标准编号:	GB/T 13871.1-2022
中文名称:	密封元件为弹性体材料的旋转轴唇形密封圈 第1部分：尺寸和公差
英文名称:	Rotary shaft lip-type seals incorporating elastomeric sealing elements—Part 1:Dimensions and tolerances
中标分类:	G43    橡胶密封件
行业分类:	GB    国家标准
发布机构:	国家市场监督管理总局 国家标准化管理委员会
发布日期:	2022-10-12
实施日期:	2023-5-1
标准状态:	valid
替代旧标准:	GB/T 13871.1-2007 密封件为弹性体材料的旋转轴唇形密封圈 第1部分:基本尺寸和公差
翻译语言:	英文
文件格式:	PDF
翻译字数:	21000 字
交付时间:	1~3 个工作日

Foreword This document is drafted in accordance with the provisions of GB/T 1.1-2020 "Guidelines for standardization work Part 1: Structure and drafting rules of standardization documents". This document is Part 1 of GB/T 13871 "Rotary shaft lip seals whose sealing elements are elastomeric materials". GB/T 13871 has published the following parts: ---Part 1:Dimensions and tolerances; ---Part 2:Vocabulary; ---Part 3:Storage, handling and installation; ---Part 4: Performance test procedures; ---Part 5:Identification of defects in appearance. This document replaces GB/T 13871.1-2007 "sealing elements for elastomeric materials rotary shaft lip seal Part 1: Basic dimensions and tolerances", compared with GB/T 13871.1-2007, in addition to structural adjustments and editorial changes, the main technical changes are as follows: a) Changed the expression of "range", deleted the basic type and other contents (see Chapter 1, Chapter 1 of the 2007 version); b) The symbols "h cavity bore depth", "l cavity, shaft chamfer length" and "r cavity bore fillet radius" have been added and the symbol d2 has been deleted; the symbols b, d1 and D have been changed (see Chapter 4). (see chapter 4, chapter 4 of the 2007 edition); c) Added use of pressure (see 6.1); d) Added diagram of seal assembly (see Figure 5); e) Changed "Nominal Size" to "Size Series", added d1 for 450 and 480 (see 6.2, Table 1, Chapter 5, Table 1 of 2007 edition); f) Added "Tolerance and tolerance of the main lip diameter of the seal" (see 6.3.1, Table 2); g) Changed the surface roughness of the shaft and increased the surface hardness requirement of the shaft (see 7.3, 6.3 of the 2007 edition); h) Dimensional identification codes have been changed (see Table 7, Table 6 of the 2007 edition). This document is modified to adopt ISO 6194-1:2007 "Rotary shaft lip seals with elastomeric materials as sealing elements Part 1: Nominal dimensions and tolerances". Compared with ISO 6194-1:2007, this document has more adjustments in structure. See Appendix A for a comparison of the structural numbering changes between the two documents. The main technical differences between this document and ISO 6194-1:2007 and their reasons are as follows: a) The normative reference GB/T 13871.2 replaced ISO 6194-2 (see Chapter 3), in order to adapt to the technical conditions in China; b) replaced ISO 5598 (see Chapter 3) with the normative reference GB/T 17446 to adapt to the technical conditions in China; c) Changed the symbols of "depth of bore in cavity", "diameter of shaft or main lip of seal", "diameter of bore in cavity or outer diameter of seal", and added the symbol l The symbol "length of the chamfer of the cavity or shaft" (see Chapter 4) has been added to suit our technical conditions; d) The structure of the air side surface of the seal lip (see 5.3) has been added to adapt to our technical conditions; e) Increased the structure of the rubber part of the inner skeleton seal (see 5.4) to adapt to our technical conditions; f) Added the structure code of the seal (see 5.5) and deleted the text description in 5.2 of ISO 6194-1:2007 