RU2662350C1 - Vibration isolator with damper - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to the machine building. Vibration isolator comprises base, post, spring type resilient elements and support assembly. Base is made in the form of two parallel angles, rigidly connected to each other by means of the thrust plate. To the thrust plate the spring type resilient element is secured by means of the cover and two screws. Support assembly is made in form of the rod with thread end, securing the vibration isolated object. Rod has hemispherical head for the contact with the resilient element cone surface. Support assembly is fixed on the elastic element with the screw. Between the base and the elastic element a damping device is placed, comprising body made in the form of upper and lower thrust washers with collars and threaded holes. Pressure washers are made with screw thread, which includes pressed with flat washers cylindrical helical spring turns. Inside the spring the mesh damper is arranged, made in the form of a cylindrical bushing with located inside it damper device in the form of sleeve. In the sleeve central part, a shaped damping ring from cast polyurethane is fixed. Above the ring conical surfaces disks are fixed, secured by means of rods in the pressure washers threaded holes. Between disks the additional damping element is arranged.

EFFECT: enabling increase in the vibration isolation efficiency.

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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 spring-type vibration isolator containing a base, a strut, spring elastic elements and support nodes according to the patent of the Russian Federation No. 2279591, (prototype).

The disadvantage of the known device is the relatively low efficiency of vibration isolation due to the relatively high stiffness of the springs, consisting of two parts.

The technical result of the invention is improving the efficiency of vibration isolation.

This is achieved by the fact that in the spring vibration isolator with a damper containing a base, a strut, spring elastic elements and a support unit, the base is made in the form of two parallel corners, rigidly interconnected from the side opposite to the support unit, by means of a thrust plate to which is attached spring-type elastic element by means of a cover using at least two screws located along the width of the elastic element, the width of the spring-type elastic element being less than the width of the base, and the support unit complete in the form of a rod with a threaded end fixing the vibration-insulated object and having a hemispherical head for contact with the conical surface in the elastic element, and the support node is fixed on the elastic element with a screw screwed into the hemispherical head of the rod, and between the base and the spring elastic type element a damping device is placed.

In FIG. 1 shows a frontal section of a spring vibration damper with a damper, FIG. 2 is a plan view of FIG. 3 - damping device 10.

The spring vibration damper with the damper comprises a base 1 (Fig. 1, Fig. 2) made in the form of two parallel corners, rigidly interconnected from the side opposite to the support node 6, by means of a thrust plate 4 to which the spring-type elastic element 2 is attached by the cover 3 with at least two screws 5 located along the width of the elastic element 2, while the width of the spring type elastic element 2 is less than the width of the base 1. The support unit 6 includes a rod 8 with a threaded end fixing the vibration-insulated volume CT by means of a nut, and having a hemispherical head 9 for contact with a conical surface in the elastic element 2. The support assembly 6 is fixed on the elastic element 2 with a screw 7 screwed into the hemispherical head 9 of the rod 8. To increase the damping ability of the vibration isolation system as a whole between the base 1 and a spring-type elastic element 2 is placed a damping device 10 (Fig. 3).

Vibration isolator spring with a damper works as follows.

When forced vibrations of a vibroinsulated object installed on the support node 6, a dynamic reaction occurs, which is damped by an elastic element 2 spring type, which is also a guiding device for vertical movements of the vibroisolated object. The horizontal component that occurs during operation of the spring-type elastic element 2 is compensated in the support unit by the hemispherical head 9 of the rod 8, which provides spatial vibration isolation at high frequencies. The height of the vibration-insulated object is adjusted by the rod 8 with a threaded end containing a thrust nut and a lock nut.

The fixing of the support node on the elastic element 2 is carried out by means of a screw 7, which is also a restrictive stop at large vibration amplitudes.

The proposed design of a spring vibration isolator is effective due to the possibility of damping vibrations in all directions.

A variant is possible (Fig. 3), when the damping device 10 is made in the form of a spring with a mesh damper.

The damping device 10 includes a housing made in the form of upper and lower pressure washers 11 and 17 with flanges 15 and threaded holes 16, between which a cylindrical coil spring is fixed 14. The pressure washers 11 and 17 are made with a screw thread, which includes spring coils, which are pressed flat washers 12 and 18 through the screws 19. Inside the spring 14, coaxially and coaxially to it, is placed a mesh damper 13, made in the form of a cylindrical sleeve from a volumetric mesh weave, and a dry damper device 20 placed inside it eniya regulating the friction coefficient depending on the applied vibration load.

The damper device 20 consists of a sleeve 21 made of a rigid elastic-damping material, for example, an Agate type, in the central part of which, along its inner diameter, a profile damping ring 24 is made, made of an elastomer, for example, injection molded polyurethane. Ring 24 has a cross-sectional profile in the form of two opposed surfaces of a truncated cone, converging in the central part of ring 24 with their bases of smaller diameter. Above the surfaces of the large bases of the conical surfaces of the ring 24, discs 22 and 23 are located, fastened by rods 25 and 26 in the threaded holes 16, respectively, of the upper and lower pressure washers 11 and 17.

It is possible that between the disks 22 and 23 of the damper device 20, mounted by means of rods 25 and 26 in the threaded holes 16 of the upper 11 and lower 17 of the pressure washers, respectively, an additional damping element 27 is located inside the profile damping ring 24.

The mesh damper 13 has the same height h with the part of the coil spring 14 located between the pressure washers 11 and 17, and the ratio of the outer diameter D of the mesh damper 3 to its height h is in the optimal range of values D / h = 0.73 ... 1, 05.

