SU1756690A1 - Vibroinsulating device - Google Patents

Abstract

Use: engineering, protection of highly sensitive electronic equipment. SUMMARY OF THE INVENTION: The device comprises a base, a plate and vibration isolators located between them. Limiters are made in the form of racks installed respectively on the plate and the base with an axial gap between the opposite racks. Racks in pairs are oriented mutually perpendicular. Elastic rods tie the opposing stands. Elastic washers are put on elastic rods. 2 Il.

Description

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The invention relates to mechanical engineering and can be used to protect highly sensitive electronic equipment from vibration and shock both during operation and transportation, as well as to protect vibration isolators from overload in various extreme conditions, for example, on ships during a storm, on airplanes. during takeoffs and landings.

A vibroprotection device is known that contains a base and a plate mold, vibration isolators mounted between them, consisting of elastic elements placed between the supports, and hinges, and the device is equipped with bearing 1 mounted on the platform and rotatably mounted by universal joints and two-arm levers fixed on forks of universal and arniovs and connected with each other by means of hinges forming a closed loop, one of the supports of each vibration isolator is fixed on the other is rigidly connected to the free plug of the universal joint flj.

A disadvantage of the known construction is the lack of protection of vibration isolators from overloads.

Closest to the present invention is a device for unloading shock absorbers, comprising a discharge screw mounted on two supports, parallel to the cushioning plate and having a right-hand one at one end, a left-hand thread at the other for interacting with the stops, and the stops are rotatably mounted about an axis, perpendicular to the axis of the screw and parallel to the damping plate, and made in the form of levers, each having a fork with eyelets at each end, the axis of which

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ABOUT

parallel to the axis of the screw, the surface of the cushioning plate is made with protrusions for engagement with rollers having a groove, the axis of which is parallel to the axis of the screw and the width is equal to the width of the lug levers for interacting with screw thread 2 7.

The disadvantages of the known device are the complexity of the design, the lack of vibration protection during transportation of equipment, which requires the use of additional vibration protection devices, the lack of protection of the system from overloads in the working position, which can lead to failure of shock absorbers.

The aim of the invention is to improve the reliability and efficiency of the device during operation and transportation.

The goal is achieved by the fact that a vibration isolating device containing a base, a plate for mounting the protected object, vibration isolators between them, and limiters, each of the limiters are made in the form of a rack, installed in pairs, respectively, on the base and the plate with an axial clearance between the opposite racks and pairs are oriented mutually perpendicular, and a hole is made in one of the uprights, and the device is equipped with elastic rods, one end of each of which is fixed on one rack, and the other is mounted with radial clearance in the hole another rack, elastic washers, clad on each resilient rod, each having a thickness less than the axial clearance between the uprights.

FIG. 1 shows the proposed vibration isolation device, side view; in fig. 2 is a section A-A in FIG. one.

The anti-vibration device comprises a base 1 connected to the plate 2 carrying the object to be protected, for example, radio-electronic equipment, vibration isolators 3, and limiters 4-7. Each of the stops consists of racks 8 and 9 fixed respectively on the base 1 and plate 2, an elastic rod 10 made, for example, from a steel cable segment, one end of which is rigidly fixed in the rack 8, to the other free end located in the hole of the rack 9 with a radial gap Si. Racks 8 and 9 are installed with a gap Sa among themselves, in which an elastic washer 11 is installed on the elastic rod 10, the thickness of which is less than the gap $ 2. providing clearance 5h. The stops 47 are installed in such a way that the axes of the diagonally arranged elastic rods 10 are parallel to each other and the neighboring ones are perpendicular.

Anti-vibration device operates as follows.

When acting on a vibration-insulating device of spatial vibration, when the amplitude of relative vibrations

0 plate 2 in any of the coordinate directions does not exceed the size of the gaps Si and 5h, dynamic loads perceive vibration insulators 3, thus ensuring effective damping of spatial

5 vibrations. The magnitudes of the gaps Si and Z3 are assigned on the basis of the permissible dynamic strains for vibration insulators 3 installed in the device in the vertical and horizontal directions. With

0 equality of admissible dynamic deformations of vibration isolators 3 in all directions, the gaps Si and Z3 are equal. If the dynamic deformation of the vibration insulators 3 is permissible in the vertical direction more than in the horizontal directions, then the Si 5z gap is taken, otherwise, the Si gap.

With increasing amplitudes of relative oscillations to values exceeding

0 the gaps are Si and 5h, which takes place at the resonance and under shock loading of plate 2, the loading of limit stops 4–7 occurs. Equivalent stiffness of the system increases, leading to its self-tuning from

5 resonant frequency and limiting dynamic deformations of vibration isolators. At this, if the loading occurs in the vertical direction, the elastic rods 10 of all the stops 4-7 work. With

0 loading the device in the horizontal direction, there are three options for the operation of the limiters. If the gap. then there are elastic rods 10 of two diagonally positioned stoppers,

5 axes which are perpendicular to the direction of action of the load, and at the same time elastic washers 11 of two other diagonally positioned stoppers. If the gap is S3, then the deformations of the vibration isolators are limited by elastic washers

0 11, the axes of the elastic rods 10, on which they are mounted, are directed along the load. When the gap S3z3, the deformation of the vibration insulators 3 is first limited by elastic rods 10 of diagonally positioned stops, the axes of which are located perpendicular to the direction of the load. 8 then successive elastic washers 11 diagonally positioned stoppers. the axes of which are directed along the load.

Thus, the maximum dynamic deformations of the vibration insulators 3 are limited by the size of the Si gap, in the vertical direction by the size of the Si or 8h gap - in the horizontal, which keeps the vibration isolators 3 operable and provides the vibration insulation in the mode of operation and transportation.

Claims (1)

Vibration insulating device, comprising a base, a plate for mounting the protected object, vibration vibrators installed between them, and limiters, characterized in that, in order to increase 5 0 five neither the reliability and efficiency of the device during operation and transportation, each of the stops is made in the form of a rack, installed in pairs respectively on the base and plate with an axial gap between the opposite racks and the pairs are oriented mutually perpendicular, and an opening is made in one of the racks rods, one end of each of which is fixed on one rack, and the other is installed with a radial clearance in the hole of the other rack, elastic washers, dressed on each elastic rod, t The thickness of each is less than the axial clearance between the uprights. Fig /