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GB/T 1800.2-2020 English PDF

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GB/T 1800.2-2020: Geometrical product specifications (GPS) - ISO code system for tolerances on linear sizes - Part 2: Tables of standard tolerance classes and limit deviations for holes and shafts
Status: Valid

GB/T 1800.2: Evolution and historical versions

Standard IDContents [version]USDSTEP2[PDF] delivered inStandard Title (Description)StatusPDF
GB/T 1800.2-2020English999 Add to Cart 7 days [Need to translate] Geometrical product specifications (GPS) - ISO code system for tolerances on linear sizes - Part 2: Tables of standard tolerance classes and limit deviations for holes and shafts Valid GB/T 1800.2-2020
GB/T 1800.2-2009EnglishRFQ ASK 10 days [Need to translate] Geometrical product specifications (GPS) -- Limits and fits -- Part 2: Tables of standard tolerance grades and limit deviations for holes and shafts Obsolete GB/T 1800.2-2009
GB/T 1800.2-1998English399 Add to Cart 3 days [Need to translate] Limits and fits--Bases--Part 2: Basic rules of tolerances, deviations and fits Obsolete GB/T 1800.2-1998

PDF similar to GB/T 1800.2-2020


Standard similar to GB/T 1800.2-2020

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Basic data

Standard ID GB/T 1800.2-2020 (GB/T1800.2-2020)
Description (Translated English) Geometrical product specifications (GPS) - ISO code system for tolerances on linear sizes - Part 2: Tables of standard tolerance classes and limit deviations for holes and shafts
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard J04
Classification of International Standard 17.040.10
Word Count Estimation 54,528
Date of Issue 2020-04-28
Date of Implementation 2020-11-01
Older Standard (superseded by this standard) GB/T 1800.2-2009
Adopted Standard ISO 286-2-2010, MOD
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration
Summary This standard specifies the limit deviation value of the common tolerance zone code for holes and shafts, and its value is calculated according to the standard tolerance and basic deviation value table in GB/T 1800.1. It includes the upper limit deviation ES of the hole and the upper limit deviation es of the shaft, the lower limit deviation EI of the hole and the lower limit deviation ei of the shaft (see Figure 1 and Figure 2).

GB/T 1800.2-2020: Geometrical product specifications (GPS) - ISO code system for tolerances on linear sizes - Part 2: Tables of standard tolerance classes and limit deviations for holes and shafts



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Geometrical product specifications (GPS) - ISO code system for tolerances on linear sizes - Part 2.Tables of standard tolerance classes and limit deviations for holes and shafts ICS 17.040.10 J04 National Standards of People's Republic of China Replace GB/T 1800.2-2009 Product Geometric Technical Specification (GPS) ISO code system for linear dimensional tolerances Part 2.Standard tolerance zone code and limit deviation table of holes and shafts 2020-04-28 released 2020-11-01 implementation State Administration for Market Regulation Issued by the National Standardization Management Committee

