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GB/T 2363-2025: Accuracy of fine-pitch involute cylindrical gears
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GB/T 2363: Evolution and historical versions
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Accuracy of fine-pitch involute cylindrical gears
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GB/T 2363-2025
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| GB/T 2363-1990 | English | 999 |
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Accuracy of fine-pitch involute cylindrical gears
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PDF similar to GB/T 2363-2025
Basic data
| Standard ID | GB/T 2363-2025 (GB/T2363-2025) |
| Description (Translated English) | Accuracy of fine-pitch involute cylindrical gears |
| Sector / Industry | National Standard (Recommended) |
| Classification of Chinese Standard | J17 |
| Classification of International Standard | 21.200 |
| Word Count Estimation | 18,111 |
| Date of Issue | 2025-08-29 |
| Date of Implementation | 2026-03-01 |
| Older Standard (superseded by this standard) | GB/T 2363-1990 |
| Issuing agency(ies) | State Administration for Market Regulation; Standardization Administration of China |
GB/T 2363-2025: Accuracy of fine-pitch involute cylindrical gears
---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/GBT2363-2025
ICS 21.200
CCSJ17
National Standards of the People's Republic of China
Replaces GB/T 2363-1990
Small module involute cylindrical gear precision
Published on 2025-08-29
Implemented on 2026-03-01
State Administration for Market Regulation
The State Administration for Standardization issued a statement.
Table of Contents
Preface III
Introduction IV
1.Scope 1
2 Normative References 1
3.Terms, Definitions, and Symbols 1
4.Deviation and Tolerance 2
4.1 Deviation 2
4.2 Tolerance 4
5.Tolerance Calculation 4
5.1 Calculation Formula 4
5.2 Application of Formulas
Appendix A (Informative) Measurement of Radial Composite Deviation 6
A.1 Recommended force value. 6
A.2 Detection radius 6
A.3 Detection Method 6
A.4 Calculation Formula 6
A.5 Measurement Precautions 7
Appendix B (Informative) Image Inspection Method for Small Module Gear Tooth Profile 8
B.1 Overview 8
B.2 Detection Principle 8
B.3 Detection Steps 8
B.4 Precautions 9
References 10
Foreword
This document complies with the provisions of GB/T 1.1-2020 "Standardization Work Guidelines Part 1.Structure and Drafting Rules of Standardization Documents".
Drafting.
This document replaces GB/T 2363-1990 "Precision of Small Module Involute Cylindrical Gears". Compared with GB/T 2363-1990, except for the structure...
Aside from adjustments and editorial changes, the main technical changes are as follows.
a) The scope of application has been changed (see Chapter 1, Chapter 1 of the.1990 edition);
b) The terminology has been changed (see Chapter 3, Chapter 3 of the.1990 edition);
c) Basic requirements for deviations and tolerances have been added (see Chapter 4);
d) The format for indicating gear precision has been changed (see 4.2.2.1, Chapter 8 of the.1990 edition);
e) The requirements concerning the composition of precision units have been changed, and the provisions concerning group tolerances have been deleted (see Chapter 5, Chapter 4 of the.1990 edition);
f) The sections "Gear blank requirements," "Tolerances and inspection," and "Backlash" have been removed (see Chapters 5-7 of the.1990 edition).
g) Added calculation and rounding rules for accuracy grade tolerance values (see Chapter 5).
Please note that some content in this document may involve patents. The issuing organization of this document assumes no responsibility for identifying patents.
This document was proposed and is under the jurisdiction of the National Technical Committee on Gear Standardization (SAC/TC52).
This document was drafted by. Beijing University of Technology, Zhengzhou Institute of Machinery Technology (Zhengzhou) Transmission Technology Co., Ltd., and Zhengzhou Machinery Research Institute of China Academy of Machinery Science and Technology Group.
Research Institute Co., Ltd., Shenzhen Zhaowei Electromechanical Co., Ltd., Guangdong Jinli Intelligent Transmission Technology Co., Ltd., Dongguan Xinghuo Gear
Limited Liability Company, Harbin Jingda Measuring Instruments Co., Ltd., Chongqing Qingping Machinery Co., Ltd., Zhejiang Jiezhong Technology Co., Ltd., Harbin
Harbin Zhida Measurement & Control Technology Co., Ltd., Zhongshan Mailete CNC Technology Co., Ltd., Guizhou Aerospace Qunjian Precision Machinery Co., Ltd., Shanghai Xing
Hefei Electromechanical Co., Ltd., Chongqing University, Zhejiang Fengli Intelligent Technology Co., Ltd., Zhejiang Xiaxia Precision Manufacturing Co., Ltd., Zhejiang Shuang
Huan Transmission Machinery Co., Ltd., Zhongshan Xiangshan Transmission Technology Co., Ltd., Zhejiang Xinke Transmission Technology Co., Ltd., and Baige Abrasives
Limited Liability Company, Beijing Zhongji Kemei Harmonic Drive Co., Ltd., Harbin Chuangbo Technology Co., Ltd., Guangdong Hantai Precision Technology Co., Ltd.
Company, Xinchang County Jinying Gearbox Co., Ltd., Shenzhen Hefeng Gear Machinery Co., Ltd., Henan Ruige Transmission Machinery Co., Ltd., Liaoning Province
Zhongye CNC Machine Tool Manufacturing Co., Ltd.
