RU2650279C2 - Kochetov's spring vibration isolator with mesh damper - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention refers to machine building. Vibration isolator comprises a base in the form of a plate with fixing holes, a cover and an elastic element disposed there between. On the base, a support element is fixed through the intermediate vibration dampening element of polyurethane. Elastic element consists of a cylindrical mesh elastic-damping element, enclosed by a cylindrical helical spring. Mesh element is rests with the lower part on the support element of the base, and with the upper part – fixed on the cover. Spring rests against the base, covering its support element, and is fixed on the cover. Spring coils are covered with polyurethane. Spring contains body made out of helical hollow steel tube. Additional resilient steel tube is installed inside the casing coaxially with a gap. Friction element is placed in the gap between the tubes having higher thermal expansion coefficient as compared to steel. Surfaces of the casing and the additional resilient steel tube touch the surfaces of the friction elements. Screw solid resilient pin is set coaxially to the casing. Friction element is made in the form of a granular fill made of sintered copper-based friction material.

EFFECT: increased efficiency of vibration isolation in resonance mode is being achieved.

1 cl, 3 dwg

Description

The invention relates to mechanical engineering, instrumentation and can be used for vibration isolation of technological equipment, machine tools, devices.

The closest technical solution to the claimed object is a spring vibration isolator with a pendulum suspension according to the patent of the Russian Federation No. 2269699, (prototype), containing a helical cylindrical 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 resting on rubber elastic elements that act as an elastic hinge, the upper rubber elastic element being located between the upper flange of the zhiny and support washer and the lower - between the bearing washer and plate, which is attached vibroizoliruemoe equipment.

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

The technical result is an increase in the efficiency of vibration isolation in a resonant mode.

This is achieved by the fact that in the spring mesh insulator comprising a base, a cover and an elastic element located between them, the base is made in the form of a plate with mounting holes on which a support element is fixed through an intermediate vibration-damping element, and the elastic element is combined, consisting of a cylindrical mesh elastic-damping element covered by a cylindrical helical spring, and the mesh elastic-damping element with the lower part resting on the supporting element base the upper one - is fixed on the cover, and the coil spring rests on the base, covering its supporting element, and is fixed on the cover, the density of the mesh structure of the mesh elastic-damping element is in the optimal range of values: 1.2 g / cm ³ ÷ 2.0 g / cm ³ , and the material of the wire of the elastic mesh elements is EI-708 steel, and its diameter is in the optimal range of 0.09 mm ÷ 0.15 mm, the intermediate vibration damping element located between the support element and the base is made of polyurethane , a cylindrical coil spring of a combined elastic element is made with a coating of its coils by a vibration damping material, for example polyurethane.

In FIG. 1 shows a general view of the spring damper, FIG. 2 is a frontal section thereof, in FIG. 3 shows a diagram of a variant of a coil spring 5, frontal section.

A spring vibration isolator with a mesh damper comprises a base 1, a cover 4 and an elastic element located between them. The base 1 is made in the form of a plate with mounting holes 2, on which a supporting element 3 is fixed through an intermediate vibration damping element 7. The elastic element is combined, consisting of a cylindrical mesh elastic-damping element 6, covered by a coil spring 5, and the mesh elastic-damping element rests on the bottom supporting element of the base, and the upper - is fixed on the cover, and a coil spring rests on the base, covering its supporting element, and fi Xing on the lid.

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.

The density of the mesh structure of the outer layers of the elastic mesh element is 1.5 times higher than the density of the mesh structure of the inner layers of the elastic mesh element.

The elastic mesh element can be made combined of a mesh frame, filled with an elastomer, for example polyurethane.

A variant is possible when a coil spring of a combined elastic element is made with a coating of its coils by vibration damping material, for example polyurethane.

Vibration isolator spring with a mesh damper operates as follows.

During vibrations of a vibroinsulated object (not shown in the drawing) located on the cover 4, a coil spring 5 and a mesh elastic-damping element 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.

It is possible that the coil spring 5 (Fig. 3) contains a housing 8 made of a helical, hollow, and elastic steel tube, inside of which at least one additional elastic steel tube 10 is mounted coaxially and axisymmetrically with a gap, and is located in the gaps between the tubes at least one friction element 9, for example, of polyethylene having a high coefficient of thermal expansion compared to steel. The surfaces of the housing 8, the additional elastic steel tube 10 are in contact with the surfaces of the friction elements 9 and 11, and their axis coincides with the axis of the turns of the housing. Centrally, coaxially and axisymmetrically to the housing 8 is a screw elastic rod 12, which can be made, like the housing and additional elastic steel tubes, hollow, as shown in the drawing, or solid (not shown). Friction elements 9 and 11 can be made tubular, as shown in the drawing, while having either a continuous structure, for example of polyethylene, as element 11, or combined, as element 9, for example, of polyethylene interspersed with granules of vibration-damping material. A variant is possible when the friction element is made in the form of a granular backfill from vibration damping material (not shown in the drawing).

A variant is possible when the helical elastic rod 12 is made in the form of a helical spring with a step less by 5 ÷ 10% of the helical pitch of the housing 8, to create an interference fit for the functional purpose of the friction elements 9 and 11.

