J17 齿轮与齿轮传动 标准查询与下载

BS ISO 1328-1:2013 圆柱齿轮.ISO侧翼公差分类体系.齿轮齿侧翼相关偏差容许值和定义

Cylindrical gears. ISO system of flank tolerance classification. Definitions and allowable values of deviations relevant to flanks of gear teeth

ISO 1328-1:2013 圆柱齿轮.ISO侧翼公差分类体系.第1部分:齿轮齿侧翼相关偏差容许值和定义

This part of ISO 1328 establishes a tolerance classification system relevant to manufacturing and conformity assessment of tooth flanks of individual cylindrical involute gears. It specifies definitions for gear flank tolerance terms,the structure of the flank tolerance class system,and allowable values.

Cylindrical gears.ISO system of flank tolerance classification.Part 1: Definitions and allowable values of deviations relevant to flanks of gear teeth

JIS B 1759:2013 圆柱形塑料齿轮的轮齿弯曲强度评估

Estimation of tooth bending strength of cylindrical plastic gears

JIS B 1812:2013 与链条、链齿轮和附件相关的术语汇编

This Standard specifies the terms and definitions relating to chains, sprockets and accessories used for transmission and conveyance.

Glossary of terms relating to chains, sprockets and accessories

JIS B 0102-1:2013 齿轮术语词汇.第1部分:与几何有关的定义

This Standard specifies the definitions of geometrical terms related to gears.

Vocabulary of gear terms .Part 1: Definitions related to geometry

JIS B 0102-2:2013 齿轮术语词汇.第1部分:与蜗轮几何有关的定义

This Standard specifies the definitions of geometrical terms related to worm gears.

Vocabulary of gear terms .Part 2: Definitions related to worm gear geometry

ANSI/AGMA 6032-B-2013 船用齿轮装置标准:正齿轮和斜齿轮的评级和应用

Standard for Marine Gear Units: Rating and Application for Spur and Helical Gear Teeth

DIN 21772:2012 齿轮. 圆柱形渐开线齿轮和齿轮副. 偏差定义

Gears - Cylindrical involute gears and gear pairs - Definition of deviations

JIS B 0003:2012 技术制图.齿轮

This Standard specifies the technical drawings for manufacture of the following gears of eight types used in general machines. This Standard specifies the matters specific to gears.General matters contained in the drawings of gears shall be in accordance with JIS B0001,JIS B0021 and JIS B0031.

Technical drawings -- Gears

JIS B 0121:2012 国际齿轮符号表示法.几何数据符号

International gear notation -- Symbols for geometrical data

JIS B 1701-1:2012 一般和重型机械用圆柱型齿轮.第1部分:原始齿形

Cylindrical gears for general and heavy engineering -- Part 1: Standard basic rack tooth profile

ANSI/AGMA 6008-B-2012 粉末冶金齿轮规格

This standard defines the minimum detailed information to be included in the powder metallurgy gear specifications submitted by the gear purchaser to the gear producer. This information covers gear tooth geometry data, gear drawing specifications and gear material specifications.

Specifications for Powder Metallurgy Gears

DB34/T 1551-2011 NT系列模块化齿轮箱通用技术要求

本标准适用于煤矿、冶金、电力、矿山、建材、物料搬运、化工、起重、运输、石油、纺织、造纸、食品、塑料、橡胶、能源发电、环保等各类机械设备的传动。

General technical requirement of NT series gear reducers

DIN ISO 14635-3:2011 齿轮.FZG试验程序.第3部分:半流齿轮润滑脂压塑性变形承载能力和耐磨性用A/2,8/50 FZG试验方法(ISO 14635-3-2005)

The part of ISO 14635 specifies a test method based on an FZG four-square test machine for determining the relative load-carrying capacity of semi-fluid gear greases defined by the gear surface damage known as scuffing. This method is useful for evaluating the scuffing load capacity potential of semi-fluid gear greases of NLGI classes 0 to 000, typically used with highly stressed gearing for enclosed gear drives. It can only be applied to greases giving a sufficient lubricant flow in the test gear box of the FZG test machine.

