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GB/T 22079-2019 English PDF

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GB/T 22079-2019: HV polymeric insulators for indoor and outdoor use - General definitions, test methods and acceptance criteria
Status: Valid

GB/T 22079: Evolution and historical versions

Standard IDContents [version]USDSTEP2[PDF] delivered inStandard Title (Description)StatusPDF
GB/T 22079-2019English599 Add to Cart 5 days [Need to translate] HV polymeric insulators for indoor and outdoor use - General definitions, test methods and acceptance criteria Valid GB/T 22079-2019
GB/T 22079-2008EnglishRFQ ASK 5 days [Need to translate] Polymeric insulators for indoor and outdoor use with a nominal voltage > 1 000 V -- General definitions, test methods and acceptance criteria Obsolete GB/T 22079-2008

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Basic data

Standard ID GB/T 22079-2019 (GB/T22079-2019)
Description (Translated English) HV polymeric insulators for indoor and outdoor use - General definitions, test methods and acceptance criteria
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard K48
Classification of International Standard 29.080.10
Word Count Estimation 30,383
Date of Issue 2019-12-10
Date of Implementation 2020-07-01
Older Standard (superseded by this standard) GB/T 22079-2008
Quoted Standard GB/T 531.1; GB/T 2423.17; GB/T 2900.8-2009; GB/T 3505; GB/T 4585-2004; GB/T 4796; GB/T 5169.16; GB/T 6062; GB/T 6553-2013; GB/T 16422.2; GB/T 16927.1; GB/T 24622-2009; GB/T 26218.1; GB/T 26869
Adopted Standard IEC 62217-2012, MOD
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration
Summary This standard specifies common test classifications and test methods for design tests of polymer insulators, and criteria for acceptance or rejection, as applicable. These tests and guidelines are intended to ensure that insulators have a satisfactory service life under normal operating and environmental conditions (see Chapter 5). This standard specifies general terms for polymer insulators. This standard should be used in conjunction with relevant product standards. This standard applies to polymer insulators whose insulators are composed of one or more organic materials. These polymer insulators include solid and hollow insulators for use on high voltage overhead lines in AC and DC systems, indoor and outdoor equipment.

GB/T 22079-2019: HV polymeric insulators for indoor and outdoor use - General definitions, test methods and acceptance criteria


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(High-voltage polymer insulators for indoor and outdoor useGeneral definitions, test methods and acceptance criteria) ICS 29.080.10 K48 National Standards of People's Republic of China Replaces GB/T 22079-2008 High-voltage polymer insulators for indoor and outdoor use General definitions, test methods and acceptance criteria (IEC 62217..2012, MOD) 2019-12-10 release 2020-07-01 implementation State Administration of Market Supervision Published by the National Standardization Management Committee

Contents

Foreword III Introduction Ⅴ 1 Scope 1 2 Normative references 1 3 Terms and definitions 2 4 Patterns and logos 4 5 Ambient conditions 4 6 Transport, storage and installation information 4 7 Test classification 4 7.1 Design test 4 7.2 Type test 5 7.3 Sampling test 5 7.4 Test one by one 5 8 General requirements for insulator samples 5 9 Design test 6 9.1 General 6 9.2 Interface and end fitting connection test 6 9.2.1 General 6 9.2.2 Sample 6 9.2.3 Reference voltage and temperature for verification test 6 9.2.4 Reference dry power frequency test 6 9.2.5 Product pre-stressing 6 9.2.6 Water immersion prestressing 6 9.2.7 Verification test 7 9.3 Umbrella cover material and umbrella test 8 9.3.1 Hardness test 8 9.3.2 1000h UV light test 8 9.3.3 Tracking and erosion test-1000h salt spray test-Procedure 8 9.3.4 Flammability test 10 9.3.5 Electric tracking resistance and erosion test of umbrella cover material 10 9.3.6 Hydrophobicity test of composite insulators (suitable for silicone rubber umbrella cover materials) 11 9.4 Core material test 12 9.4.1 Dye penetration test 12 9.4.2 Water diffusion test 12 Appendix A (informative appendix) This standard and IEC 62217..2012 chapter number comparison list 16 Appendix B (informative) List of technical differences between this standard and IEC 62217..2012 and their causes 18 Appendix C (Informative) Differences between the tracking and erosion test and accelerated aging test of polymer insulator Appendix D (informative) Test recommendation table 21 Appendix E (Informative) Explanation of Design Test Category Concepts 22 References 23 Figure 1 Example of boiling vessel for water diffusion test 13 Figure 2 Sample of core material test 14 Figure 3 Electrode for voltage test 14 Figure 4 Voltage test circuit 15 Table 1 Normal environmental conditions 4 Table 2 Initial NaCl content in water corresponding to sample size 9 Table 3 Flammability requirements 10 Table A.1. Comparison between this standard and IEC 62217..2012 Table B.1 Technical differences between this standard and IEC 62217..2012 and their causes 18 Table D.1 Test recommendations for polymer insulators Table 21