It is possible that the friction element is made in the form of a granular bed of sintered friction material based on copper, which contains zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon, in the following ratio of components, wt. %: zinc 6.0 ÷ 8.0; iron 0.1 ÷ 0.2; lead 2.0 ÷ 4.0; graphite 3.0 ÷ 7.0; vermiculite 8.0 ÷ 12.0; chrome 4.0 ÷ 6.0; antimony 0.05 ÷ 0.1; silicon 2.0 ÷ 3.0; copper is the rest.

On the upper and lower supporting surfaces of the housing 8, the upper 13 and lower 14 vibration damping plates are fixed, consisting of alternating layers of elastic material, such as spring steel sheet, and layers of vibration damping material, such as hard grades of vibration damping materials, such as agate plastic compound, “Anti-vibration”, “Shvim”.

The bottom 14 vibration damping plate through an elastic gasket 15 made of polyurethane is mounted on a washer mesh damper, which contains a base 19 in the form of a plate with mounting holes (not shown), a mesh elastic element 17, fixed by the upper 16 and lower 18 pressure washers, while the upper 16 a pressure washer is connected to an elastic polyurethane gasket 15, and a lower 18 pressure washer is connected to a base 19.

The density of the mesh structure of the elastic mesh element 17 is in the optimal range of values: 1.2 g / cm ³ ... 2.0 g / cm ³ , moreover, the material of the wire of the elastic mesh elements is steel EI-708, and its diameter is in the optimal range of values 0.09 mm ... 0.15 mm. The density of the mesh structure of the outer layers of the elastic mesh element is 1.5 times higher than the density of the mesh structure of the inner layers of the elastic mesh element.

The elastic mesh element 17 can be made combined of a mesh frame, filled with an elastomer, for example polyurethane.

The elastic mesh element 17 operates as follows.

When vibrations of a vibroinsulated object (not shown in the drawing) located on the upper pressure plate 16, the elastic mesh element 17 perceives both vertical and horizontal loads, thereby weakening the dynamic effect on the vibroisolated object, i.e. spatial vibration protection and shock protection are provided.

A cylindrical spring 5 operates as follows.

At low vibration amplitudes, when large attenuation is undesirable, the dissipated energy due to dry friction between the steel tube and the friction element will be small. At large amplitudes of vibrations, especially at resonances, damping increases due to the relative movement of steel tubes and the friction element. During long-term operation of the spring shock absorber with large amplitudes, the attenuation increases, since the friction element expands in a closed volume several times more than steel when the temperature rises, thereby increasing the pressure on the walls of the steel tubes, as a result of which dry friction increases and oscillations quickly stop .

Thus, due to its selective properties, the spring provides effective spatial vibration isolation of equipment in all six directions of vibration (along three axes X. U, Z and rotary vibrations around these axes) with vibration damping at resonance and under various operating conditions.

Claims (2)

1. Spring vibration isolator with a mesh damper containing a base, a cover and an elastic element located between them, the base is made in the form of a plate with mounting holes on which a support element is fixed through an intermediate vibration-damping element, and the elastic element is combined, consisting of a cylindrical mesh elastic-damping element covered by a cylindrical coil spring, the mesh elastic-damping element with the lower part resting on the supporting element of the base, and the upper - is fixed on the cover, and the coil spring rests on the base, covering its supporting element, and is fixed on the cover, the density of the mesh structure of the mesh elastic-damping element is in the optimal range of values: 1.2 g / cm ³ ÷ 2.0 g / cm ³ moreover, the material of the wire of the elastic mesh elements is EI-708 steel, and its diameter is in the optimal range of 0.09 mm ÷ 0.15 mm, the intermediate vibration damping element located between the support element and the base is made of polyurethane, cylindrical the th coil spring of the combined elastic element is made with the coating of its coils with a vibration damping material, for example polyurethane, characterized in that the coil spring comprises a housing made of a hollow and elastic steel tube, inside of which at least one additional elastic steel is installed coaxially and axisymmetrically with a gap a tube, and in the gaps between the tubes there is at least one friction element having a high coefficient of thermal expansion compared steel, the surfaces of the housing and the additional elastic steel tube are in contact with the surfaces of the friction elements, and their axis coincides with the axis of the turns of the housing, while the screw spring is centrally coaxial and axisymmetric to the housing, it is solid, the friction element is made in the form of granular filling from sintered friction material based on copper, which contains zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon in the following ratio, wt. %: zinc 6.0 ÷ 8.0; iron 0.1 ÷ 0.2; lead 2.0 ÷ 4.0; graphite 3.0 ÷ 7.0; vermiculite 8.0 ÷ 12.0; chrome 4.0 ÷ 6.0; antimony 0.05 ÷ 0.1; silicon 2.0 ÷ 3.0; copper is the rest. 2. Spring vibration isolator with a mesh damper according to claim 1, characterized in that the lower vibration damping plate is mounted through a polyurethane elastic gasket on a washer mesh damper that contains a base in the form of a plate with mounting holes, a mesh elastic element fixed by the upper and lower pressure washers while the upper pressure washer is connected to the elastic gasket of polyurethane, and the lower pressure washer is connected to the base, while the density of the mesh structure of the elastic mesh element is in 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 and the density of the mesh structure of the outer layers of the elastic mesh element is 1.5 times higher than the density of the mesh structure of the inner layers of the elastic mesh element.

Images