RU2611228C1 - Kochetov's vibration isolator with variable damping - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: vibration isolator contains a housing with piston and rod placed in it. The vibration isolated mass is fixed at the end of the rod and is held by the springs. The dry friction damper is designed as a friction sleeve with a limiting stops at the end faces. The inner surface of the sleeve is in contact with the piston, and the outer - with additional friction elements. The force of friction elements pressing to the sleeve is executed through the adjustment screws, connected with the actuated servomotor, which is controlled by the microprocessor, related to piezo crystalline vibration acceleration sensor. The elastic elements are carried in between the end surfaces of the sleeve and the housing, which are tuned to the resonance frequency of the isolator. The resilient element is made in the form of damping washer mesh package, the rod is installed coaxially and with the gap in the central part of it. The lower part of the rod is connected to the base of the vibration isolator, and the upper - with a platform of the object protected from the vibration. The package from the upper and the lower disc springs is fixed between the mesh package and the vibration isolator base.

EFFECT: efficiency increase of vibration isolation by increasing the damping at high frequencies.

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Description

The invention relates to mechanical engineering and can be used to protect process equipment from vibration.

The closest technical solution to the claimed object is a vibration isolator containing a housing with a piston rod placed in it, and a vibration-insulated mass held by springs is fixed at the rod end, and the dry friction damper is made in the form of a friction sleeve with restrictive stops at the ends, the inner surface of which is in contact with the piston, forming a friction pair with a friction coefficient f ₁ , and the outer surface of the sleeve is in contact with at least two additional friction elements, forming friction with a friction coefficient f ₂ , and the force of pressing the friction elements to the sleeve is carried out through the adjusting screws (RF patent No. 2301923, F16F 7/00, prototype).

A disadvantage of the known vibration isolator is the relatively low efficiency of vibration isolation due to the absence of vibration damping at high frequencies.

EFFECT: increased vibration isolation efficiency by increasing damping at high frequencies

This is achieved by the fact that in the vibration isolator containing the housing with the piston rod located in it, the vibration-insulated mass held by elastic elements is fixed at the rod end, and the dry friction damper is made in the form of a friction sleeve with limit stops at the ends, the inner surface of which is in contact with a piston forming a pair of friction with a coefficient of friction f ₁ and the outer surface of the sleeve is contacted with at least two additional friction elements forming a friction pair with a coefficient of friction f _2, wherein the contact pressure of the friction elements force to the sleeve is carried out through adjusting screws, adjusting screws are connected to the actuating servo motor, such as worm type with self-locking gear, and the closing signal of the servomotor is supplied by a microprocessor, controls the operation of a dry friction damper according to a predetermined characteristic and associated with vibration acceleration sensor, for example piezocrystalline, the coefficient of friction of the inner surface of the sleeve on a spring-loaded piston is less than the coefficient of fr I on the outer surface of the sleeve with additional frictional elements, and between the end surfaces of the friction sleeve and the housing, elastic elements are introduced that adjust to the resonant frequency of the vibration isolator operating on the elastic element with combined damping, and carry out effective damping due to the speed of transition to stronger damping of the external surface friction sleeve with friction elements, the friction sleeve is introduced into resonance and the vibration isolation system is switched a higher damping coefficient, then increase the damping at high frequencies by applying an elastic element with combined damping, while the elastic element is made in the form of a washer screen with a damping washer mesh package, in the central part of which the rod is coaxially and with a gap, the lower part of which connected to the base of the vibration isolator, and the top to the platform for the object to be protected from vibration, while between the damping washer net package and the base in an isolator fixes a package of upper and lower Belleville springs, and the lower Belleville spring is connected with its lower base to the base of the vibration isolator, and its upper base is rigidly connected to the stem.

In FIG. 1 shows a general view of the vibration isolator; FIG. 2 - amplitude-frequency characteristic of the vibration isolation system, in FIG. 3 is a diagram of an elastic element 5 located between the housing and the lower surface of the piston 3.