Foreword

GB/T 1800 "Geometric Technical Specifications for Products (GPS) Linear Dimension Tolerance ISO Code System" is divided into two parts. ---Part 1.The basis of tolerance, deviation and fit; ---Part 2.Standard tolerance zone code and limit deviation table of holes and shafts. This part is Part 2 of GB/T 1800. This section was drafted in accordance with the rules given in GB/T 1.1-2009. This part replaces GB/T 1800.2-2009 "Geometrical Technical Specifications for Products (GPS) Limits and Coordination Part 2.Standard Tolerances, etc. Table of limit deviations of grades, holes and shafts. Compared with GB/T 1800.2-2009, the main technical changes are as follows. --- "Two parallel planes" is changed to "two opposite parallel planes" (see Chapter 1, Chapter 1 of the.2009 edition); ---Modified the schematic diagram used to illustrate the upper and lower limit deviations of holes and shafts in the scope (see Chapter 1, Chapter 1 of the.2009 edition); --- Change "standard tolerance grade" to "standard tolerance" (see Chapter 3, Chapter 3 of the.2009 edition); --- Deleted "For the recommended hole tolerance zone, see GB/T 1801-2009" (see Chapter 4 of the.2009 edition); ---Under the title of each limit deviation table, for holes, increase the upper limit deviation=ES, the lower limit deviation=EI; for the shaft, add The upper limit deviation=es, the lower limit deviation=ei. This part uses the redrafting method to modify and adopt ISO 286-2.2010 "Geometrical Product Specification (GPS) Linear Dimension Tolerance ISO Code System Part 2.Standard Tolerance Zone Code and Limit Deviation Table of Hole and Shaft". Compared with ISO 286-2.2010, this part has technical differences. The corresponding technical differences and their reasons are as follows. ---Regarding normative reference documents, this section has made adjustments with technical differences to adapt to my country's technical conditions and adjustments. The situation is collectively reflected in Chapter 2 "Normative Reference Documents", and the specific adjustments are as follows. ● Replace ISO 286-1.2010 with GB/T 1800.1-2020, which is modified to adopt international standards. This section also made the following editorial changes. ---Incorporated the content of ISO 286-2.2010/Cor.1.2013. This part is proposed and managed by the National Standardization Technical Committee for Product Geometric Technical Specifications (SAC/TC240). Drafting organizations of this section. Zhongyuan Institute of Technology, China Machinery Productivity Promotion Center, Pan Asia Automotive Technology Center Co., Ltd., Harbin Institute of Technology School, Dalian University of Technology, Shandong University of Technology, Luoyang Bearing Research Institute Co., Ltd. The main drafters of this section. Zhao Zexiang, Ming Cuixin, Niu Xiaoxu, Zhu Yue, Liu Yongmeng, Li Dongxing, Lu Haiting, Ren Dongxu, Li Feixue. The previous versions of the standards replaced by this part are as follows. ---GB/T 1800.4-1999; ---GB/T 1800.2-2009.

Introduction

The need for limit and fit of the processed parts is mainly determined by the interchangeability between the mass-produced parts and the inaccuracy of the processing method itself. It is caused by demand, which is consistent with the fact that most of the workpiece elements do not need to be "correct" in size. to satisfy The matching function is found to be sufficient for manufacturing a given workpiece whose size lies between two allowable limits (such as a tolerance). This is guaranteeing The acceptable amount of dimensional change in manufacturing under the requirements of product function coordination. Similarly, when a specific matching condition is required between the matching elements of two different parts, a capacity (either positive or negative) needs to be assigned Give a nominal size to get the required clearance or interference. GB/T 1800 gives an internationally acceptable code system for linear tolerances. Provides a tolerance and deviation system applicable to two size types. "cylinder" and "two opposite parallel surfaces". The purpose of this code system is to achieve Functional coordination. The terms "hole", "shaft" and "diameter" are used to designate cylindrical (for example, tolerances on hole or shaft diameter) dimension elements. To simplify, They are also used for two opposite parallel surfaces (such as tolerance markings on key thickness or groove width). For the elements that form a fit, the precondition for the application of the ISO code for linear dimensional tolerances is that the nominal dimensions of the hole and the shaft are the same. The previous version of GB/T 1800.2 has the tolerance criterion as the default fitting criterion for the size of the dimension element. However, GB/T 38762 turns this default fitting criterion into a two-point size criterion. This means that the shape is no longer controlled by dimensional specifications. In many cases, the diameter tolerance that meets this part is not sufficient to effectively control the desired fit function. Need to meet The tolerance criteria of GB/T 38762.1.In addition, the application of geometric tolerances and surface structure requirements can improve the control of desired functions. The common graphic display of the relationship between each tolerance zone code and its deviation is given in Appendix A. This part is a product geometric technical specification (GPS) standard, known as the general GPS standard (see GB/T 20308). See Appendix B for more detailed information about the relationship between this part and the GPS matrix model. Product Geometric Technical Specification (GPS) ISO code system for linear dimensional tolerances Part 2.Standard tolerance zone code and hole, Shaft limit deviation table