to adapt to the technical conditions in China and improve operability; g) Changed the use pressure (see 6.1) to meet our technical conditions; h) Increase the specification of the seal (see Table 1) to adapt to our technical conditions; i) increased the tolerance of seal interference and diameter (see 6.3.1, Table 2) to adapt to our technical conditions; j) Changed the outer diameter tolerance of the seal for D>300 outer diameter range (see Table 4), to adapt to our technical conditions; Please note that some of the contents of this document may be patent related. The issuer of this document does not assume responsibility for identifying patents. This document is presented by the China Petroleum and Chemical Industry Federation. This document is submitted by the National Technical Committee for Standardization of Rubber and Rubber Products Sealing Products Sub-Technical Committee (SAC/TC35/SC3) Categorized. This document replaces the previous versions of the document issued for: --- First released in 1992 as GB 13871-1992, first revised in 2007 as GB/T 13871.1-2007; --- This is the second revision. Introduction Rotary shaft lip seals are used to seal liquids (such as lubricating oil) in equipment with relatively low differential pressure. Usually the shaft is rotating and the chamber is stationary, in some cases the shaft is stationary and the chamber is rotating. This dynamic seal is usually achieved by designing an interference fit between the shaft and the elastomeric sealing element. Similarly, an interference fit between the outer circle of the rotating shaft lip seal and the diameter of the bore in the cavity can tighten the seal and prevent static leakage. GB/T 13871 "sealing elements for elastomeric material rotary shaft lip seal" provides for sealing elements for elastomeric material rotary shaft lip seal, to be composed of six parts. --- Part 1: Dimensions and tolerances. The purpose is for the design and acceptance of the dimensions of rotary shaft lip seals whose sealing elements are made of elastomeric materials. --- Part 2:Glossary. The purpose is to summarize and define the terms and definitions of rotary shaft lip seals whose sealing element is elastomeric material for ease of understanding and communication. --- Part 3: Storage, handling and installation. The purpose is to regulate the operation of seals during storage, handling and installation, which must be done with care to avoid damage caused before and during installation affecting the life of the seal. --- Part 4: Performance test procedures. The purpose is to test the sealing element for the elastomeric material of the rotary shaft lip seal actual use effect. ---Part 5: Identification of cosmetic defects. The purpose is to identify the quality of the appearance, to avoid leakage caused by defects. ---Part 6: Elastomer material specification. The purpose is to select suitable elastomer materials for rotary shaft lip seals under various operating conditions. 1 Scope This document specifies the symbols, construction type, operating pressure, dimensional series and tolerances, shaft requirements, cavity requirements, and dimensional identification codes for rotary shaft lip seals (hereinafter referred to as seals) whose sealing element is elastomeric material. This document applies to seals used under low pressure conditions (see 6.1). 