The vibration isolator (Fig. 1) includes a housing 1 with a rod 2 placed in it with a piston 3. A vibration-proof mass 4 is mounted on the end of the rod, for example, a loom held by elastic elements 5 and 6. The dry friction damper is presented in the form of a friction sleeve 7 s restrictive stops 8 and 9 at the ends, the inner surface of which is in contact with the piston 3, forming a friction pair with a coefficient of friction f ₁ , and the outer surface of the sleeve 7 is in contact with at least two additional friction elements 10, forming a friction pair with coefficient of friction f ₂ , which can be changed by changing the force of pressing them to the sleeve 7 through the adjusting screws 11, which are connected to the actuating servo motor 14, for example, a worm type with a self-braking gear. The signal to turn on the servomotor 14 comes from a microprocessor 13 that controls the operation of the dry friction damper according to a given characteristic and is associated with a vibration acceleration sensor 12, for example piezocrystalline.

Vibration isolator works as follows.

In FIG. 2 shows the amplitude-frequency characteristics of a vibration isolating system working with the proposed vibration isolator. Curve 15 characterizes a system with a relative damping coefficient ν = 0.05; curve 16 - with a coefficient ν = 0.5 is optimal in terms of the magnitude of the resonance peak (T _A (ω) = 1.5). However, in the resonance zone of the frequency response, starting from the frequency √2ω ₀ , a system having a frequency response with ν = 0.05 is more effective than with ν = 0.5. Therefore, the proposed vibration isolation system provides a stepwise characteristic 17, which at resonance has the properties of the frequency response of the system with ν = 0.5, and in the resonance zone of the frequency response - ν = 0.05. To do this, carry out the frequency inclusion in the work of damping elements with surfaces having friction coefficients of different values f ₁ and f ₂ . In the resonant mode, the following friction pair is connected to work: “the outer surface of the sleeve 7 - friction elements 10” with a friction coefficient f ₂ . Throughout the rest of the frequency range, a pair of friction is provided: "piston 3 - the inner surface of the sleeve 7" with a friction coefficient f ₁ . The frequency response obtained in this way (Fig. 2, curve 17) at the resonance has the advantage of damped systems (ν = 0.5) systems, and in the resonance zone it has the advantage of systems with a small relative damping coefficient (ν = 0.05).

In the entire frequency range, the vibration isolator damps vibrations by means of elastic elements 5 and 6, and damping by friction of the piston 3 against the inner surface of the sleeve 7. At resonance, when the amplitude of the piston moves, it begins to interact with the stops 8 and 9 on the end surface of the sleeve 7 and damping in this case will be carried out mainly due to friction of the outer surface of the sleeve 7 with friction elements 10 with a number of at least 3, which provide a greater coefficient of friction in this pair than the pair - 3 the piston - the inner surface of the sleeve 7 '; moreover, it is also possible to adjust it by means of screws 11. At resonance, the inertia force equal to the product of the mass of the object and vibration acceleration usually exceeds the value of the friction force between the piston 3 and the sleeve 7, therefore, at resonant frequencies, the piston slip will prevent an increase in resonance vibrations due to the introduction of into the system stronger damping with coefficient ν = 0.5. After passing through the resonance, the friction sleeve 7 stops and the damping in the system occurs with a coefficient ν = 0.05, which leads to an effective damping of oscillations in the entire resonance frequency range.

Thus, the proposed vibration isolator makes it possible to obtain an amplitude-frequency characteristic that is optimal from the point of view of the variable mass of the vibration-insulated object, which behaves like a damped system at resonance, and in the resonance region it approaches a system with low damping, thereby ensuring effective vibration isolation in the entire frequency range.

The elastic element 5, located between the housing 1 and the lower surface of the piston 3, is made with combined damping in the form of a vibration washer mesh with a damping washer mesh package. In the central part of the damping washer mesh package, a rod 33 is located coaxially and with a gap 22, the lower part of which is connected to the base of the vibration isolator, and the upper part is connected to the platform 18 for an object protected from vibration.

