J26 弹簧 标准查询与下载

KS B ISO 10069-1:2007 冲压工具.弹性体压缩弹簧.第1部分:通用规范

이 규격은 프레스 금형에 사용되는 원통형 고무 스프링 및 고무 스프링을 위한 카운터 보링구

Tools for pressing－Elastomer pressure springs－Part 1：General specification

KS B ISO 10069-2:2007 冲压工具.弹性体压缩弹簧.第2部分:附件规范

이 규격은 KS B ISO 10069-1에 따라 고무 스프링과 함께 프레스 금형에 사용되는

Tools for pressing－Elastomer pressure springs－Part 2：Specification of accessories

DIN 2093 Berichtigung 1:2007 盘形弹簧.质量规范.尺寸.DIN 2093:2006-03的勘误

Disc springs - Quality specifications - Dimensions, Corrigenda to DIN 2093:2006-03

JIS B 0004:2007 弹簧的技术表示法

この規格は，ばねの図示方法及び設計·製作仕様の表示方法について規定する。

Technical representation of springs

JIS B 2712:2006 弹簧的薄板材的应力松弛试验方法

この規格は，一定のたわみ量及び一定温度の条件の下で，板厚0.15 mm以上1.0mm以下のばね用薄板の曲げ応力に対する応力緩和試験方法について規定する。

Method of stress relaxation test for thin plates for springs

DIN 2093:2006 盘形弹簧.质量规范.尺寸

This document defines dimensions and requirements for disc springs divided in 3 groups as well as data on material, design, heat and surface treatment and testing.

Disc springs - Quality specifications - Dimensions

DIN 2092:2006 盘形弹簧.计算

This standard specifies design criteria and features of disc springs, whether as single disc springs or as stacks of disc springs. It includes the definition of relevant concepts as well as design formulae, and covers the fatigue life of such springs.

Disc springs - Calculation

ISO 22762-3:2005 弹性地震防护隔离物.第3部分:应用于建筑物.规范

ISO 22762 applies to elastomeric seismic isolators used to provide buildings or bridges with protection from earthquake damage. The isolators covered consist of alternate elastomer layers and reinforcing steel plates. They are placed between a superstructure and its substructure to provide both flexibility for decoupling structural systems from ground motion, and damping capability to reduce displacement at the isolation interface and the transmission of energy from the ground into the structure at the isolation frequency. This part of ISO 22762 specifies the requirements for elastomeric seismic isolators used for buildings and the requirements for the rubber material used in the manufacture of such isolators. The specification covers requirements, design rules, manufacturing tolerances, marking and labelling and test methods for elastomeric isolators. Some items of classification and some requirements need to be confirmed before production and these should be reviewed using the list given in Annex B.

Elastomeric seismic-protection isolators - Part 3: Applications for buildings - Specifications

ISO 22762-2:2005 弹性地震防护隔离物.第2部分:应用于桥梁.规范

ISO 22762 applies to elastomeric seismic isolators used to provide buildings or bridges with protection from earthquake damage. The isolators covered consist of alternate elastomer layers and reinforcing steel plates. They are placed between a superstructure and its substructure to provide both flexibility for decoupling structural systems from ground motion, and damping capability to reduce displacement at the isolation interface and the transmission of energy from the ground into the structure at the isolation frequency. This part of ISO 22762 specifies the requirements for elastomeric seismic isolators used for bridges and the requirements for the rubber material used in the manufacture of such isolators. The specification covers requirements, design rules, manufacturing tolerances, marking and labelling and test methods for elastomeric isolators. Some items of classification and some requirements need to be confirmed before production and these should be reviewed using the list given in Annex D.

Elastomeric seismic-protection isolators - Part 2: Applications for bridges - Specifications

ISO 22762-1:2005 弹性地震防护隔离物.第1部分:试验方法

ISO 22762 applies to elastomeric seismic isolators used to provide buildings or bridges with protection from earthquake damage. The isolators covered consist of alternate rubber layers and reinforcing steel plates. They are placed between a superstructure and its substructure to provide both flexibility for decoupling structural systems from ground motion, and damping capability to reduce displacement at the isolation interface and the transmission of energy from the ground into the structure at the isolation frequency. This part of ISO 22762 specifies the test methods for determination of the characteristics of elastomeric seismic isolators and for measurement of the properties of the rubber material used in their manufacture. The specifications cover testing for all properties required in the elastomeric isolators, such as compression and shear properties, the durability of the isolators and the physical properties of the materials used in isolators. Annex E may be used to review those requirements needing confirmation prior to the test programme.

