GB/T 9239.11-2025 English PDF

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GB/T 9239.11-2025: Mechanical vibration - Rotor balancing - Part 11: Procedures and tolerances for rotors with rigid behaviour
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GB/T 9239.2   GB/T 9239.13   GB/T 9239.12   

Basic data

Standard ID: GB/T 9239.11-2025 (GB/T9239.11-2025)
Description (Translated English): Mechanical vibration - Rotor balancing - Part 11: Procedures and tolerances for rotors with rigid behaviour
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: J04
Classification of International Standard: 21.120.40
Word Count Estimation: 30,327
Date of Issue: 2025-08-01
Date of Implementation: 2026-02-01
Older Standard (superseded by this standard): GB/T 9239.1-2006
Issuing agency(ies): State Administration for Market Regulation, Standardization Administration of China

GB/T 9239.11-2025: Mechanical vibration - Rotor balancing - Part 11: Procedures and tolerances for rotors with rigid behaviour

---This is an excerpt. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.), auto-downloaded/delivered in 9 seconds, can be purchased online: https://www.ChineseStandard.net/PDF.aspx/GBT9239.11-2025
ICS 17.160 CCSJ04 National Standard of the People's Republic of China Replaces GB/T 9239.1-2006 Mechanical vibration rotor balancing Part 11.Balancing methods and tolerances for rigid rotors (ISO 21940-11.2016, IDT) Released on August 1, 2025 Implementation on February 1, 2026 State Administration for Market Regulation The National Standardization Administration issued

Table of Contents

Preface III Introduction V 1 Scope 1 2 Normative references 1 3 Terms and Definitions 1 4 Description of balance 1 5 Common factors 4 6 Determination of imbalance tolerance 4 7 Distribution of the permissible residual unbalance to the tolerance plane 8 8 Distribution of unbalance tolerance to the correction plane 10 9 Assembled rotor 11 10 Errors to be considered when detecting the permissible residual unbalance 11 Appendix A (informative) Example of determining the permissible residual unbalance according to balancing quality grade G and its allocation to the tolerance plane 13 Appendix B (Informative) Specifications for determining unbalance tolerances based on bearing force limits 16 Appendix C (Informative) Specifications for determining unbalance tolerances based on existing experience 17 Appendix D (Informative) Rules for allocating unbalance tolerances from the tolerance plane to the correction plane 18 Reference 20 Preface This document is in accordance with the provisions of GB/T 1.1-2020 "Guidelines for standardization work Part 1.Structure and drafting rules for standardization documents" Drafting. This document is Part 11 of GB/T 9239 Mechanical Vibration Rotor Balancing. GB/T 9239 has been published in the following parts. --- Part 2.Vocabulary; --- Part 11.Balancing methods and tolerances for rigid rotors; --- Part 12.Balancing methods and tolerances for rotors with flexible characteristics; --- Part 13.Criteria and safety precautions for field balancing of large and medium-sized rotors; --- Part 14.Procedure for evaluating balance errors; --- Part 21.Description and evaluation of balancing machines; --- Part 23.Protective covers and other protective measures for measuring stations of balancing machines; --- Part 31.Machine imbalance variability and imbalance sensitivity; --- Part 32.Key criteria for balance between shafts and mating parts. This document replaces GB/T 9239.1-2006 "Mechanical vibration steady-state (rigid) rotor balance