RU138848U1 - VIBRATION ISOLATOR FOR FOUNDATIONS OF BUILDINGS OPERATING IN SEISMICALLY DANGEROUS AREAS - Google Patents

Abstract

1. A vibration isolator for the foundations of buildings operating in seismically hazardous areas, comprising a housing, base, elastic element, lower and upper limiters of the course of the elastic element made of elastomer, and a threaded sleeve connecting the elastic element with a vibration-insulated object, the housing is rigidly connected to the base, made in the form of a round thrust bearing, on which the lower cylindrical elastic-damping element of elastomer with an axial cylinder-conical hole rests, which functions as the lower spring travel limiter the axis of which is perpendicular to the base, while the spring interacts with the upper and lower travel stops through the lower support cup and the upper female spring, a cover that is rigidly connected to the axisymmetric spring by a threaded sleeve, and the upper spring travel limiter is fixed on the cover, made in the form of a cylindrical a sleeve covering the top of the cover, while the upper stop serves as the upper elastomeric damping element and is made of elastomer, and a screw is fixed in the threaded sleeve for connecting the elastic an element with a vibroinsulated object, while the housing in the upper part is connected to the lid, on the end surface of which, facing the vibroisolated object, an elastic limiter of the dynamic movement of the object is made of elastomer, and a hole is made in the lid perpendicular to its axis for injection into the lubrication system viscous material, for example solid oil, and in the axial cylindrical-conical hole of the lower cylindrical elastic-damping element of elastomer coaxially between themselves and coaxially to the housing

Description

The invention relates to the protection of buildings and structures from seismic load.

The closest technical solution to the claimed object is a technical solution according to the patent of the Russian Federation No. 129584 dated 06/27/13 (prototype), comprising a housing, base, elastic element, lower and upper limiters of the course of the elastic element made of elastomer, and a threaded sleeve connecting the elastic element with a vibroinsulated object.

The disadvantage of the prototype is the relatively low efficiency of vibration isolation due to insufficient viscous damping.

The technical result is an increase in the efficiency of vibration isolation by increasing the damping of vibrations at low frequencies while maintaining the dimensions of the vibration isolation.

This is achieved by the fact that in a vibration isolator comprising a body, a base, an elastic element, lower and upper limiters of the course of the elastic element made of elastomer, and a threaded sleeve connecting the elastic element with a vibration-insulated object, the body is rigidly connected to the base, made in the form of a round thrust bearing on which the lower cylindrical elastic damping element of elastomer with an axial cylinder-conical hole rests, which acts as a lower spring travel stopper, the axis of which is perpendicular to the base In this case, the spring interacts with the upper and lower stroke limiters through the lower support cup and the upper cover covering the spring, which is rigidly connected to the axisymmetric spring by a threaded sleeve, and the upper spring travel limiter is fixed on the cover, made in the form of a cylindrical sleeve covering the top a cover, while the upper limiter serves as the upper elastic damping element and is made of elastomer, and a screw is fixed in the threaded sleeve for connecting the elastic element with a vibration-isolating object while the housing in the upper part is connected to the lid, on the end surface of which, facing the vibration-insulated object, an elastic limiter of the dynamic course of the object is made of elastomer, and a hole is made in the lid perpendicular to its axis to inject viscous lubricant into the system , for example, a solid oil, and inside the spring, coaxially to it, an elastomer damper is placed.

In FIG. 1 shows a frontal section of a vibration isolator for the foundations of buildings operating in seismically hazardous areas, FIG. 2 shows a general view of a rubber damper with a cylindrical elastomer; in FIG. 3 shows a general view of a rubber damper with a corrugated elastomer.

The vibration isolator for the foundations of buildings operating in seismically hazardous areas contains a housing 8 (Fig. 1), rigidly connected to the base 1, made in the form of a round thrust bearing, on which the lower cylindrical elastic damping element 4 of an elastomer with an axial cylindrical-conical hole 2 is supported performing the functions of the lower limiter of the stroke of the spring 12. Inside the spring, coaxially to it, a damper made of elastomer is placed (Fig. 2-3).

The elastic element of the vibration isolator is made of a spring 12, the axis of which is perpendicular to the base 1. The spring 12 interacts with the upper and lower limiters of the stroke through the lower support cup 13 and the upper covering spring, cover 9, which is rigidly connected to the axisymmetric spring 12 by a threaded sleeve 6. On the cover 9 the upper limiter of the spring travel 12 is fixed, made in the form of a cylindrical sleeve 5, covering the cover 9 from above. The upper limiter serves as the upper elastic-damping element and is made of elastomer. A screw 7 is fixed in the threaded sleeve 6 for connecting the elastic element with a vibration-insulated object (not shown in the drawing). The housing 8 in the upper part is connected to the cover 10, on the end surface of which, facing the vibration-insulated object, an elastic limiter 11 of the dynamic course of the object is made of elastomer. In the lid 10, perpendicular to its axis, a hole 3 is made for injection into the system of a viscous lubricant, for example, solid oil.