The main drafters of this document are. Wang Zhigang, Wang Wei, Shi Zhaoyao, Li Ping, Cao Zhigang, Wang Xiaoyi, Fan Ruili, Tong Aijun, Zhou Guangcai, and Wang Shilong.
Yang Xinrui, Sun Kun, Wei Tianshui, Lin Shoujin, Huang Jiahong, Jiang Neng, Li Haixia, Wang Youli, Guan Rongxin, Xia Ting, Li Bingji, Jing Daiyun, Li Qing
Jin Jianhua, Liu Donggang, Wang Dong, Wu Cong, Wang Defeng, Liu Lixue, Dong Xing, Liu Bo, Zhou Mingyong, Yao Yong, Tang Jun, Xiao Yuliang, Xu Wenbo, Shi Lubing
Wang Yunqi, Wu Zhonghua, Gong Haibin, Sun Long, Wang Dongfei, Guo Qingqing, Wei Fengyi, Guan Hongjie, Li Hang, Liu Jinlu, Han Zhuo, Xie Xueli, Wang Zhidong
Cao Xiaolin, Wang Jinao, Hou Nai.
This document was first published in 1980, revised for the first time in.1990, and this is the second revision.
introduction
Since.1995, the core principle of the ISO cylindrical gear accuracy evaluation method has been to use a coordinate system and single-item deviation (including pitch deviation,...)
The measured results of cumulative pitch deviation, profile deviation, helical deviation, and radial runout are compared with the tolerance zones given by the formulas in the standard to determine the tolerance zone.
The accuracy grade of gears is measured (see GB/T 10095.1-2022). Furthermore, GB/T 10095.1-2022 allows for different individual measurements for different tooth surfaces.
Different accuracy levels are used for the deviation.
For smaller gear products (pitch circle diameter not exceeding 600 mm), ISO also provides measurement results based on radial composite deviation.
The evaluation method for determining the accuracy grade of the tested gear by comparing the tolerance zone given by the formula in the standard (see GB/T 10095.2-2023).
It should be noted that. First, the accuracy classes (levels 1 to 11) in GB/T 10095.1-2022 differ from those in GB/T 10095.2-2023.
Accuracy classes (R30 to R50) are not inherently equivalent; the choice depends on the user's needs or the agreement between the supplier and the customer.
The accuracy of the gear under test shall be evaluated according to GB/T 10095.1-2022 or GB/T 10095.2-2023; secondly, the accuracy class of the gear under test.
This does not directly reflect its performance in actual use; that is, one should not simply equate the precision grade of a gear with its service performance.
Good or bad.
The characteristics of precision measurement of small module involute cylindrical gears in my country are. a large number of products to be measured, short and high-frequency production cycles, and coordinate measurement.
Measuring the physical dimensions of tiny gears presents significant challenges. However, considering that the fundamental method for accuracy evaluation is coordinate measurement, this document will still use coordinate measurement.
The single-item deviation is used as the accuracy evaluation item, supplemented by radial composite deviation and tangential composite deviation as the pass/fail evaluation items. That is, gear manufacturing enterprises are able to...
In high-speed production cycles, comprehensive deviations are used as internal accuracy evaluation and quality control requirements, while single deviations are used through sampling or other methods.
The difference is used to determine the final precision grade of the gears. In other words, companies use the precision grade of individual deviations for the social evaluation of their products, and use a comprehensive...
The measurement curve of the combined deviation is used for internal quality control of the product.
Small module involute cylindrical gear precision
Important Note. Familiarity with GB/T 10095.1-2022, GB/T 10095.2-2023, GB /Z 18620.1, GB /Z 18620.2, and...
The contents of GB /Z 18620.3 are very important for the use of this document.
1.Scope
This document specifies the grading method and tolerance values for the surface accuracy of individual small-module involute cylindrical gears within the following parameter range.
---0.1mm≤mn< 0.5mm;
---5≤z≤200;
---0.5mm≤d≤100mm;
---0.2mm≤b≤10mm;
---β≤45°.
in.
mn --- Normal module;
z --- Number of teeth;
d --- pitch circle diameter;
b --- Tooth width (axial);
β --- Helix angle.
Note 1.The tolerance value of accuracy is also called the allowable value of deviation.
Note 2.The precision grade of the gear obtained according to this document is not directly related to the actual performance of the gear in use.
This document applies to the evaluation of the manufacturing level of small-module gears made of metal and powder metallurgy materials.
2 Normative references
The contents of the following documents, through normative references within the text, constitute essential provisions of this document. Dated citations are not included.
For references to documents, only the version corresponding to that date applies to this document; for undated references, the latest version (including all amendments) applies.
This document.
GB/T 2821 Gear Geometric Element Designations
GB/T 3374.1 Gears - Terminology and Definitions - Part 1.Geometric Definitions
GB/T 10095.1-2022 Cylindrical gears - ISO tooth surface tolerance system - Part 1.Definition and permissible values of tooth surface deviations
GB/T 10095.2-2023 Cylindrical gears - ISO tooth surface tolerance classification system - Part 2.Definition and permissible values of radial composite deviation
GB /Z 18620.2-2008 Standard for Inspection of Cylindrical Gears Part 2.Radial Composite Deviation, Radial Runout, Tooth Thickness and Lateral Eccentricity
Gap inspection
3.Terms, Definitions and Symbols
Terms, definitions and symbols defined in GB/T 2821, GB/T 3374.1, GB/T 10095.1-2022 and GB/T 10095.2-2023
The number applies to this document.
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