RU2649671C1 - Vibratory insulator for earthquake-resistant buildings - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to protection of buildings and constructions against seismic loads. Vibration isolator for earthquake-proof buildings includes a housing, a base, an elastic member, a lower and upper travel stop of the elastic member made of an elastomer, and a threaded bushing connecting the resilient element with a vibration-insulated object. Body is rigidly connected to the base, made in the form of a circular thrust bearing on which is rests the lower cylindrical resilient damping element of an elastomer with an axial cylindrical hole, functioning as the lower limit of the spring travel, the axis of which is perpendicular to the base. Spring cooperates with the upper and lower travel limiters through the lower support cup and the upper spring covering cover, which is rigidly connected to the axisymmetric spring by a threaded bushing, and on the lid is fixed the upper spring travel stopper, made in the form of a cylindrical bushing covering the top of the lid. Upper limiter serves as the upper elastic-damping element and is made of elastomer, and in the threaded sleeve a screw is attached to connect the elastic element with the vibration-insulated object. Body in the upper part is connected to a cover, on the end face of which, facing the vibration-insulated object, an elastic limiter of the dynamic movement of the object, made of an elastomer, is fixed. Cover comprises an axially perpendicular hole for a ductile lubricant injection, e.g. solid oil, into the system. In the axial cylinder-conic hole of the lower cylindrical resilient damping element of the elastomer, coaxially with each other and coaxially located to the body there are two additional damping elements, one of which, in the form of a cylindrical cone, is made of polyurethane, and the other, located inside the first, and having a cylindrical shape, is made by an elastic mesh element. Inside the spring, coaxial to it, a cylindrical damper made of elastomer, for example polyurethane, is placed, a helical groove is provided on its cylindrical surface, equidistant to the helical spring surface of the spring. Between the contacting screw surfaces of the damper and spring there is a layer of lubricant, for example from solidol. Coil springs are covered with a layer of vibration damping material, for example polyurethane. Cylindrical damper made of elastomer is made hollow, in the form of a cylindrical sleeve, while the stiffness of the cylindrical damper is less than the spring stiffness. Additional damping element located in the axial cylindrical conical opening of the lower cylindrical resilient damping element, and having a cylindrical cone shape, is made of rigid vibrodamping material such as "Agate, Schwim".

EFFECT: technical result consists in increasing the efficiency of vibration isolation by increasing damping of the oscillations at low frequencies while maintaining the dimensions of the vibration isolator.

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Description

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

The closest technical solution to the claimed object is the technical solution according to the patent of the Russian Federation No. 138848 (prototype), containing 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 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 effectiveness of vibration isolation by increasing the damping of vibrations at low frequencies while maintaining the dimensions of the vibration isolator.

This is achieved by the fact that in a vibration isolator for earthquake-resistant buildings, comprising a housing, 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 housing is rigidly connected to the base made in in the form of a round thrust bearing, on which the lower cylindrical elastomer-damping element of elastomer with an axial cylinder-conical hole is supported, which functions as a lower spring travel stop, the axis of which perpendicular to the base, while the spring interacts with the upper and lower stroke limiters through the lower support cup and the upper spring covering cover, 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 a cover on top, while the upper limiter serves as the upper elasto-damping element and is made of elastomer, and a screw is fixed in the threaded sleeve for connecting the elastic element to with a waterproof object, while the case 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 into the lubricant system a viscous material, for example a solid oil, and inside the spring, coaxially to it, a damper made of an elastomer, for example polyurethane, is placed, and a helical groove is made on its cylindrical surface, equidistant Naya helical spring surface, and between the contacting surfaces of the screw and the damper spring is located layer of grease, for example grease.

The drawing shows a frontal section of a vibration isolator for earthquake-resistant buildings.

