the poles. Cylindrical-conical damper is located under lower spring flange resilient base. Damper is made in form of series-connected conical and cylindrical helical springs, which turns are coated with elastomer layer, for example polyurethane. Resilient base consists of alternating layers of elastic and vibration damping materials.

EFFECT: higher efficiency of vibration isolation.

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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.

It is known the use of spring elastic elements for vibration isolation of technological equipment in the textile industry [1, 2, 3, 4]. The calculations show the high efficiency of spring elastic elements in vibration isolation systems, while tests in real factory conditions confirm their effectiveness with high reliability and ease of maintenance.

However, a significant height of the springs is required to reduce low-frequency vibrations.

It is known to use spring vibration isolators [5, 6] with a pendulum suspension, which use a suspension type vibration isolation system with a spring elastic element.

The disadvantage of this type of vibration isolators with a pendulum suspension is their large height dimension, since they belong to the category of suspended vibration isolation systems, where the overall dimensions are not limited in height, and relatively small dimensions in height are required for supporting vibration protection systems.

Known spring vibration isolator with dry friction [7], containing a spring, a housing and a dry friction damper.

The disadvantage of this type of vibration isolators is the relatively low reliability in the resonant mode due to wear of the dry friction damper, which somewhat reduces the efficiency of vibration protection.

It is known the use of spring elements in vibration isolators [8], containing a housing that is made in the form of upper and lower rectangular plates, between which screw elastic elements of different stiffness are placed.

The disadvantage of this type of vibration isolators is the ability to block screw elastic elements in packages, which can somewhat change their overall stiffness, and therefore the effectiveness of vibration protection.

It is known the use of spring elements in vibration isolators [9] with a variable damping structure, comprising a housing with a rod and piston placed in it, and a vibration-proof mass held by springs is fixed at the end of the rod, and the dry friction damper is made in the form of a friction sleeve with restrictive stops at the ends, moreover, the force of pressing the friction elements to the sleeve is carried out through the adjusting screws that are connected to the actuating servo motor, and the signal to turn on the servo motor comes from the micro a processor controlling the operation of the dry friction damper according to a given characteristic, and associated with a vibration acceleration sensor.

The disadvantage of this type of vibration isolators is the high cost of the vibration protection system, which is not always justified because of their effectiveness of vibration protection.

Known spring vibration isolator with a pendulum suspension [10], containing a helical coil spring, the lower end of which rests on the upper flange of the housing and interacting with the pendulum mechanism, which is made in the form of a threaded rod with nuts at the ends and supporting washers based on rubber elastic elements that perform functions of the elastic hinge, with the upper rubber elastic element located between the upper spring flange and the support washer, and the lower - between the support washer and the plate on which the vibro is mounted zoliruemoe equipment.

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

The closest technical solution to the claimed object is an equal-frequency spring vibration isolator according to the USSR AS No. 299681 [11] (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 constant frequency of natural frequency under any loads 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 spring vibration isolator 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 are the minimum and maximum loads, respectively, 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: a constant frequency of natural vibrations of the vibration-insulated system when the mass of this system changes within specified limits, it contains an equal-frequency spring, the lower flange of which is fixed on an elastic base, and the upper one on the support plate, and on the support platform, by means of fasteners, a vibration-insulated object with a variable technological mass is fixed, and the platform is connected with the support unit mounted on the support the vibration isolation plate with the help of axial-symmetric adjustment bolts with an equal-frequency spring, rigidly connected to the bushings, covering the adjustment bolts with nuts, and each of the support nodes contains vibration damping bushings, coaxially mounted with adjustment bolts, while the lower flange of the equal-frequency spring of the vibration isolator is fixed by means of an elastic base at least three racks with screws and with coaxially located outside racks, elastic bushings, connected to the lower platform isolator and elastic base under the bottom flange equifrequent spring axisymmetrically it is arranged cylindric damper, for example an elastomer, fixed on its cylindrical part of the lower platform each isolator and the conical portion is connected with the elastic base equifrequent spring.

In FIG. 1 shows a General view of a spring vibration isolator for process equipment with variable weight; in FIG. 2 - characteristic of an equal-frequency spring.

The spring-loaded vibration isolator for technological equipment with variable mass (Fig. 1) contains an equal-frequency spring 3. The lower flange of the equal-frequency spring 3 of the spring-loaded 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 constant natural frequency at any loads P from a given range:

where P ₁ and P ₂ are the minimum and maximum loads, respectively, under which the conditions of equal frequency are maintained.

Under the action of the load P, P satisfying ₁ ≤P≤R _2, it will change its pellet δ (see. Fig. 2)

where δ ₁ is a given initial spring draft corresponding to a 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.

A vibration-isolating object 12 with a variable technological mass is fixed on the supporting platform 11 (for example, removing chips from a workpiece during metalworking, reducing the mass of navoi in weaving equipment, etc.). The platform 11 is connected with the support assembly 10, mounted on the support plate 2 of the vibration isolator using the adjustment bolts 16, which are axisymmetric with the equal-frequency spring 3, rigidly connected to the bushings 14, the adjustment bolts 16 covering the nuts 15 and 17. The support assembly 10 comprises vibration damping bushings 13 coaxially mounted adjusting bolts 16.

