RU2751730C1 - Electronic device shock absorber - Google Patents

Abstract

FIELD: mechanical engineering.SUBSTANCE: invention relates to the field of mechanical engineering. The shock absorber of the electronic device contains elastomeric elastic elements. The elastic elements are fixed on the bushing and pressed from the end surfaces by pressure washers with a force directed along the axis of the shock absorber. The elastic elements are made in the form of stepped cylindrical bushings. Cylindrical bushings are located coaxially on each side of the mounting hole in the support surface of the electronic device. The cylindrical part of the small-diameter sleeve of the elastic elements is fitted with interference in the annular space between the outer diameter of the sleeve and the inner diameter of the mounting hole. Cylindrical parts of large diameter elastomeric elastic elements in the compressed state are located between the supporting surfaces of the electronic device and the end flange of the sleeve and the washer.EFFECT: simplifying the design, increasing the reliability of the shock absorber, the possibility of coincidence of the center of gravity of the electronic device with the center of gravity of the vibration isolation system and minimizing the gaps between them.1 cl, 2 dwg

Description

This invention relates to the field of mechanical engineering and is intended to protect electronic devices and various equipment from vibration and shock loads when they are mounted on the instrument frame of an aircraft.

A variety of shock absorber designs are known and widely used to protect against vibration and shock loads.

Known shock absorber according to the patent RU 2050483 from 20.12.1995, the specified shock absorber contains two elastomeric elastic elements located on a sleeve with a cylindrical hole intended for fastening the shock absorber on the supporting surface of the device and pressure washers installed on the ends of the sleeve, between which are placed elastic elastomeric elements ... The specified shock absorber effectively protects electronic devices from vibration and shock loads in a wide frequency range, both in the radial and axial directions.

At the same time, the analogue has a significant drawback, which is that the significant overall size of the shock absorber makes it difficult to use in a dense arrangement of electronic devices, for example, in the instrument compartment of an aircraft.

The closest technical solution to the proposed invention is a shock absorber under the patent RU 2653321 dated 07.05.2018.

The shock absorber contains a metal body, inside of which there are elastic elastomeric elements fixed to the central bushing of the shock absorber by means of end washers and a fastening screw. The shock absorber effectively operates in a wide range of frequencies and shock loads in three mutually perpendicular directions.

The disadvantage of the closest analogue is a significant overall size in height, which sharply narrows the possibility of its use in a dense arrangement of instrument compartments, for example, rockets. In addition, the cantilever mounting of the shock absorbers to the support base of the electronic device leads to a mismatch between the center of gravity of the device and the center of gravity of the vibration isolation system, which in turn will require, when exposed to lateral loads, the creation of sufficient gaps between the vibration isolation device and adjacent structures in order to avoid collisions.

The common features of the prototype with the shock absorber proposed by the authors is the presence of elastic elastomeric elements and a central bushing, on the axis of which flexible elastomeric elements are installed and end clamping surfaces that form the required degree of compressed elastomeric elements, both in axial and radial directions.

The technical objective of the present invention is to create a simple and reliable shock absorber that serves to protect against vibration and shock loads on electronic devices installed on the instrument frames of aircraft, for example, rockets. In this case, the shock absorber should have minimal dimensions and the possibility of consoleless installation on the supporting surface of the electronic device.

The technical result of the invention is to create a structurally and technologically simple and reliable shock absorber designed to protect against vibrations in specified frequency ranges, and providing protection against shock effects in three mutually perpendicular directions (X, Y, Z), with small dimensions and coincidence of the center of gravity of the electronic device with the center of gravity of the vibration isolation system, which allows the most optimal placement of electronic devices on the instrument frame with minimal gaps between them. The proposed shock absorber is universal, and the simplicity of the design ensures reliability during operation.

The specified technical result is achieved due to the fact that the shock absorber of the electronic device contains elastomeric elastic elements fixed on the bushing and pressed from the end surfaces by pressure washers with a force directed along the axis of the shock absorber while the elastomeric elastic elements are made in the form of stepped cylindrical bushings located coaxially with each side of the mounting hole in the supporting surface of the electronic device in such a way that the cylindrical part of the small-diameter sleeve of the elastomeric elastic elements is fitted with interference in the annular space between the outer diameter of the sleeve and the inner diameter of the fastening hole, and the cylindrical parts of the large-diameter elastomeric elastic elements in the compressed state are located between the supporting surfaces of the electronic device and the end flange of the sleeve and the washer.

This design of the shock absorber allows you to effectively operate the electronic device when exposed to vibration and shock loads, both in the radial and axial directions. The small dimensions of the shock absorber design allow electronic devices to be installed in tightly packed environments.

The essence of the invention is illustrated in figures 1 and 2.

FIG. 1 shows a view of an electronic device with shock absorbers mounted on its support surface.

FIG. 2 shows a longitudinal section along the axis of the shock absorber, where

1 - elastomeric elastic elements;

2 - holes in the support base of the electronic device;

3 - cylindrical part of the sleeve of small diameter;

4 - end flange of the sleeve;

5 - clamping washer;

6 - bushing.

Elastomeric elastic elements (1) made in the form of stepped cylindrical bushings are installed coaxially on each side of the mounting hole in the support base of the electronic device (2) in such a way that the cylindrical part of the small-diameter bushing of elastomeric elements (3) fills the annular space between the outer diameter sleeve and the inner diameter of the mounting hole, and the cylindrical parts of the larger diameter of the elastomeric elements are pressed in the axial direction by the end flange of the sleeve (4) on one side and the washer (5) on the other. Fastening of elastomeric elastic elements on the support surface of the device is carried out using a sleeve (6) and a washer (5).

Vibration and shock loads acting on the shock absorber are damped in the elastomeric elements (1) due to the selection of appropriate dimensions, which ensure clearance-free placement in the support base of the electronic device (compressed state with a calculated force) in all specified operating modes, both in longitudinal and in the axial direction.

The implementation of shock absorbers for electronic devices in accordance with the proposed invention made it possible to achieve the most dense arrangement of devices with shock absorbers on the instrument frame of the aircraft, due to a significant reduction in the dimensions of the device and a decrease in the gaps between adjacent vibration-insulated devices, due to the console-free installation of shock absorbers on the supporting surface of the device. At the same time, effective and reliable protection against vibration loads in the range from 20 to 2000 Hz with overloads up to 15g and protection against single shocks up to 150g were noted.

The result of the use of shock absorbers in accordance with the proposed invention in the composition of electronic devices is confirmed by flight design tests.

Claims (1)

An electronic device shock absorber containing elastomeric elastic elements fixed on the bushing and pressed from the end surfaces by washers with a force directed along the shock absorber axis, characterized in that the elastomeric elastic elements are made in the form of stepped cylindrical bushings located coaxially on each side of the mounting hole in the support surface of the electronic device in such a way that the cylindrical part of the small-diameter sleeve of the elastomeric elastic elements is fitted with an interference fit in the annular space between the outer diameter of the sleeve and the inner diameter of the fastening hole, and the cylindrical parts of the large-diameter elastomeric elastic elements in the compressed state are located between the supporting surfaces of the electronic device and the end bushing flange and washer.

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