Gears - FZG test procedures - Part 3: FZG test method A/2,8/50 for relative scuffing load-carrying capacity and wear characteristics of semifluid gear greases (ISO 14635-3:2005)

ISO/TR 22849:2011 锥齿轮设计推荐规范

This Technical Report provides information for the application of bevel and hypoid gears using the geometry in ISO 23509, the capacity as determined by ISO 10300 (all parts) and the tolerances in ISO 17485. This Technical Report provides additional information on the application, manufacturing, strength and efficiency of bevel gears for consideration in the design stage of a new bevel gear set. The term “bevel gear” is used to mean straight, spiral, zerol bevel and hypoid gear designs. Where this Technical Report pertains to one or more, but not all, the specific forms are identified. The manufacturing process of forming the desired tooth form is not intended to imply any specific process, but rather to be general in nature and applicable to all methods of manufacture. This Technical Report is intended for use by an experienced gear designer capable of selecting reasonable values for the required data based on his/her knowledge and background. It is not intended for use by the engineering public at large.

Design recommendations for bevel gears

ANSI/AGMA 2008-2011 锥齿轮的装配

This Manual applies to the assembly of all bevel gears. While certain design considerations and development techniques are mentioned to clarify different aspects, this Manual is not intended as a design guide.

Assembling Bevel Gears

KS B ISO 6336-6:2010 直齿轮和斜齿轮承载能力的计算.第6部分:变化负荷下工作寿命计算

이 표준은 ISO 6336에서 변동부하에 대한 기어의 내용연수(또는 요구수명에 대한 안전

Calculation of load capacity of spur and helical gears－Part 6：Calculation of service life under variable load

ISO/TR 15144-1:2010 圆柱正齿轮和斜齿轮的微点蚀承载能力计算.第1部分:简介与基本原理

This part of ISO/TR 15144 describes a procedure for the calculation of the micropitting load capacity of cylindrical gears with external teeth. It has been developed on the basis of testing and observation of oil-lubricated gear transmissions with modules between 3 mm and 11 mm and pitch line velocities of 8 m/s to 60 m/s. However, the procedure is applicable to any gear pair where suitable reference data is available, providing the criteria specified below are satisfied. The formulae specified are applicable for driving as well as for driven cylindrical gears with tooth profiles in accordance with the basic rack specified in ISO 53. They are also applicable for teeth conjugate to other basic racks where the virtual contact ratio is less than ε = 2,5. The results are in good agreement with other methods for normal working pressure angles up to 25°, reference helix angles up to 25° and in cases where pitch line velocity is higher than 2 m/s. This part of ISO/TR 15144 is not applicable for the assessment of types of gear tooth surface damage other than micropitting.

Calculation of micropitting load capacity of cylindrical spur and helical gears - Part 1: Introduction and basic principles

ISO/TR 14521:2010 齿轮.蜗轮负载能力的计算

WARNING — Special attention is required when establishing the tooth geometry especially for C type gear profile. This Technical Report specifies equations for calculating the load capacity of cylindrical worm gears and covers load ratings associated with wear, pitting, worm deflection, tooth breakage and temperature. Scuffing and other failure modes are not covered by this Technical Report. The load rating and design procedures are valid for sliding velocities over tooth surfaces of up to 25 m/s and contact ratios equal to or greater than 2,1. For wear, sliding velocities over tooth surfaces are not below 0,1 m/s. The rules and recommendations for the dimensioning, lubricants or materials selected by this Technical Report only apply to centre distances of 50 mm and larger. For centre distances below 50 mm, method A applies. The choice of appropriate methods of calculation requires knowledge and experience. This Technical Report is intended for use by experienced gear designers who are able to make informed judgements concerning factors. It is not intended for use by engineers who lack the necessary experience. See 5.4. The geometry of worm gears is complex, therefore the user of this Technical Report is encouraged to make sure that a valid working geometry has been established.

Gears - Calculation of load capacity of wormgears

JIS B 1702-3 ERRATUM 1:2010 勘误表

ERRATUM