The vibration isolator for earthquake-resistant buildings contains a housing 8, rigidly connected to the base 1, made in the form of a round thrust bearing, on which a lower cylindrical elastic-damping element 4 of elastomer with an axial cylinder-conical hole 2, which functions as the lower limiter of the spring travel 12, is supported. Inside the spring, coaxially to it, An elastomer damper is placed.

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 travel stops through the lower support cup 13 and the upper cover covering the spring 9, which is rigidly connected to the axisymmetric spring 12 by a threaded sleeve 6. On the cover 9 is fixed the upper limiter of the stroke of the spring 12, made in the form of a cylindrical sleeve 5, covering the top of the cover 9. 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 cylinder-conical hole 2 of the lower cylindrical elastic-damping element 4 of elastomer, two additional damping elements are located coaxially with each other and coaxially to the body, one of which, having the form of a cylinder-conical sleeve 14, is made of polyurethane, and the other 15, located inside the first, and having cylindrical shape, made by 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.

Inside the spring, coaxially to it, a cylindrical damper made of an elastomer, for example polyurethane, is placed, while on its cylindrical surface there is a helical groove equidistant to the helical surface of the spring 12, and between the contacting screw surfaces of the damper and the spring there is a lubricant layer, for example of solid oil.

It is possible that the coils of the spring 12 are coated with a layer of vibration damping material, for example polyurethane, and the cylindrical damper made of elastomer is hollow (not shown in the drawing), in the form of a cylindrical sleeve, while the stiffness of the cylindrical damper is less than the stiffness of the spring 12.

Vibration isolator for earthquake-resistant buildings 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 the 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) arrangement of the lower support cup 13 of the spring 12 and the upper cover 9 covering the spring.

Two additional damping elements 14 and 15, made of polyurethane and mesh, respectively, 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 the 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.

It is possible that an additional damping element 14, located in the axial cylinder-conical hole 2 of the lower cylindrical elastic-damping element 4, and having the shape in the form of a cylinder-conical sleeve, is made of a rigid vibro-damping material of the type "Agate, Shvim".

It is possible that an additional damping element 15, located inside the damping element 14, in the form of a cylindrical conical sleeve, is made elastic, in the form of a cylindrical coil spring, the stiffness of which is greater than the stiffness of the damping element 14 having the shape of a cylindrical conical sleeve.

Claims (1)

A vibration isolator for earthquake-resistant buildings, comprising a housing, 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 housing is rigidly connected to the base, made in the form of a round thrust bearing, onto which the lower cylindrical elastomer-damping element of elastomer with an axial cylindrical conical hole is supported, which acts as a lower spring travel stopper, the axis of which is perpendicular to the base wherein the spring interacts with the upper and lower limiters of the stroke 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 limiter of the spring travel is fixed on the cover, made in the form of a cylindrical sleeve covering the top of the cover, 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 to a vibration-insulated object, this case in the upper part is connected to the lid, on the end surface of which, facing the vibration-insulated object, is fixed an elastic limiter of the dynamic course of the object made of elastomer, and in the lid, perpendicular to its axis, a hole is made for injecting viscous lubricant into the system, for example solidol, and in the axial cylindrical-conical hole of the lower cylindrical elastic-damping element of elastomer, two additional damping elements are located coaxially between themselves and coaxially to the body elements, 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, inside the spring, coaxially placed a cylindrical damper made of elastomer, for example polyurethane, in this case, a helical groove is made on its cylindrical surface, which is equidistant to the helical surface of the spring, and between the contacting screw surfaces of the damper and the spring there is a lubricant layer, e.g. moreover, the coil of the spring is covered with a layer of vibration damping material, for example polyurethane, and the cylindrical damper made of elastomer is hollow in the form of a cylindrical sleeve, while the stiffness of the cylindrical damper is less than the stiffness of the spring, characterized in that the additional damping element located in the axial cylindrical hole of the lower cylindrical elastic damping element, and having a shape in the form of a cylindrical-conical sleeve, made of hard vibration-damping material of the type "Agate, Shvim".

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