Between the damping washer mesh package and the base of the vibration isolator, a package of upper 31 and 32 lower disk springs is fixed, while the lower 31 disk spring is connected with its lower base to the vibration isolation base 17, and its upper base is rigidly connected to the rod 33 coaxially placed inside the damping washer mesh a package on which, through an elastic ring with a central hole 34, a platform 18 is fixed for a vibration-protected object (not shown in the drawing), and the upper 31 has a disc spring The larger base is connected to the lower Belleville spring 32, and the larger one is connected to a damping washer net bag.

The damping washer mesh package is made symmetrical with respect to the central plate 28, on which the support rings 27 and 25 of the upper 23 and lower 24 mesh elastic elements are fixed, while the upper 23 mesh elastic element is connected to the upper cover 21 of the mesh package and the lower 24 mesh elastic element connected to the lower pressure plate 29, rigidly connected to the large base of the Belleville spring 31, while its smaller base rests on the Belleville spring 32, mounted on the base 17 of the vibration isolator.

Moreover, in the upper mesh elastic element 23, in its center, axisymmetrically to the rod 33 is located the upper dry friction damper, made in the form of an upper sleeve 20, rigidly connected to the cover 21, and a lower sleeve 19, rigidly connected to the Central plate 28, while the sleeve 19 and 20 are connected with an interference fit, forming a pair of friction, and the rod 33 is placed in them coaxially and with a gap of 22.

In the lower mesh elastic element 24, in its center, axisymmetrically to the stem 33 is located the lower dry friction damper, made in the form of a lower sleeve 30, rigidly connected to the lower pressure plate 29, and the upper sleeve 26, rigidly connected to the Central plate 28, while the sleeve 26 and 30 are connected with an interference fit, forming a pair of friction, and the rod 33 is placed in them coaxially and with a gap.

The density of the mesh structure of the elastic mesh element is in the optimal range of values: 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.

Elastic mesh elements 23 and 24 can be made combined of a mesh frame, filled with an elastomer, for example polyurethane.

The vibration isolator symmetrical washer mesh works as follows.

With vibrations of a vibroinsulated object (not shown in the drawing) located on platform 2, the elastic mesh elements 23 and 24 perceive both vertical and horizontal loads, thereby weakening the dynamic effect on the vibroisolated object, i.e. spatial vibration protection and shock protection are provided.

Claims (1)

Vibration isolator with variable damping, comprising a housing with a piston rod placed in it, and a vibration-insulated mass held by springs fixed to the rod end, and a dry friction damper made in the form of a friction sleeve with limit stops at the ends, the inner surface of which contacts the piston, forming a pair friction with a coefficient of friction ƒ ₁ , and the outer surface of the sleeve is in contact with at least two additional friction elements, forming a friction pair with a friction coefficient ƒ ₂ , at what is the force of pressing the friction elements to the sleeve through the adjusting screws, the adjusting screws are connected to an executive servomotor, for example, a worm type with a self-braking transmission, and the signal to turn on the servomotor comes from a microprocessor that controls the operation of the dry friction damper according to a given characteristic and is associated with a vibration acceleration sensor, for example piezocrystalline, the coefficient of friction of the inner surface of the sleeve against the spring-loaded piston is less than the coefficient of friction of the outer the friction surface of the sleeve with additional friction elements, characterized in that elastic elements are inserted between the end surfaces of the friction sleeve and the housing, which are tuned to the resonant frequency of the vibration isolator operating on the elastic element with combined damping, and carry out effective damping due to the speed of transition to stronger damping the outer surface of the friction sleeve with friction elements, while the friction sleeve is introduced into resonance and the vibration system is switched isolation at a higher damping coefficient, then increase the damping at high frequencies by applying an elastic element with combined damping, while the elastic element is made in the form of a washer screen with a damping washer mesh package, in the central part of which the rod is coaxially and with a gap, the lower part which is connected to the base of the vibration isolator, and the top to the platform for the object to be protected from vibration, while between the damping washer net package and the base of the vibration isolator fix the package of the upper and lower Belleville springs, and the lower Belleville spring with its lower base is connected to the base of the vibration isolator, and its upper base is rigidly connected to the rod.

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