2 Normative reference documents The contents of the following documents constitute the essential provisions of this document through the normative references in the text. Among them, note the date of the referenced documents, only the date of the corresponding version applies to this document; do not note the date of the referenced documents, the latest version (including all the change orders) applies to this document. GB/T 1031-2009 Product geometry technical specifications (GPS) surface structure profile method surface roughness parameters and their values GB/T 1800.2-2020 Product geometrical specifications (GPS) Linear dimensional tolerances ISO code system Part 2: Standard metric Difference with code and limit deviation table of holes and shafts (GB/T 1800.2-2020,ISO 286-2:2010,MOD) GB/T 13871.2 Sealing elements for elastomeric materials for rotary shaft lip seals Part 2: Vocabulary (GB/T 13871.2-2015,ISO 6194-2:2009,MOD) GB/T 17446 Glossary of fluid transmission systems and components(GB/T 17446-2012,ISO 5598:2008,IDT) 3 Terms and definitions The terms and definitions defined in GB/T 13871.2 and GB/T 17446 are applicable to this document. 4 Symbols 5 Structure type 5.1 Seal outer circle structure The outer circle structure of the seal has four common structures as shown in Figure 1. 6 Use of pressure, size series and tolerances 6.1 Use pressure The seal is usually used under the condition that the air side is atmospheric pressure and the liquid side is higher than atmospheric pressure 0kPa~50kPa. When used under other pressures, the user should consult the seal manufacturer. 6.2 Size series The diagram of the seal assembly is shown in Figure 5, and the size series are shown in Table 1. a Air side. b Liquid side. 6.3 Tolerances 6.3.1 Tolerance of seal interference and diameter Tolerances of seal interference and diameter are shown in Table 2. 7 Shaft requirements 7.1 Shaft chamfering The end of the shaft should be provided with chamfering, see Figure 6 and Table 5, and the end of the shaft should be free of burrs, sharp edges or rough machining marks. Note: See GB/T 13871.3 for the installation tool. When using the installation tool, ensure that the sealing lip is not damaged. 7.2 Shaft Diameter Tolerance Shaft diameter tolerance should not be greater than h11 in GB/T 1800.2-2020. 7.3 Shaft surface roughness and hardness 7.3.1 Surface roughness Shaft and seal contact surface should be taken by grinding processing methods (there should be no grinding processing wire), roughness should be in line with GB/T 1031-2009 in Ra0.2μm ~ Ra0.8μm or Rz0.8μm ~ Rz3.2μm. If the shaft surface roughness value is not within the limit value given in this document, it should be determined by the user and the seal manufacturer in consultation. 8 Requirements of the cavity 8.1 Dimensions 8.1.1 If the cavity is made of ferrous material, the bore of the mounting cavity shall meet the requirements of 8.2 and 8.3. 8.2 Cavity bore tolerance The cavity bore tolerance should not be greater than H8 in GB/T 1800.2-2020. 9 Size identification code Size identification code by the seal structure code (see 5.5), shaft diameter, cavity bore diameter, seal axial width, see Table 7 for examples. 10 Marking Instructions When complying with this document, it is recommended that seal manufacturers use the following text in test reports, catalogs and sales documents: "The basic dimensions and tolerances of the seal, shaft and mounting cavity are in accordance with GB/T 13871.1 "Rotary shaft lip seals with elastomeric materials as sealing elements