1 Scope

This part of GB/T 1800 specifies the limit deviation value of the common tolerance zone code for holes and shafts, and the value is according to GB/T 1800.1 The standard tolerance and basic deviation value table are calculated. It includes the upper limit deviation ES of the hole, the upper limit deviation es of the shaft, and the lower limit deviation of the hole. The limit deviation EI and the lower limit deviation ei of the shaft (see Figure 1 and Figure 2). Note. In the limit deviation value table, except for the tolerance zone codes JS and js that are symmetrical to the zero line, the upper limit deviation ES or es value is the lower limit deviation Above the value of EI or ei. This part establishes the ISO code system for linear dimensional tolerances, which applies to the following types of dimensional elements. a) Cylindrical surface; b) Two opposite parallel surfaces. To simplify and consider the importance of cylindrical workpieces with circular cross-sections, only these elements are clearly specified. However, for better understanding, The tolerances and deviations given in this section also apply to workpieces with non-circular cross-sections. In particular, the term "hole" or "shaft" is usually used to indicate cylindrical surface elements (such as tolerances for hole or shaft diameter). For simplicity, these The term is also used for two opposite parallel face types (such as tolerance markings for key thickness or groove width).

2 Normative references

The following documents are indispensable for the application of this document. For dated reference documents, only the dated version applies to this article Pieces. For undated references, the latest version (including all amendments) applies to this document. GB/T 1800.1-2020 Product Geometric Technical Specification (GPS) Linear Dimension Tolerance ISO Code System Part 1.Tolerance, Basis of deviation and fit (ISO 286-1.2010, MOD)

3 Standard tolerance

Table 1 shows the values of standard tolerance levels IT01~IT18.

4 hole limit deviation

The tolerance zone codes of the holes specified in this part are shown in Figure 3 for the nominal size up to 500mm, and the nominal size is greater than 500mm~3150mm See Figure 4, and the corresponding limit deviation values are listed in Table 2~Table 16. For the recommended tolerance zone codes, see Chapter 4.4 and Chapter 5 of GB/T 1800.1-2020. Note. Only some tolerance zone codes are provided for a limited range of nominal sizes. For more information, see 6.1.

5 axis limit deviation

The tolerance zone code of the shaft specified in this part, see Figure 5 for the nominal size up to 500mm, the nominal size is greater than 500mm~3150mm See Figure 6, and the corresponding limit deviation values are listed in Table 17~Table 32.

Appendix A

(Informative appendix) Diagram of tolerance zone of hole and shaft A.1 Diagram of hole tolerance zone Figure A.1 and Figure A.2 give a diagram of the hole tolerance zone. Figure A.1 is the tolerance zone shown in the basic deviation (A~ZC), and Figure A.2 is the standard The quasi-tolerance class (IT5~T11) shows the same hole tolerance zone. Figure A.1 and Figure A.2 only show part of the tolerance bands given in this section. For the sake of comparison, the tolerance zone in the figure is drawn with the values of ES, EI, and IT given by the nominal size section greater than 6mm~10mm. System. For the tolerance zone with no basic deviations T, V and Y in the nominal size section table, the nominal size section larger than 24mm~30mm The given values are plotted. A.2 Diagram of shaft tolerance zone Figure A.3 and Figure A.4 give a diagram of the shaft tolerance zone. Figure A.3 is the tolerance zone shown in the basic deviation (a~zc), and Figure A.4 is the standard Tolerance class (IT5~T11) shows the same axis tolerance zone. Figure A.3 and Figure A.4 only show part of the tolerance bands given in this section. In order to facilitate comparison, the tolerance zone in the figure is drawn with the values of es, ei and IT given in the nominal size section greater than 6mm~10mm of. For the tolerance zone with no basic deviation t, v and y in the nominal size section table, the nominal size section greater than 24mm~30mm is given The numerical value is drawn.

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