In the axial cylindrical-conical hole 2 of the lower cylindrical elastic damping element 4 of elastomer coaxially with each other and coaxially to the housing, there are two additional damping elements, one of which, having the form of a cylindrical-conical sleeve 14, is made of polyurethane, and the other 15 located inside the first, and having a cylindrical shape, is made of an elastic mesh element. The density of the mesh structure of the elastic mesh element is in the optimal range of 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 damper of elastomer (Fig. 2-3) contains a housing that is made in the form of two opposed flanges 16 and 17, having a shape congruent to the shape of the supporting surfaces of the elastomer 18, and rigidly connected with the elastomer, and the fastening elements 19 and 20 are fixed on the flanges in the form of threaded rods located perpendicular to the flanges 16 and 17 and coaxially to the elastomer 18, and the profile of the lateral surface of the elastomer is made hyperbolic in the form of a bar of equal resistance having constant stiffness in the axial and transverse directions, which It ensures equal frequency of the elastic element isolator in all directions. The profile of the lateral surface of the elastomer can be made cylindrical (Fig. 2) or conical (not shown in the drawing). In addition, the profile of the lateral surface of the elastomer can be made corrugated (Fig. 3). The ratio of the height of the vibration isolator h to the diameter D of the supporting surface of the elastomer is in the optimal ratio of values: h / D = 0.45 ... 1.55.

Vibration isolator for the foundations of buildings operating in seismically hazardous areas, works as follows.

When a static load is applied to the object, it falls down, compressing the spring 12, which perceives vertical loads, thereby weakening the dynamic effect on the base 1, installed on the floor of the building or chassis of the vehicle (not shown). Nonlinear damping in the system is due to the presence of the lower 4 and upper 5 stroke limiters of the spring 12, made of elastomer. Horizontal vibrations are damped due to the unrestricted (with a gap) location of the lower support cup 13 of the spring 12 and the upper cover of the spring 9.

Two additional damping elements 14 and 15, respectively made of polyurethane, and a mesh structure contribute to the expansion of the frequency range of quenching of seismic waves, and increase the efficiency of protection of buildings from seismic shocks.

When a dynamic load is applied from the side of the object, for example, operating equipment, the vibration is damped by the spring 12 and elastic-damping elements 4 and 5, the rigidity of which is calculated for the operation of the complex system "overlap-elastic elements-object" in the resonance mode.

Damper from elastomer works as follows.

With vibrations of the vibration-insulated object, the elastomer 18 perceives vertical loads, thereby weakening the dynamic effect. Horizontal vibrations are damped due to the unrestricted location of the elastomer, which gives it a certain degree of freedom of vibrations in the horizontal plane. The profile of the lateral surfaces of the elastomer is hyperbolic in the form of a bar of equal resistance, which has constant stiffness in the axial and transverse directions, ensures equal strength, equal frequency and economy of the elastomer, for example, rubber or polyurethane. Due to the opposite arrangement of flanges 16 and 17, the installation and operation of the vibration isolation system as a whole is simplified.

The proposed technical solution is an effective vibration-protective tool that can be used to protect buildings and structures from seismic load.

Claims (2)

1. A vibration isolator for the foundations of buildings operating in seismically hazardous areas, comprising a housing, base, elastic element, lower and upper limiters of the course of the elastic element made of elastomer, and a threaded sleeve connecting the elastic element with a vibration-insulated object, the housing is rigidly connected to the base, made in the form of a round thrust bearing, on which the lower cylindrical elastic-damping element of elastomer with an axial cylinder-conical hole rests, which functions as the lower spring travel limiter the axis of which is perpendicular to the base, while the spring interacts with the upper and lower travel stops through the lower support cup and the upper female spring, a cover that is rigidly connected to the axisymmetric spring by a threaded sleeve, and the upper spring travel limiter is fixed on the cover, made in the form of a cylindrical a sleeve covering the top of the cover, while the upper stop serves as the upper elastomeric damping element and is made of elastomer, and a screw is fixed in the threaded sleeve for connecting the elastic an element with a vibration-insulated object, while the housing in the upper part is connected to the lid, on the end surface of which, facing the vibration-insulated object, an elastic limiter of the dynamic movement of the object is made of elastomer, and a hole is made in the lid perpendicular to its axis for injection into the lubrication system viscous material, for example, solid oil, and in the axial cylindrical-conical hole of the lower cylindrical elastomeric damping element of elastomer coaxially between themselves and coaxially to the housing two additional damping elements are made, one of which, having the shape of a cylindrical-conical sleeve, is made of polyurethane, and the other, located inside the first and having a cylindrical shape, is made of an elastic mesh element, characterized in that an elastomer damper is coaxially placed inside the spring, wherein the damper body is made in the form of two opposed flanges having a shape congruent to the shape of the supporting surfaces of the elastomer, and rigidly connected with the elastomer, and e fastening elements in the form of threaded rods perpendicular to the flanges and coaxial to the elastomer, the profile of the side surface of the elastomer being hyperbolic in the form of a bar of equal resistance having constant stiffness in the axial and transverse directions, or the profile of the side surface of the elastomer is cylindrical or conical, or the profile of the side surface elastomer is made corrugated. 2. The vibration isolator for the foundations of buildings operating in seismically hazardous areas according to claim 1, characterized in that the ratio of the damper height h to the diameter D of the elastomer support surface is in the optimal ratio of values: h / D = 0.45, ..., 1.55.

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