The ratio of the average diameter D _{1 of the} spring element to the diameter of its wire d is in the optimal range of values D ₁ / d = 6.5 ... 13.6. The ratio of the outer diameter of the housing C to its height A is in the optimal range of values C / A = 0.68 ... 0.88.

It is possible that an additional damping element 27, located between the disks of the damper device 20, fixed by means of rods in the threaded holes of the upper and lower pressure washers, is made in the form of a surface, the equidistant surface of the profile damping ring 24, located in the central part of the sleeve 21 along its inner diameter, and frictional lubricant is placed in contacting equidistant surfaces.

A spring with a mesh damper operates as follows.

With vibrations of the vibration-insulated object, which is mounted on one of the pressure washers 11 and 17 (not shown in the drawing), the coil spring 14 and the mesh damper 13 absorb both vertical and horizontal loads, thereby weakening the dynamic effect on the vibration-insulated object, i.e. . spatial vibration protection and shock protection are provided. Varying the density of the mesh structure of the mesh damper 13, it is possible to adjust the resonant frequency of the vibration isolator within certain limits. The dry friction damper device 20 located inside it, which allows controlling the friction coefficient depending on the applied vibration load, increases the vibration isolation efficiency in the resonance mode due to complex damping, which is due to the presence of volume friction surfaces of the bushings made of volumetric mesh weaving, elastic-damping material , for example, injection molded polyurethane, and also allows you to absorb shock loads on the vibration protection system. An additional damping element 27 increases the damping at the resonance and thereby increases the efficiency of vibration isolation of the system as a whole.

It is possible that between the upper and lower pressure washers 11 and 17 and the additional damping element 13 additional elastic elements are installed to prevent resonance phenomena of the additional damping element 13 (not shown in the drawing).

It is possible that friction grease between the equidistant surfaces of the profile damping ring 24 located in the central part of the sleeve 21 along its inner diameter and the additional damping element 27 located between the disks 22 and 23 of the damper device, fixed by rods in the threaded holes of the upper and lower pressure the washer is made of a composition comprising the following components, with their ratio, in wt. %:

- a mixture of rezol and novolac phenol-formaldehyde pitches in the ratio 1: (0.2-1.0) 28 ÷ 34% a fibrous mineral filler containing glass roving or a mixture of glass roving and basalt fiber in a ratio of 1: (0.1-1.0) 12 ÷ 19%, - graphite 7 ÷ 18%, - friction modifier containing carbon black in the form of a mixture with kaolin and silicon dioxide 7 ÷ 15% - barite concentrate 20 ÷ 35%, - talc 1.5 ÷ 3.0%.

Claims (1)

Spring vibration isolator with a damper containing a base, a strut, spring elastic elements and a support unit, the base being made in the form of two parallel angles rigidly interconnected from the side opposite to the support unit by means of a thrust plate to which the spring elastic type element is attached by means of a cover with at least two screws located along the width of the elastic element, the width of the spring-type elastic element being less than the width of the base, and the supporting unit made in the form of a rod with a threaded end fixing a vibration-insulating object and having a hemispherical head for contact with a conical surface in the elastic element, the support node being fixed on the elastic element with a screw screwed into the hemispherical head of the rod, while a damping device is placed between the base and the spring elastic element comprising a housing made in the form of upper and lower pressure washers with flanges and threaded holes between which a coil spring is fixed, while the pressure washers are made with a screw thread, which includes spring coils pressed by flat washers through the screws, and a mesh damper is placed coaxially and coaxially inside the spring, made in the form of a cylindrical sleeve from a volumetric mesh weave and a damper device located inside it, the ratio of the outer diameter D mesh damper to its height h is in the optimal range of values D / h = 0.73 ... 1.05, and the ratio of the average diameter D _{1 of the} spring element to the diameter of its wire d is optimally m the range of values D ₁ / d = 6.5 ... 13.6, and the ratio of the outer diameter of the housing C to its height A is in the optimal range of values C / A = 0.68 ... 0.88, the damper device consists of a sleeve made made of hard elastic-damping material, for example, of the Agat type, in the central part of which a profile damping ring is fixed along its inner diameter, made of an elastomer, such as injection polyurethane, the ring having the form of two opposite surfaces of a truncated cone converging in the central part of the ring and with their bases of smaller diameter, and above the surfaces of the large bases of the conical surfaces of the ring, there are disks fixed by rods in the threaded holes of the upper and lower pressure washers, respectively, and between the disks of the damper device, fixed by rods in the threaded holes of the upper and lower pressure washers, respectively an additional damping element is located in the profile damping ring, with an additional damping element located between the disk and a damper device, fixed by means of rods in the threaded holes of the upper and lower pressure washers, respectively, is made according to the shape of the surface, the equidistant surface of the profile damping ring located in the central part of the sleeve along its inner diameter, and friction lubricant is placed in the contacting equidistant surfaces, characterized in that that friction lubricant between the equidistant surfaces of the profile damping ring located in the central part of the sleeve along its inner diameter, and an additional damping element located between the damping device disks, fixed by means of rods in the threaded holes of the upper and lower pressure washers, respectively, made of a composition that includes the following components in their ratio in wt.%: a mixture of resol and novolac phenol-formaldehyde resins in the ratio 1: (0.2-1.0) - 8 ÷ 34%; fibrous mineral filler containing glass roving or a mixture of glass roving and basalt fiber in a ratio of 1: (0.1-1.0) - 12 ÷ 19%; graphite - 7 ÷ 18%; a friction modifier containing carbon black in the form of a mixture with kaolin and silicon dioxide - 7 ÷ 15%; barite concentrate - 20 ÷ 35%; talc - 1.5 ÷ 3.0%.

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