Low-rigidity suspension system and implementation method thereof

Abstract

The invention discloses a low-rigidity suspension system and an implementation method of the low-rigidity suspension system. The low-rigidity suspension system is implemented by obtaining design parameters such as length of elastic strings and number of elastic strings and the like required by the low-rigidity suspension system and by mastering a parallel system of a single unit length elastic string and a plurality of unit length elastic strings as well as characteristics of n-time unit length elastic strings by means of characteristics of good vertical nonlinearity and low-rigidity of the elastic strings. According to the low-rigidity suspension system and the implementation method of the low-rigidity suspension system provided by the invention, the rigidity characteristic of the elastic strings is obtained by a simple unit weight accumulating test method by means of current common elastic strings, and the low-rigidity suspension system which meets the demand of test can be erected rapidly through simple and convenient installation tools. The suspension system can particularly realize vertical i.e. gravity-direction lower rigidity, while the transverse rigidity can be used to control the length of the elastic string to obtain the low rigidity. The low-rigidity suspension system provided by the invention has the advantages of simplicity, rapidness, flexible design, low cost and the like, so convenience is provided for the implementation of the low-rigidity suspension test.

Description

technical field [0001] The invention relates to a method for simulating an in-orbit weightlessness state, in particular to a low-rigidity suspension system and a method for realizing the same. Background technique [0002] With the development of aerospace technology, the performance test methods for sensitive loads need to be continuously updated, and how to realize the performance test of sensitive loads in weightlessness is particularly important. [0003] Generally, suspension tests are often used in the aerospace field to simulate the on-orbit performance of the assessment load. The vibration frequency of the current satellite structure platform is mostly higher than 5Hz. If the influence of the frequency of the suspension system on the test is required to be negligible, then the The natural frequency is not higher than 1 / 10 of the system frequency. Therefore, if the weightlessness simulation test is carried out on the satellite or payload, the longitudinal natural fre...

AI Technical Summary

Problems solved by technology

However, the conventional steel wire rope suspension method completely constrains the longitudinal stiffness of the load, which obviously does not meet the requirements of the weightless state.

[0004] Conventional low-stiffness suspension system design methods include linear spring system design, nonlinear spring system design, parallel structure design, and disc spring-linear spring joint design. , processing, complex process and long production cycle

At the same time, due to the extremely small number of components used in the aerospace field, the relevant manufacturers mostly refuse to produce and process them on the grounds of insufficient production.

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