RU2577735C1 - Mesh vibration isolator pendulum - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: vibration isolator includes a housing, an elastic element and a pendulum suspension. On the base there are installed two parallelly connected elastic elements located between the top cover and the base. Elastic element comprises a spring with a built-in damper and coaxially located inside or outside the spring bushing of voluminous mesh interweaving. Spring is a screw cylindrical one and consists of two parts with on-coming ends. First part of the spring has turns of rectangular section with rounded edges and the second part is hollow. On-coming end of the first part is located in the cavity of the second part. Gaps of segment profile of contacting spring parts are filled by antifriction grease. Sealing gasket is mounted at the end of the second spring part to prevent grease leakage. First part of the screw spring is embraced by a tube of damping material, for example, polyurethane.

EFFECT: higher efficiency of vibration isolation.

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 vibration isolator according to the patent of the Russian Federation No. 22585842, F16F 15/06 (prototype) containing an elastic element, one end of which rests on the housing, and the other interacts with a pendulum mechanism made in the form of a hinged suspension.

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

The technical result is an increase in the effectiveness of vibration isolation.

This is achieved by the fact that in a mesh pendulum vibration isolator containing a housing, an elastic element, a pendulum suspension, two parallel and coaxially located elastic elements are installed on the base, located between the top cover and the base, in the form of a spring element and an elastic element in the form of a coaxially located sleeve from a volumetric mesh weave placed inside or outside the spring element, which is made in the form of a spring with a built-in damper containing a coil spring inu, consisting of two parts with opposite ends, one part of which has turns of rectangular cross section, and the other part of the spring is hollow, while the opposite direction of the first part is placed in the second cavity, the gaps of the segment profile of the contact parts of the spring are filled with antifriction grease, at the end of the second part of the spring, a sealing collar is installed to prevent lubricant leakage, and the first part of the coil spring, made with coils of rectangular cross section with rounded edges s, covers tube damping material, such as polyurethane, the ratio of the outer diameter D of the elastic mesh member is in the optimal range of values to height H: 0,73 ... 1,05; moreover, the density of the mesh structure of the elastic mesh elements is in the optimal range of values of 1.2 ... 2.0 g / cm ³ and the material of the wire of the elastic mesh elements is steel EI-708, and its diameter is in the optimal range of 0.09 ... 0 , 15 mm, and the ratio of the outer diameter D of the spring element to the diameter of its wire is in the optimal range of values: 6.5 ... 13.6.

In FIG. 1 shows a frontal section of a vibration isolator; FIG. 2 shows an embodiment of an elastic element; FIG. 3 is an embodiment of a spring element in the form of a spring with a built-in damper.

The vibrational mesh pendulum isolator comprises a housing 1, an elastic element 7, a pendulum suspension 9. On the base 4, two parallel and coaxially located elastic elements 6 and 7 are installed, located between the top cover 8 and the base 4, in the form of a spring element 6 and an elastic element 7 in in the form of a coaxially located sleeve from a volumetric mesh weave placed inside or outside the spring element.

The ratio of the outer diameter D of the elastic mesh element to its height H is in the optimal range of values: 0.73 ... 1.05; moreover, the density of the mesh structure of the elastic mesh elements is in the optimal range of values of 1.2 ... 2.0 g / cm ³ and the material of the wire of the elastic mesh elements is steel EI-708, and its diameter is in the optimal range of 0.09 ... 0 , 15 mm. The ratio of the outer diameter D of the spring element to the diameter of its wire is in the optimal range of values: 6.5 ... 13.6.

The spring with a built-in damper (Fig. 3) contains a cylindrical coil spring, consisting of two parts 13 and 14 with opposite ends 16 and 15 of the corresponding turns of these springs. On the support coils of the spring, support rings 11 and 12 are made for strong and reliable fixation of the ends of the springs during their operation.

The first part of the coil spring 13 is made with coils of rectangular (or square) section with rounded edges, and the second part 14 of the spring is hollow, for example of circular cross section, while the counter-directed end 16 of the first part of the spring is placed in the cavity of the counter-directed second part of the spring with the end 15 while its second end, mounted on the support ring 12, is sealed, for example with a screw plug (not shown).

In the cavity of the second spring part 14, made of a hollow circular cross section, formed on four sides, relative to the rectangular section of the first spring part 13, the gaps 17 of the segment profile in a section perpendicular to the axis of the contacting parts 13 and 14 of the spring.

For better adjustment of the spring stiffness (without scuffing, jamming or jamming), the gaps 17 of the segment profile of the contacting parts 13 and 14 of the spring are filled with antifriction grease, for example, viscous "solid oil" type, and a sealing lip is installed at the end 15 of the second spring part (not shown in the drawing ) to prevent leakage (loss) of lubricant. This design is a kind of viscous friction damper with an extended throttle element in the form of gaps 17 of the segment profile of the contacting parts 13 and 14 of the spring, which in this case will be analogs of the piston-cylinder system, respectively.

The first part 13 of a coil spring, made with coils of rectangular (or square) section with rounded edges, is covered by a tube 18 of damping material, for example polyurethane, which creates friction in the vibration protection system, the value of which increases when the system approaches the resonant mode, which is analogous to dry friction damper.

A spring with a built-in damper works as follows.

The spring stiffness is adjusted by shortening or lengthening the spring height. When the support rings 11 and 12 rotate, the spring coils move relative to each other in mutually opposite directions relative to the longitudinal axis of the spring, i.e. screwed in or out. In the first case (when screwing in), the stiffness of the spring increases, and in the second case (when unscrewing) it decreases, which makes it easier to adjust the stiffness of the spring.

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

Vibration isolator works as follows.

With vibrations of the vibration-insulated object mounted on the plate 11, the elastic mesh element 7 and the spring element 6 are taken together with the pendulum mechanism 9 both vertical and horizontal loads, thereby weakening the dynamic effect on the building floor, i.e. spatial vibration protection and shock protection are provided. Varying the density of the mesh structure of the elastic mesh element 7, it is possible, within certain limits, to adjust the resonant frequency of the vibration isolator.

The vibration isolator is a universal shock-absorbing device that allows you to work both in power vibration isolation mode and kinematic, as well as in vibration shock mode.

Claims (1)

A vibrational mesh pendulum isolator comprising a housing, an elastic element, a pendulum suspension, and two parallel and coaxially located elastic elements located between the top cover and the base, in the form of a spring element and an elastic element in the form of a coaxially located bulk mesh weave, placed inside or outside the spring element, which is made in the form of a spring with a built-in damper containing a cylindrical helical spring, consisting of two parts th with opposite ends, one part of which has coils of rectangular cross section, and the other part of the spring is hollow, while the opposite direction of the first part is placed in the cavity of the second, the gaps of the segment profile of the contact parts of the spring are filled with antifriction grease, while at the end of the second part springs installed sealing cuff to prevent lubricant leakage, and the first part of the coil spring, made with coils of rectangular cross section with rounded edges, covers a tube of a damping material, for example polyurethane, characterized in that the ratio of the outer diameter D of the elastic mesh element to its height H is in the optimal range of values: 0.73 ... 1.05; moreover, the density of the mesh structure of the elastic mesh elements is in the optimal range of values of 1.2 ... 2.0 g / cm ³ , the material of the wire of the elastic mesh elements is steel grade EI-708, its diameter is in the optimal range of 0.09 ... 0.15 mm, and the ratio of the outer diameter D of the spring element to the diameter of its wire is in the optimal range of values: 6.5 ... 13.6.

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