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard replaces GB/T 22079-2008 "General indoor and outdoor polymer insulators for nominal voltages greater than 1000V. Compared with GB/T 22079-2008, the main technical changes are as follows. --- As the definition of “high voltage” is clear, the applicable product range of this standard includes polymer insulators for AC and DC systems (see (Chapter 1, Chapter 1 of the.2008 edition); --- Adjusted normative references (see Chapter 2, Chapter 2 of the.2008 edition); --- Added terms and definitions of "high pressure" (see 3.1); --- In order to maintain consistency with IEC 62217..2012 and reduce exclusivity, the 3.2 note is replaced by "connecting parts can be installed in the insulation "Both ends" was changed to "connection parts can be installed at the ends of the insulation parts" (see Note 3.2, Note 3.1 of the.2008 edition); --- Modified the title of Chapter 4 (see Chapter 4, Chapter 4 of the.2008 edition); --- Modified the content of "creepage distance" (see Chapter 8, Chapter 8 of the.2008 edition); --- Added 9.2.1 General (see 9.2.1); --- Added 9.2.7.1 general rules (see 9.2.7.1); --- Modified the procedure of "steep wave front impulse voltage test" and added "Note 1 and Note 2" (see 9.2.7.3.1, 9.2.6.2.1 of the.2008 version); --- Modified the acceptance criteria of the "steep wave front impulse voltage test" (see 9.2.7.3.2,.2008. 9.2.6.2.2); --- Revised the acceptance criteria for "dry power frequency voltage test" (see 9.2.7.4.2,.2008. 9.2.6.3.2); --- Added the content of salt spray test at 1000h under DC voltage (see 9.3.3.6,.2008 version 9.3.3.1.1.6); --- Increased the requirements of the flammability test criteria (see Table 3, 9.3.4.2 of the.2008 edition); --- Added requirements for DC products in the tracking resistance and erosion test of umbrella cover materials (see 9.3.5); --- Increased the requirements for the hydrophobicity test of composite insulators (suitable for silicone rubber umbrella cover materials) (see 9.3.6); --- Modified the sample size and judgment criteria of the dye penetration test (see 9.4.1.1 and 9.4.1.2, 9.4.1.1 and 9.4.1.2 of the.2008 edition); --- Removed Appendix A and Appendix B of the.2008 edition. This standard uses the redrafting method to modify and adopt IEC 62217..2012 "high-voltage polymer insulators for indoor and outdoor use-general definition, Test methods and acceptance criteria. Compared with IEC 62217..2012, this standard has more structural changes.Appendix A lists this standard and IEC 62217..2012. List of chapter and article numbers for comparison. There are technical differences between this standard and IEC 62217..2012, and the terms related to these differences have passed through the margins on their outer margins. The installed vertical single line (|) is marked, and a list of corresponding technical differences and their causes is given in Appendix B. This standard was proposed by the China Electrical Equipment Industry Association. This standard is under the jurisdiction of the National Insulator Standardization Technical Committee (SAC/TC80). This standard was drafted. Tsinghua University, Xi'an High Voltage Apparatus Research Institute Co., Ltd., China Electric Power Research Institute Co., Ltd. Division, State Grid Electric Power Research Institute, China Southern Power Grid Science Research Institute Co., Ltd., Electric Power Planning and Design Institute, Xi'an Xidian Electric Research Institute Co., Ltd., Dalian Electric Porcelain Group Transmission and Transformation Material Co., Ltd., Changyuan High Energy Electric Co., Ltd., Guangzhou Makling Power Equipment Co., Ltd., Nanjing Electrical Insulator Co., Ltd., Chongqing University, State Grid Hubei Electric Power Co., Ltd. Electric Power Research Institute, State Grid Zhejiang Electric Power Research Institute of Electric Power Co., Ltd., Xiangyang State Grid Synthetic Insulator Co., Ltd., Wenzhou Yikun Electric Co., Ltd., Jiangsu Shenma Electric Power Co., Ltd., Zibo Taiguang Power Equipment Factory, State Grid Jiangsu Electric Power Co., Ltd. Electric Power Research Institute, Jiangsu Xiangyuan Electric Equipment Co., Ltd. Equipment Co., Ltd., Xi'an Gaoqiang Insulation Electric Co., Ltd., Shaanxi Taipu Rui Electrical Insulation Technology Company, Evergrande Electric Co., Ltd., Zhengzhou Xianghe Group Electrical Equipment Co., Ltd., Sinoma Jiangxi Electric Ceramics Co., Ltd., Chint Electric Co., Ltd., Henan Pinggao Electric Co., Ltd. Company, Yantai Ludian Line Equipment Co., Ltd., Henan Jingwei Power Technology Co., Ltd., Jiangsu Jinsanli Power Equipment Industry Co., Ltd. Company, Cangzhou Hualing Electric Co., Ltd., Baoding Jikai Power Equipment Co., Ltd. The main drafters of this standard. Liang Xidong, Hu Wenqi, Li Qingfeng, Yang Yingjian, Wu Xia, Luo Bing, Yao Junrui, Zhang Rui, Li Yongshuang, Dang Zhenping, Deng Tao, Bo Xuewei, Zhao Hui, Xu Wenrong, Ouyang Xudan, Zhang Shangang, Jiang Xingliang, Yao Yao, Wang Shaohua, Wang Yunpeng, Yang Hongjun, Yu Mingxuan, Zhou Shuchen, Wei Xia, Gao Song, Zhang Dejin, Zhang Baoying, Zhang Haichao, Hu Jinbing, Guo Huihao, Yang Ming, Zhang Shuliang, Xu Weixing, Liu Qinghua, Chen Xinjian, Yan Shanzhi, Bai Shujie, He Long, Wei Peng. The previous versions of the standards replaced by this standard are. --- GB/T 22079-2008.

