RU2298123C1 - Inertia vibration insulator - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: vibration insulator comprises lever connected with the base through pivot and flexible member. The flexible member is made of cylindrical screw spring interposed between the axis of the pivot and the axis of the load applied from the object to be isolate. The other end of the lever is provided with object to be insulated that is secured to it by means of a flexible member made of centering flexible bushing made of elastomer and set in the openings in the lever. The bushing receives the screw that locks the object with respect to the vibration insulator.

EFFECT: improved vibration insulation.

1 cl, 1 dwg

Description

The invention relates to general engineering, in particular to means of vibration isolation of stationary technological equipment.

The closest technical solution in terms of technical nature and the achieved result is an inertial vibration isolator containing a lever connected to the base via a hinge and elastic coupling, an additional mass fixed at one of its ends and a shock absorber connecting the lever with a vibration-insulated object (RF Application No. 94008167, F16F 15 / 02, 1995 - prototype).

The disadvantage of the prototype is the relatively low efficiency of vibration isolation.

The technical result is an increase in the efficiency of spatial vibration isolation by reducing the natural frequency of vibrations of a vibroisolated object.

This is achieved by the fact that in an inertial vibration isolator containing a lever connected to the base by means of a hinge and an elastic element, the elastic element is made in the form of a coil spring located between the axis of the hinge and the axis of application of the load on the lever from the side of the vibration-insulated object, at the other end of the lever the vibration-insulated object is fixed by means of a fixing elastic element made in the form of a centering elastic sleeve made of an elastomer located in the hole of the lever, inside of which passes a screw that fixes the vibration-insulated object on the vibration isolator and of the elastic support bushings of an elastomer located opposite the centering sleeve and at the same time in contact with the surfaces of the sleeve and the support surfaces of the lever, and the distances between the axes of the coil spring, the hinge axis and the axis of application of the load on the lever from the side of the vibration-insulated object, are in the optimal ratio: L ₁ : L ₂ = 3: 1, where

L ₁ - the distance between the axis of the coil spring and the axis of application of the load on the lever from the side of the vibration-insulated object. L ₂ is the distance between the axis of the coil spring and the axis of the hinge; moreover, the lever can be made elastic, for example from a leaf spring.

The drawing shows a General view of the proposed vibration isolator.

The inertial vibration isolator contains a base 1 made in the form of a horizontal shelf and a vertical strut 2, on which a lever 4 is fastened by a hinge 3 and rests on one of its ends, resting on a coil spring 7 located between the axis of the hinge 3 and the axis of application of the load on the lever 4 from the side vibration-insulated object 5. On the other end of the lever 4 is mounted a vibration-insulated object 5 by means of a fixing elastic element 6, made in the form of a centering elastic sleeve 8 made of elast located in the hole of the lever 4 a measure within which a screw 9 passes, fixing a vibration-isolating object on a vibration isolator and supporting elastic bushings 10 of an elastomer located opposite the centering sleeve 8 and simultaneously contacting the surfaces of the sleeve 8 and the supporting surfaces of the lever 4. The lever 4 can be made elastic, for example, from a leaf spring . The distances between the axes of the coil spring 7, the axis of the hinge 3 and the axis of application of the load on the lever 4 from the side of the vibration-insulated object 5, are in the optimal ratio: L ₁ : L ₂ = 3: 1, where

L ₁ - the distance between the axis of the coil spring and the axis of application of the load on the lever from the side of the vibration insulated object;

L ₂ - the distance between the axis of the coil spring and the axis of the hinge.

Vibration isolator works as follows.

The natural vibration frequency of the system is determined by the mass M of the vibration-insulated object 5 and the ratio of the arms of the lever 4 from the axis of the hinge 3 to the axis of the coil spring 7 (L ₂ ), as well as from the axis of the load on the lever 4 from the side of the vibration-insulated object 5 to the axis of the coil spring 7 (L ₁ ). This arrangement of the coil spring 7 reduces the rigidity of the vibration isolator as a whole. The fastening of the vibration-insulated object 5 with the help of a fixing elastic element 6 provides spatial vibration isolation of the object 5 at high frequencies.

The proposed design of the vibration isolator is effective, easy to manufacture and reliable in operation.

Claims (2)

1. An inertial vibration isolator comprising a lever connected to the base by means of a hinge and an elastic element, an elastic element made in the form of a coil spring located between the axis of the hinge and the axis of application of the load on the lever from the side of the vibration-insulated object, while the vibration-insulated object is attached to the other end of the lever by means of a fixing elastic element, made in the form of a centering elastic sleeve made of an elastomer located in the hole of the lever, inside of which a screw passes insulated object on the vibration isolator, and supporting elastic sleeves from an elastomer located opposite the centering elastic sleeve and simultaneously contacting the surfaces of the centering elastic sleeve and the supporting surfaces of the lever, characterized in that the distances between the axes of the coil spring, the axis of the hinge and the axis of application of the load on the lever with the sides of the vibration-insulated object are in the optimal ratio L ₁ : L ₂ = 3: 1, where L ₁ is the distance between the axis of the coil spring and the axis of application of the load on the lever from the side of the vibration insulated object; L ₂ - the distance between the axis of the coil spring and the axis of the hinge. 2. The inertial vibration isolator according to claim 1, characterized in that the lever is made elastic, for example, from a leaf spring.