Elastomeric seismic-protection isolators - Part 1: Test methods

JIS B 0103:2005 弹簧的术语汇编

この規格は，ばね用語（以下，用語という。）につぃて規定する。備考 この規格の対応国際規格を，次に示す。なお，対応の程度を表す記号は，ISO/IEC Guide 21に基づき， IDT(一致している)，MOD（修正している），NEQ(同等でない)とする。

Glossary of terms used in springs

WJ 2674-2005 小口径火炮用环形弹簧规范

本规范规定了小口径火炮用环形弹箐的要求、 质重保证规定和交货准备等内容。 本规范适用于口径为20 mm~37 mm火炮用环形弹簧的设计、 制造和验收。

Specifications for ring springs used for small caliber guns

ASTM F1577-05(2012) 双开式弹簧门安全锁的标准试验方法

A major concern for detention and correctional administrative officials is the reliable operation of locks used in their facilities. These test methods aid in assigning a level of physical security and performance to locks for swinging door assemblies. These test methods evaluate the resistance of a lock to attacks using battering devices, prying devices, and fire. These test methods also evaluate the performance of a lock under simulated operating conditions. These test methods do not provide a measure of the resistance or performance of a lock subjected to attack by chemical agents, ballistics, explosives, or other extreme methods of attack. These test methods do not measure the resistance or performance of the device when subjected to environmental elements such as rain, snow, or wind-carried dust or sand. Where such elements may be a factor, the manufacturer should be consulted for proper application. The primary purpose of these test methods is to approximate the levels of abuse and operating conditions to which locks are subjected in detention and correctional institutions. The desired result of these test methods will provide a measure of assurance of protection to the correctional personnel, public, and inmates. It is recommended that the detention/correctional facility administration provide adequate training, supervision, and preventative maintenance programs to enable door assemblies to function as intended throughout the expected service life.1.1 These test methods cover the apparatus, procedures, and acceptance conditions for evaluating the normal operational performance and the performance characteristics under assault conditions of locks used in swinging door assemblies in detention and correctional institutions. Thus, they give only an indication of the performance characteristics of locks in actual service. Such variables as installation and maintenance conditions are not considered. 1.2 It is the intent of these test methods to help ensure that detention locks perform at or above minimum acceptable levels to control passage to unauthorized or secure areas, to confine inmates, and to delay and frustrate escape attempts and resist vandalism. It is recognized that in order to meet the intent of these test methods, door and frame assemblies must be compatible with the level of performance required by Test Methods F1450. 1.3 The values stated in inch-pound units are to be regarded as the standard. The values in parentheses are for information only. 1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Methods for Detention Locks for Swinging Doors

JB/T 10418-2004 气弹簧设计计算

本标准规定了气弹簧的一般性设计计算。 　　本标准适用于压缩气弹簧和可锁定气弹簧(不包括压缩支承平衡气弹簧)。

Gas springs specification

JB/T 10417-2004 摩托车减震弹簧.技术条件

本标准规定了摩托车减震弹簧的技术要求、试验方法、检验规则、标志、包装、运输及贮存。 　　本标准适用于摩托车减振器用螺旋压缩弹簧。

Motorcycle absorber spring technical specifications

JB/T 10416-2004 悬架用螺旋弹簧.技术条件

本标准规定了汽车悬架用螺旋弹簧的技术要求、试验方法、标志包装、试验和检验规则。 　　本标准适用于汽车悬架用螺旋弹簧。

Automobile suspension springs specification

SAE J1122-2004 螺旋弹簧:规格核对清单

The following SAE Recommended Practice furnishes sample forms for helical compression, extension and torsion springs to provide a uniform method for specifying design information. It is not necessary to fill in all the data, but sufficient information must be supplied to fully describe the part and to satisfy the requirements of its application. For detailed information, see "Design and Application of Helical and Spiral Springs - SAE HS 795", also "Helical Compression and Extension Spring Terminology - SAE J1121". Both of these documents use SI (metric) Units in accordance with the provisions of SAE TSB 003, as does SAE J1122. Here, however, the U.S. Customary Units (in, lb, psi) have been added in parentheses after each SI Unit for the convenience of the user who must furnish specifications on a project where all requirements are listed in non-metric terms.

Helical Springs: Specification Check Lists

DIN 2099-2:2004 圆线材和棒材制螺旋弹簧.第2部分:获取所需的冷成型拉伸弹簧而给出的信息.印制格式B

This standard apples without any restrictions only to cold coiled helical extension springs made from round wire and bar.

Helical springs made of round wire and rod - Part 2: Information to be given in order to obtain the cold formed tension springs required, printed form B

DIN 2099-3:2004 圆线材及棒材制螺旋弹簧.第3部分:热成形压缩弹簧要求的信息.印样C

This standard applies to warm coiled cylindrical compression springs made from round wire and bar designed in accordance with DIN EN 13906-1.

Helical springs made of round wire and rod - Part 3: Information to be given in order to obtain the hot formed compression spring required, printed form C

DIN 2099-1:2003 圆丝材和棒材制螺旋式弹簧.第1部分:冷成形压缩弹簧所需的信息.打印表格A

This standard applies without restriction solely to cold formed helical compression springs made from wire and bar. It specifies a form in A4 format according to DIN EN ISO 216 for the information to be supplied on these compression springs. NOTE 1 When designing compression springs from sectional steel, it shall be noted that non-standardized sections cannot always be supplied, in many cases, however, the square section can be replaced by a circular cross-section. NOTE 2 If compression springs made of sectional steels cannot be avoided in special cases, e.g. for installation reasons, it is necessary to consult the spring manufacturer. The form can then be completed according to corresponding agreements about design and permissible deviations.

Helical springs made of round wire and rod - Part 1: Information to be given in order to obtain the cold formed compression spring required; Printed form A