Introduction

The polymer insulator is composed of one kind of insulating material (resin insulator), two or more kinds of insulating materials (composite insulator). Insulation Materials Organic compounds usually synthesized from carbon or silicon compounds are crosslinked and form insulators. Insulating materials can consist of different organic and inorganic components Of organic materials such as fillers and additives. End fittings are used at the ends of the insulator to transfer mechanical loads. Despite these universal Features, materials used by different manufacturers and structural details used may vary greatly. For most insulator designs, materials, and their final applications, this standard gives general test items. To avoid in related products The standards are repeated, and the procedures of different product standards are drafted or modified, and the test items are reorganized in this standard. Most of these tests are combined into a design test. For insulators of the same design, they are performed only once. Design test It is to eliminate parts of insulators that are not suitable for high voltage applications in design, materials or manufacturing processes. Time for complete polymer insulator The influence of the electrical properties of the components and its components (core material, jacket, interface, etc.) should be considered when determining the design test, the purpose is Ensure that the insulator has a satisfactory service life under normal operating and environmental conditions. The contamination test specified in GB/T 4585 or GB/T 22707 is not included in this standard, and the applicability of the method to composite insulators has not been confirmed. The above-mentioned pollution test results of polymer insulators are inconsistent with actual operating experience. Pollution tests on polymer insulators Considering. The purpose of the screening test in the 1000h salt spray tracking and erosion test is to eliminate unsuitable materials or designs, not to predict the absolute Long-term performance of margin design under cumulative operating stress. See Appendix C for more information. The first edition of this standard (GB/T 22079-2008) also includes two optional tracking and erosion tests (one is 5000h multi-stress Test, one is runner test), these methods are no longer a normative option. Composite insulators have been widely used in AC and DC systems. China has carried out electric tracking and erosion resistance tests, tracking and erosion of umbrella cover materials Damage test-1000h salt spray and other tests under the corresponding DC voltage test, the test procedure has been specified and accepted in the design test. High-voltage polymer insulators for indoor and outdoor use General definitions, test methods and acceptance criteria

