RU2282078C1 - Inertial vibration insulator - Google Patents

Abstract

FIELD: mechanical engineering; vibration insulation of technological equipment.

SUBSTANCE: proposed inertial vibration insulator has lever connected with base by means of articulation and flexible member. Base is made in form of horizontal web whose end is bent perpendicularly relative to its length and vertical strut. Vertical strut is made in form of closed box where web and lever are secured by means of screws; one end of lever is also bent perpendicularly relative to its length. Secured on other end of lever is object to be vibration insulated. Flexible member is located between horizontal web and lever.

EFFECT: enhanced efficiency of spatial vibration insulation through reduction of natural frequency of vibrations of object being vibration insulated.

3 cl, 2 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 lever-type 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 (USSR AS No. 1153144, CL F 16 F 15/02, 1983 - prototype).

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

The technical result of the invention is to increase 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 base is made in the form of a horizontal shelf, one of whose ends is bent perpendicular to its length, and a vertical strut made in the form of a closed box, in which by screws fixed by one of its ends, which are bent perpendicular to their length, is a horizontal shelf and a lever, one of whose ends is also bent perpendicular to its length, and is attached to the other end of the lever ibroizoliruemy object by the fixing device, and an elastic member disposed between the horizontal flange and lever, and the lever at the point of contact with the elastic member formed ribs, the inner surface of the duct in contact with the horizontal flange and the lever is formed in a triangular sectional profile.

Figure 1 shows a General view of the proposed inertia vibration isolator, and figure 2 is a view a of figure 1.

The inertial vibration isolator contains a base 2 made in the form of a horizontal shelf, one of the ends of which is bent perpendicular to its length, and a vertical strut 5, made in the form of a closed box, in which, by means of screws 6, one of its ends is fixed, which are bent perpendicular to their length, horizontal shelf 2 and lever 1, one end of which is also bent perpendicular to its length, and a vibroinsulated object 4 is attached to the other end of the lever by means of a fixing device 3, and the elastic element 7 is placed m forward horizontal shelf 2 and lever 1. On the arm 1, at the point of contact with the elastic element 7, made ribs 8. The inner surface of the box 5, in contact with the horizontal flange 2 and lever 1 is made triangular in cross section.

Vibration isolator works as follows.

The natural frequency of oscillations of the system is determined by the mass of the vibration-insulated object 4 and the ratio of the arms of the lever 1 from the axis of the elastic element 7 to the axis of the load from the vibration-insulated object 4, as well as from the axis of the elastic element 7 and the axis of the box 5. This arrangement of the elastic element 7 reduces the rigidity of the vibration isolator in in general, since the displacement of the object is so many times greater than the displacement of the upper flange of the elastic element 7, how many times is the ratio of the lever arms from the axis of load application to the axis of the box 5 and from the axis of vibrations insulated object 4 to the axis of the elastic member 7. Fixing vibroizoliruemogo object 4 to the arm 1 by means of a resilient locking device 3.

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

Claims (3)

1. An inertial vibration isolator comprising a lever connected to the base by means of a hinge and an elastic element, characterized in that the base is made in the form of a horizontal shelf, one of the ends of which is bent perpendicular to its length, and a vertical strut made in the form of a closed box, in which by screws one of its ends, which are bent perpendicular to their length, is fixed, a horizontal shelf and a lever, one of whose ends is also bent perpendicular to its length, and a vibration is attached to the other end of the lever the object to be insulated by means of a fixing device, and the elastic element is placed between the horizontal shelf and the lever. 2. The inertial vibration isolator according to claim 1, characterized in that the stiffeners are made on the lever in place of its contact with the elastic element. 3. The inertial vibration isolator according to claim 1, characterized in that the inner surface of the box at the point of contact with the horizontal shelf and the lever is made in the cross section of a triangular profile.

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