Foreword Introduction 1 Scope 2 Normative reference documents 3 Terms and definitions 4 Symbols 5 Structure type 6 Use of pressure, size series and tolerances 7 Shaft requirements 8 Requirements of the cavity 9 Size identification code 10 Marking Instructions

前言 本文件按照GB/T 1.1-2020《标准化工作导则 第1部分:标准化文件的结构和起草规则》的规定起草。 本文件是GB/T 13871《密封元件为弹性体材料的旋转轴唇形密封圈》的第1部分。GB/T 13871已经发布了以下部分: ---第1部分:尺寸和公差; ---第2部分:词汇; ---第3部分:贮存、搬运和安装; ---第4部分:性能试验程序; ---第5部分:外观缺陷的识别。 本文件代替GB/T 13871.1-2007《密封元件为弹性体材料的旋转轴唇形密封圈 第1部分:基本尺寸和公差》,与GB/T 13871.1-2007相比,除结构调整和编辑性改动外,主要技术变化如下: a) 更改了 “范围”的表述,删除其中的基本类型等内容(见第1章,2007年版的第1章); b) 增加了符号“h腔体内孔深度”“l腔体、轴倒角长度”“r 腔体内孔圆角半径”,删除符号d2;更改了符号b、d1 和D 的表述(见第4章,2007年版的第4章); c) 增加了使用压力(见6.1); d) 增加了密封圈的装配示意图(见图5); e) 更改了 “公称尺寸”为“尺寸系列”,增加了d1 为450和480两种规格(见6.2、表1,2007年版的第5章、表1); f) 增加了“密封圈的主唇口直径过盈量及公差”(见6.3.1、表2); g) 更改了轴的表面粗糙度,增加了轴的表面硬度要求 (见7.3,2007年版的6.3); h) 更改了尺寸标识代码(见表7,2007年版的表6)。 本文件修改采用ISO 6194-1:2007《密封元件为弹性体材料的旋转轴唇形密封圈 第1部分:公称尺寸和公差》。 本文件与ISO 6194-1:2007相比,在结构上有较多调整。两个文件的结构编号变化对照一览表见附录A。 本文件与ISO 6194-1:2007的主要技术差异及其原因如下: a) 用规范性引用的GB/T 13871.2替换了ISO 6194-2(见第3章),以适应我国的技术条件; b) 用规范性引用的GB/T 17446替换了ISO 5598(见第3章),以适应我国的技术条件; c) 更改了“腔体内孔深度”符号、“轴径或密封圈主唇直径”符号、“腔体内孔直径或密封圈外径”符号,增加了符号l“腔体或轴的倒角长度”(见第4章),以适应我国的技术条件; d) 增加了密封唇空气侧表面的结构(见5.3),以适应我国的技术条件; e) 增加了内包骨架密封圈橡胶部分的结构(见5.4),以适应我国的技术条件; f) 增加了密封圈的结构代号(见5.5),删除了ISO 6194-1:2007的5.2中的文字描述,以适应我国的技术条件,提高可操作性; g) 更改了使用压力(见6.1),以适应我国的技术条件; h) 增加了密封圈的规格(见表1),以适应我国的技术条件; i) 增加了密封圈过盈量及直径公差(见6.3.1、表2),以适应我国的技术条件; j) 更改了密封圈外径公差中,对于D>300的外径所划分的外径范围(见表4),以适应我国的技术条件; 请注意本文件的某些内容可能涉及专利。本文件的发布机构不承担识别专利的责任。 本文件由中国石油和化学工业联合会提出。 本文件由全国橡胶与橡胶制品标准化技术委员会密封制品分技术委员会(SAC/TC35/SC3) 归口。 本文件所代替文件的历次版本发布情况为: ---1992年首次发布为GB 13871-1992,2007年第一次修订为GB/T 13871.1-2007; ---本次为第二次修订。 引言 旋转轴唇形密封圈是在压差相对较低设备中密封液体(如润滑油)的。通常是轴旋转,腔体静止,有些情况下是轴静止,腔体旋转。 通常是在轴和弹性体密封元件之间设计为过盈配合来实现这种动态密封。 类似地,在旋转轴唇形密封圈外圆和腔体内孔直径之间的过盈配合能够紧固密封圈并防止静态泄漏。 GB/T 13871《密封元件为弹性体材料的旋转轴唇形密封圈》规定了密封元件为弹性体材料的旋转轴唇形密封圈,拟由6个部分组成。 ---第1部分:尺寸和公差。目的是用于密封元件为弹性体材料的旋转轴唇形密封圈的尺寸设计和验收。 ---第2部分:词汇。目的是汇总和界定密封元件为弹性体材料的旋转轴唇形密封圈的术语和定义,便于理解和沟通。 ---第3部分:贮存、搬运和安装。目的是规范密封圈在贮存、搬运和安装过程中的操作,这些操作必须小心得当,以避免在安装之前和安装过程中造成的损害影响到密封圈的使用寿命。 ---第4部分:性能试验程序。目的是检验密封元件为弹性体材料的旋转轴唇形密封圈实际使用效果。 ---第5部分:外观缺陷的识别。目的是用于辨识外观质量,避免因外观缺陷造成泄漏。 ---第6部分:弹性体材料规范。目的是为各种不同工作条件下旋转轴唇形密封圈选择适用的弹性体材料。 1 范围 本文件规定了密封元件为弹性体材料的旋转轴唇形密封圈(以下简称密封圈)的符号、结构型式、使用压力、尺寸系列和公差、轴的要求、腔体的要求以及尺寸标识代码。 本文件适用于低压条件(见6.1)下使用的密封圈。 2 规范性引用文件 下列文件中的内容通过文中的规范性引用而构成本文件必不可少的条款。其中,注日期的引用文件,仅该日期对应的版本适用于本文件;不注日期的引用文件,其最新版本(包括所有的修改单)适用于本文件。 GB/T 1031-2009 产品几何技术规范(GPS)表面结构轮廓法表面粗糙度参数及其数值 GB/T 1800.2-2020 产品几何技术规范(GPS)线性尺寸公差ISO 代号体系 第2部分:标准公 差带代号和孔、轴的极限偏差表(GB/T 1800.2-2020,ISO 286-2:2010,MOD) GB/T 13871.2 密封元件为弹性体材料的旋转轴唇形密封圈 第2部分:词汇(GB/T 13871.2-2015,ISO 6194-2:2009,MOD) GB/T 17446 流体传动系统及元件词汇(GB/T 17446-2012,ISO 5598:2008,IDT) 3 术语和定义 GB/T 13871.2和GB/T 17446界定的术语和定义适用于本文件。 4符号 5结构型式 5.1密封圈外圆结构 密封圈的外圆结构有图1所示的四种常见结构， 6 使用压力、尺寸系列及公差 6.1 使用压力 密封圈通常在空气侧为大气压,液体侧高于大气压0kPa~50kPa的条件下使用。在其他压力下使用时,用户应咨询密封圈制造商。 6.2 尺寸系列 密封圈的装配示意图见图5,尺寸系列见表1。 a 空气侧。 b 液体侧。 6.3 公差 6.3.1 密封圈过盈量及直径公差 密封圈过盈量及直径公差见表2。 7 轴的要求 7.1 轴的导入倒角 轴的端部应设置导入倒角,见图6及表5,轴的端部应无毛刺、锋利边缘或粗加工痕迹。 注:安装工具参见GB/T 13871.3,使用安装工具时应确保密封唇不被损坏。 7.2 轴径公差 轴径公差不应大于GB/T 1800.2-2020中h11。 7.3 轴的表面粗糙度和硬度 7.3.1 表面粗糙度 轴与密封圈的接触表面应采取靠磨的加工方法(不应有磨削加工导线),粗糙度应符合 GB/T 1031-2009中的Ra0.2μm~Ra0.8μm或Rz0.8μm~Rz3.2μm。 如果轴表面粗糙度值不在本文件给出的极限值内,则应由用户和密封圈制造商协商确定。 8 腔体的要求 8.1 尺寸 8.1.1 如果腔体是黑色金属材料,则安装腔体内孔应符合8.2和8.3的要求。 8.2 腔体孔径公差 腔体孔径公差不应大于GB/T 1800.2-2020中的H8。 9 尺寸标识代码 尺寸标识代码由密封圈的结构代号(见5.5)、轴径、腔体孔径、密封圈轴向宽度组成,示例见表7。 10 标注说明 当遵守本文件时,建议密封圈制造商在检测报告、产品目录和销售文件中使用以下文字:“密封圈、轴和安装腔体的基本尺寸和公差符合GB/T 13871.1《密封元件为弹性体材料的旋转轴唇形密封圈