quality requirements Part 1.Specification and balance Compared with GB/T 9239.1-2006, in addition to structural adjustments and editorial changes, the main technical changes are as follows. --- Changed the requirements for selecting the support plane as the reference plane, and added that not all support planes are suitable for reference planes Requirements (see 4.4, 4.4 of the.2006 edition); ---Change the residual unbalance value from "should not be greater than the allowable residual unbalance value" to "should not be greater than the allowable residual unbalance value", and increase Added the requirement that "Uper covers the case of combined unbalanced forces and moments" (see 4.6, 4.6 of the.2006 edition); --- Added requirements for balancing steps and taking errors into account (see 6.1); --- The requirement for the rotor residual unbalance tolerance limit value is changed from "should not" to "should not" (see 7.2.2 and 7.2.3,.2006 edition) 7.2.3 and 7.2.4); --- Changed the requirements for balancing error and added the requirement that the balancing error take into account the error of the components removed from the rotor (see 10.1,.2006 edition 10.1); --- Change "5%" to "10%" (see 10.3, 10.2.4 of the.2006 edition); --- Deleted the judgment rules for users to perform balance tests independently (see 10.2.3 of the.2006 edition); --- Added a method for determining the rotor balance when the unbalance reading exceeds the tolerance (see 10.4.3); --- Deleted the requirements for inspection on a balancing machine and inspection not on a balancing machine (see 10.3 and 10.4 of the.2006 edition); --- Added requirements for the uncertainty of unbalance measurement (see 10.4.4). This document is equivalent to ISO 21940-11.2016 "Mechanical vibration rotor balancing Part 11.Balancing methods and methods for rigid rotors" Tolerance. Please note that some of the contents of this document may involve patents. The issuing organization of this document does not assume the responsibility for identifying patents. This document is proposed and coordinated by the National Technical Committee for Standardization of Mechanical Vibration, Shock and Condition Monitoring (SAC/TC53). This document was drafted by. China Machinery Testing Equipment Co., Ltd., China Machinery Engineering Institute Group Zhengzhou Machinery Research Institute Co., Ltd., Shanghai Schenck Machinery Co., Ltd., Beijing Shuangyuan Tianheng Testing Technology Co., Ltd., Shanghai Hengwang Intelligent Technology Co., Ltd., Beijing Qingyun Lean Testing Equipment Co., Ltd., Dalian Zhiding Technology Co., Ltd., Shenyang University of Technology, Fujian Minliang Calibration Technology Center Co., Ltd., Henan Xinzhi Lin Mechanical and Electrical Equipment Co., Ltd., Shenyang Micro-control Flywheel Technology Co., Ltd., Hangzhou Jizhi Mechanical and Electrical Co., Ltd., China Southern Power Grid Internet Services Co., Ltd., Shenyang Institute of Technology, Liaoning Polytechnic University, Jiangsu Lianbo Precision Technology Co., Ltd., Chengdu Xinze Machinery Co., Ltd. Co., Ltd., Henan Tongxin Transmission Co., Ltd., and Henan Jiuyu Enpai Electric Power Technology Co., Ltd. The main drafters of this document are. Ren Xia, Ma Weiping, Sun Huagang, Guo Weijian, Guo Qiang, Lin Dongtao, Zhang Zhaoyu, Xu Fangchao, Wu Hong, Qu Bufeng, Xie Hongsheng, Yu Junqiang, Lin Jun, Zhang Fei, Yu Shenbo, Shen Zhengyun, Huang Canlin, Chen Hongkai, Zhao Haining, and Zhang Yingshuai. This document was first issued in 1988, revised for the first time in.2006, and this is the second revision.