1 Scope

This standard specifies common test classifications and test methods for polymer insulator design tests, as well as acceptance or non-conformance when applicable. Guidelines. These tests and guidelines are to ensure a satisfactory use of the insulator under normal operating and environmental conditions (see Chapter 5). life. This standard defines the general term for polymer insulators. This standard should be used in conjunction with relevant product standards. This standard applies to polymer insulators composed of one or more organic materials. These polymer insulators contain solid And hollow insulators, used in high-voltage overhead lines of AC and DC systems, indoor and outdoor equipment.

2 Normative references

The following documents are essential for the application of this document. For dated references, only the dated version applies to this article Pieces. For undated references, the latest version (including all amendments) applies to this document. GB/T 531.1 Test method for indentation hardness of vulcanized rubber or thermoplastic rubber Part 1. Shore hardness tester (Shore hardness) (GB/T 531.1-2008, ISO 7619-1..2004, IDT) GB/T 2423.17 Environmental test for electric and electronic products Part 2. Test method Test Ka. Salt spray (GB/T 2423.17- 2008, IEC 60068-2-11. 1981, IDT) GB/T 2900.8-2009 Insulators for electrical terms (IEC 60050-471..2007, IDT) GB/T 3505 Product Geometry Technical Specification (GPS) Terms, Definitions and Surface Structure Parameters of Surface Structure Profile Method (GB/T 3505-2009, ISO 4287..1997, IDT) GB/T 4585-2004 Artificial pollution test for high-voltage insulators for AC systems (IEC 60507..1991, IDT) GB/T 4796 Classification of environmental conditions Part 1. Environmental parameters and their severity (GB/T 4796-2017, IEC 60721-1. (2002, IDT) GB/T 5169.16 Fire hazard test for electric and electronic products Part 16. Test flame 50W horizontal and vertical flame test method Law (GB/T 5169.16-2017, IEC 60695-11-10..2003, IDT) GB/T 6062 Nominal characteristics of geometrical technical specifications (GPS) surface structure contour method contact (stylus) instrument (GB/T 6062-2009, ISO 3274..1996, IDT) GB/T 6553-2013 Test method for assessing the resistance to electrical tracking and erosion of electrical insulation materials used under severe environmental conditions (IEC 60587. 1984, IDT) GB/T 16422.2 Test methods for exposure of plastic laboratory light sources. Part 2. Xenon arc lamps (GB/T 16422.2-2014, (ISO 4892-2..2006, IDT) GB/T 16927.1 High-voltage test technology Part 1. General definition and test requirements (GB/T 16927.1-2011, (IEC 60060-1..2010, MOD) GB/T 24622-2009 Guidelines for measuring the wettability of insulator surfaces (IEC 62073..2003, IDT) GB/T 26218.1 Selection and sizing of high-voltage insulators used in contaminated conditions. Part 1. Definitions, information and general Principle (GB/T 26218.1-2010, IEC /T S60815-1..2008, MOD)

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