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Constant-pressure pre-tightening angular contact bearing rigidity numerical correction method considering vibration influence

A technology of angular contact bearings and constant pressure preloading, which is applied in the fields of electrical digital data processing, special data processing applications, instruments, etc., and can solve problems such as increased calculation, difficult dynamic simulation, and complex bearing local models

Active Publication Date: 2019-11-01
中国人民解放军军事科学院评估论证研究中心
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Many researchers have carried out a large number of special studies on bearings, and proposed a mechanical analysis model that considers the contact between rolling elements and raceways, which improves the simulation accuracy, but makes the local model of the bearing too complex and greatly increases the amount of calculation. It is difficult to carry out the dynamic simulation of the complex rotor system as a whole
Therefore, so far, a bearing numerical simulation model that can not only consider the influence of the vibration of the whole machine on the working state of the bearing, but also satisfy the accuracy of the modal analysis results of the whole machine, and perform dynamic analysis of the whole machine for the complex rotor system has not yet been given. However, this kind of model that can effectively connect the macroscopic rotor system and the microscopic bearing mechanical analysis has a large demand in practical work.

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  • Constant-pressure pre-tightening angular contact bearing rigidity numerical correction method considering vibration influence
  • Constant-pressure pre-tightening angular contact bearing rigidity numerical correction method considering vibration influence
  • Constant-pressure pre-tightening angular contact bearing rigidity numerical correction method considering vibration influence

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Embodiment Construction

[0091]The specific implementation manner of the present invention is given below in combination with specific cases. The rotor structure involved in the case is a gyro rotor prototype. The system resonance test frequency value measured in the test is lower than the numerical simulation result, and when the bearing is disassembled after the test, it is found that the bearing on one side is seriously worn. Combining the case with the stiffness correction scheme given by the present invention, the simulation value of the resonance frequency obtained from the solution is closer to the test result, and the phenomenon of uneven bearing force found in the iterative process also provides a reasonable explanation for the wear phenomenon observed in the test .

[0092] Step 1: Build the rotor structure model

[0093] Use ANSYS software to carry out finite element modeling according to the actual structure of the rotor.

[0094] Step 2: Build a simplified model of an angular contact be...

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Abstract

The invention discloses a constant-pressure pre-tightening angular contact bearing rigidity numerical correction method considering vibration influence. The method comprises the following steps: 1, constructing a finite element model of a rotor system; 2, constructing an angular contact bearing simplified model; 3, solving a bearing load-rigidity curve, and assigning an initial value to rigidity;4, carrying out modal shape trial calculation on the rotor system containing the bearing equivalent spring model; and 5, carrying out bearing rigidity iterative correction considering the vibration load. A two-dimensional equivalent spring model is constructed by using Matrix27 in ANSYS software, so that the calculation amount of carrying out overall numerical simulation of the rotor system is reduced on the premise of ensuring the calculation precision. When the spring rigidity is corrected, the vibration mode characteristics of a target structure are combined, main factors influencing the bearing rigidity are comprehensively considered, and the influence of steady-state vibration and pre-tightening force on the bearing rigidity is emphatically inspected. A macroscopic rotor system and amicroscopic bearing mechanical analysis model can be effectively communicated, and a large number of application requirements exist in actual work.

Description

technical field [0001] The invention belongs to the technical field of vibration reliability of rotor structures, and specifically relates to an iterative correction method for angular contact bearing stiffness that can consider vibration loads under constant pressure and preload conditions. Background technique [0002] Structural damage caused by resonance is a common fault in the rotor structure, and avoiding resonance under actual working conditions is an important concern in the design of the rotor structure. Angular contact bearings, as a commonly used connection between the rotor structure and the load-bearing frame, not only have an important impact on the overall resonance frequency of the rotor system, but also its stress status under resonance conditions should also receive special attention. [0003] When the rotor system resonates, the bearing as the connecting part of the rotor and the stator will change under load, and the contact state between the rolling ele...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
CPCY02T90/00
Inventor 刘彬梁苗闫州杰
Owner 中国人民解放军军事科学院评估论证研究中心
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