introduction

Rotor balancing is the process of inspecting the mass distribution of the rotor (or parts or components) and adjusting it if necessary to ensure that the remaining The process of balancing within a specified range. This document provides the balancing method and tolerances for rigid rotors. A rigid rotor is a rotor that is not more than At high operating speeds, the deflection of the rotor is negligible. For a rigid rotor, the force and torque imbalances are of concern. Note. This refers to the dynamic imbalance of the rotor. Today's balancing machines are able to reduce the residual unbalance to a very low level. In most cases, reducing the unbalance to a level The limits of what a weighing machine can achieve are not cost-effective, so it is necessary to specify the balance quality requirements for balancing tasks. In addition to specifying the unbalance tolerance, it is also necessary to consider the errors introduced by the balancing process. This document takes into account the effects of these errors and clearly A distinction is made between the specified permissible residual unbalance and the residual unbalance that can be achieved during the balancing process. GB/T 9239 Mechanical Vibration Rotor Balancing explains balance in a general way, using specific terms and definitions to help users choose The standard of balancing mainly involves five aspects. introduction, vocabulary, balance, The balancing method and tolerance, balancing machine, and mechanical design for balancing are intended to consist of the following parts. --- Part 1.Introduction. The purpose is to give the general background of the use of balancing technology in the GB/T 9239 series of documents and to guide The user is familiar with the corresponding parts of the series, including vocabulary, balancing methods and tolerances, balancing machines and machine design for balancing. --- Part 2.Vocabulary. The purpose is to define the vocabulary used for balancing, to provide an alphabetical index of balancing vocabulary and a diagram of balancing machine terminology Solution Guide. --- Part 11.Balancing methods and tolerances for rigid rotors. The purpose is to give balancing methods and tolerances for rigid rotors. The permissible residual unbalance value, the necessary number of correction planes, the allocation of the residual unbalance tolerances of the correction planes, and the How to explain errors in the balancing process. --- Part 12.Balancing methods and tolerances for rotors with flexible characteristics. The purpose is to give balancing methods for flexible rotors The typical structure of the flexible rotor is given, the balancing requirements based on its own characteristics are specified, and the balancing methods are listed. The method provides a method for assessing the final equilibrium state and gives guidance on the imbalance tolerance. --- Part 13.Criteria and safety precautions for field balancing of large and medium-sized rotors. The purpose is to give the criteria and safety precautions for field balancing of large and medium-sized rotors on their own bearings. The procedures for field balancing are described. The conditions suitable for field balancing, the required instruments, specific safety measures, and reporting and Requirements for maintaining records. --- Part 14.Procedure for evaluating balance errors. The purpose is to standardize the procedure for evaluating balance errors and to specify the rotor imbalance Error identification during measurement, evaluation of identified errors and requirement to take errors into account when determining the residual imbalance. --- Part 21.Description and evaluation of balancing machines. The purpose is to give the requirements for the performance evaluation of balancing machines. --- Part 23.Protective covers and other protective measures for measuring stations of balancing machines. The purpose is to give protective covers and other protective measures for balancing machines. The requirements for protective measures are defined, the different levels of protection provided by protective covers and other protective measures are defined, and the scope of application of each level of protection is given. --- Part 31.Machine imbalance variability and imbalance sensitivity. The purpose is to give the method to determine the sensitivity of mechanical vibration to imbalance. A method for evaluating the vibration sensitivity of the load is proposed and a guideline for evaluating the vibration sensitivity when the resonant speed is close to the operating speed is provided. --- Part 32.Key criteria for balancing shafts and mating parts. The purpose is to give the key-connected rotor assembly when balancing the individual components. Principles. Mechanical vibration rotor balancing Part 11.Balancing methods and tolerances for rigid rotors

1 Scope

This document describes the method for balancing rigid rotors and determining the unbalance tolerance, mainly including. a) Permissible residual unbalance value; b) the number of necessary correction planes; c) Distribution of the permissible residual unbalance on the tolerance plane; d) How to account for errors in the balancing process. NOTE. For details on the assessment of balancing errors, see ISO 21940-14, and for the fundamentals of rotor balancing, see ISO 19499. This document applies to the balancing of rigid rotors. This document does not cover the balancing of flexible rotors. Balancing procedures and balancing tolerances for flexible rotors The requirements are detailed in ISO 21940-12.

2 Normative references

This document has no normative references.

3 Terms and Definitions

For the purposes of this document, the terms and definitions given in ISO 21940-2 apply.

4 Description of balance

4.1 General Rotor balancing is the process of inspecting and, if necessary, adjusting the mass distribution of the rotor to ensure that the remaining unbalance is within specified limits. It is pointed out that vibrations during operation may also come from factors other than imbalance. Rotor imbalance may be caused by design, material, manufacturing and assembly. Even in mass production, each rotor has an unevenness along its axis. The distribution of balance is also different. 4.2 Imbalance Representation For a rigid rotor, different vectors can be used to represent the same imbalance, as shown in Figure 1. Figure 1a) ~ c) show the representation of the composite unbalance and composite unbalance couple. Figure 1d) ~ f) show the double-sided unbalance Representation method. Note 1.The resultant unbalance vector may be located in any radial plane on the axis (the magnitude and phase angle remain unchanged), but the corresponding resultant unbalance couple depends on Position of the resultant imbalance vector. Note 2.The center of the unbalance is located on the axis of the synthetic unbalance shaft, where the synthetic unbalance couple is the smallest. If single-plane balancing (see 4.5.2) is sufficient, or if the focus is on the resultant unbalance and resultant unbalanced couple (see 4.5.4), then Then it is more appropriate to use the representation shown in Figures 1a) to 1c). If the focus is on typical double-sided unbalance, the representation methods shown in Figures 1d) to 1f) are preferred. ......

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