RU2267039C1 - Spring vibration insulator - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: vibration insulator comprises base pillar, spring flexible members, and bearing units. The cross-section of the spring flexible member is variable in the plane parallel to the base. The area of the cross-section increases from the bearing unit that bears the object to be isolated to the pillar that rigidly receives the other end of the flexible member. The sides of the flexible member are bounded by straight lines inclined at an acute angle to the axis of the flexible unit. The bearing unit is made of a bushing The rod for securing the object to be isolated is rigidly connected with the bushing. The inner surface of the bushing is in a contact with the free end of the flexible member whose cross-section is round, square, or rectangular. The bushing movements are arrested by the stop made of a conical pin.

EFFECT: improved vibration insulation.

3 cl, 3 dwg

Description

The invention relates to mechanical engineering and can be used to protect process equipment from vibration.

The closest technical solution to the claimed object is a spring vibration isolator containing a base, a stand, spring elastic elements and support nodes according to a.s. USSR No. 1590759, F 16 F 7/08 from 12.29.88.

The disadvantage of the known device is the relatively low efficiency of vibration isolation when changing the mass of the vibration insulated object.

The aim of the invention is to increase the efficiency of vibration isolation by ensuring equal frequency.

This is achieved by the fact that in the spring vibration isolator containing the base, stand, spring elastic elements and support nodes, the spring type elastic element is made of variable cross-section in a plane parallel to the base, and the cross-sectional area increases from the support node on which the vibration-insulated object is attached to the stand , in which the other end of the elastic element is rigidly fixed, the sides of the elastic element being limited by straight lines running at an acute angle to the axis of the elastic element. Variants are possible when the lateral sides of the elastic element are bounded by curved lines of the second order or “n” th order, which are designed to reduce the cross section of the elastic element in the direction of the support node on which the vibration-insulated object is mounted. The support node is made in the form of a sleeve, to which a rod for fastening a vibration-insulated object is rigidly attached, and the inner surface of the sleeve is in contact with the free end of the elastic element made of round, square, or rectangular section, and the movement of the sleeve is limited by a stop in the form of a conical pin.

Figure 1 shows a General view of the vibration isolator spring equal frequency (top view), figure 2 is a section aa of the support node, figure 3 is an embodiment of the profile of the elastic element.

The equal-frequency spring vibration isolator contains a base (not shown in the drawing), a strut 2, a spring type elastic element 1 and a support unit 3. The spring type elastic element is made of variable section in a plane parallel to the base, and the cross-sectional area increases from the support unit 3 on which it is attached vibration-insulated object to the rack 2, in which the other end of the elastic element is rigidly fixed. The lateral sides of the elastic element are bounded by straight lines running at an acute angle to the axis of the elastic element. Variants are possible when the lateral sides of the elastic element are bounded by curved lines of the second order or "n" th order, which are designed to reduce the cross section of the elastic element in the direction of the support node on which the vibration-insulated object is mounted. The support node is made in the form of a sleeve 3, to which the rod 6 is rigidly attached for attaching a vibration-insulated object, and the inner surface of the sleeve is in contact with the free end 4 of the elastic element made of round, or square, or rectangular cross-section. The movement of the sleeve 4 is limited by the stop 5 in the form of a conical pin.

Vibration isolator spring equal-frequency operates as follows.

When forced vibrations of a vibroinsulated object (not shown in the drawing), a dynamic reaction occurs, which is damped by an elastic element 1 of the spring type, which is also a guiding device for vertical movements of the vibroisolated object. The equilibrium frequency of the dynamic properties of the vibration isolator is ensured by making the spring element have a section in the plane parallel to the base, and the section area increases from the support unit 3, on which the vibration-insulated object is attached to the post 2, in which the other end of the elastic element is rigidly fixed.

Claims (4)

1. Vibration isolator spring equifrequency, containing a base, stand, spring elastic element and a support node, characterized in that the spring elastic type element is made of variable section in a plane parallel to the base, and the cross-sectional area increases from the reference node on which the vibration-insulated object is mounted, to the rack, in which the other end of the elastic element is rigidly fixed. 2. Equal-spring spring isolator according to claim 1, characterized in that the sides of the elastic element are bounded by straight lines running at an acute angle to the axis of the elastic element. 3. The equal-spring spring isolator according to claim 1, characterized in that the lateral sides of the elastic element are limited by curved lines of the second order or n-th order, which are designed to reduce the cross-section of the elastic element in the direction of the support node on which the vibration-isolating object is mounted. 4. Equal-spring spring isolator according to claim 1, characterized in that the support node is made in the form of a sleeve, to which a rod for fastening a vibration-insulated object is rigidly attached, and the inner surface of the sleeve is in contact with the free end of the elastic element, made round, or square, or rectangular section, and the movement of the sleeve is limited by the emphasis in the form of a conical pin.

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