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

It is possible that the elastic base 1, on which the lower flange of the equal-frequency spring 3 of the vibration isolator 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 varieties of vibration damping materials, such as plastic compound like "Agate", "Anti-Vibrate", "Shvim".

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 the vibration isolator, and the conical part 8 is connected with the elastic base 1 of the equal-frequency spring 3.

A variant is possible when the cylindrical-conical damper is made in the form of conically and cylindrical coil springs in series, the turns of which are covered with a layer of elastomer, for example polyurethane.

Spring vibration isolator 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:

where P ₁ and P are the minimum and maximum loads, respectively, 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 is a given initial spring draft corresponding to a 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 provides a cylindrical cone damper, which is made in the form of conically and cylindrical coil springs connected in series, the turns of which are covered with an elastomer layer.

Sources of Bibliography Cited in Patent Search

1. Kochetov O.S., Sazhin B.S. Noise and vibration reduction in production: theory, calculation, technical solutions. M .: MSTU im. A.N. Kosygina, 2001 .-- 319 p.: P. 120, fig. 5.6; p. 287, fig. P.Y.15.

2. Kochetov OS Textile vibroacoustics. Textbook for universities. M .: MSTU im. A.N. Kosygina, “Sovezh Bevo” group, 2003. - 191 p.: P. 59, fig. 3.1; p. 61, fig. 3.4a; fig. 3.5.

3. Kochetov OS Vibration isolators of type "VSK-1" for looms // Textile industry. - 2000, No. 5. S. 19 ... 20.

4. Kochetov O.S. Calculation of the spatial vibration protection system. The journal "Occupational Safety in Industry", No. 8, 2009, pp. 32-37.

5. Kochetov O.S., Kochetova M.O., Khodakova TD, Shesterninov A.V. Spring vibration isolator with pendulum suspension // Patent for invention No. 2279589. Published July 10, 2006. Bulletin of inventions No. 19.

6.Kochetov O.S., Kochetova M.O., Khodakova T.D., Shesterninov A.V. Vibration isolating system // Patent for invention No. 2279586. Published July 10, 2006. Bulletin of inventions No. 19.

7. Kochetov O.S., Kochetova M.O., Khodakova T.D., Shesterninov A.V., Stareev M.E. Spring vibration isolator with dry friction // Patent for invention No. 2282075. Published on August 20, 2006. Bulletin of inventions No. 23.

8. Kochetov O.S., Kochetova M.O., Khodakova TD, Shesterninov A.V. Vibration-proof pad // Patent for invention No. 2277650. Published on June 10th, 2006. Bulletin of inventions No. 16.

9. Kochetov O.S., Kochetova M.O., Shesterninov A.V., Zubova I.Yu. Vibration isolator with variable damping structure // Patent for invention No. 2303722. Published on July 27th, 2007. Bulletin of inventions No. 21.

10. Kochetov O.S., Kochetova M.O., Khodakova T.D. Vibration isolator with pendulum suspension // Patent for invention No. 2269699. Published 02/10/2006. Bulletin of inventions No. 4.

11. Khvoshchevsky I.Ya., Kazakov A.B. Equal-frequency vibration isolator // USSR author's certificate for the invention №299681, class. F16 1/06. Posted on 05/25/1971. Bulletin of inventions No. 12.

Claims (1)

A spring-loaded vibration isolator 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 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 δ:
$$\delta ={\delta }_{\mathrm{one}}\left(ln\frac{P}{P_{\mathrm{one}}}+\mathrm{one}\right)$$

where P ₁ and P ₂ are the minimum and maximum loads, respectively, 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: constant frequency of natural vibrations of the vibration-insulated system when the mass of this system changes within specified limits, the vibration isolator contains an equal-frequency spring, the lower flange of which is fixed on an elastic base, and the upper one on a support the plate, and on the supporting platform by means of fasteners a vibration-isolating object with a variable technological mass is fixed, and the platform is connected with the supporting node, fixed on the base plate of the vibration isolator using adjusting bolts axisymmetric with an equal frequency spring, rigidly connected to bushings that cover the adjustment bolts with nuts, and each of the support nodes contains vibration damping sleeves coaxially mounted with adjustment bolts, while the lower flange of the equal frequency spring of the vibration isolator is fixed to the base by means of at least three posts with screws and with elastic bushings coaxially located outside the posts, connected to the bottom the shape of the vibration isolator, and under the elastic base of the lower flange of the equal-frequency spring, a cylindrical cone damper is placed axially symmetrically, for example, from an elastomer mounted on its lower part on the lower platform of each vibration isolator, and the conical part is connected to the elastic base of the equal-frequency spring, the cylindrical cone is made in the form of conically connected cylindrical coil springs, the turns of which are covered with a layer of elastomer, for example polyurethane, characterized in that the elastic the base on which the lower flange of the equal-frequency spring of the vibration isolator 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 like “Agate”, “Anti-vibration”, Shvim.

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