C66 安全控制技术 标准查询与下载

WJ 9068-2010 民用爆破器材企业报废生产线销爆安全管理规程

Safety management regulations for sales and blasting of scrap production lines of civil blasting equipment enterprises

WJ 9064-2010 增雨防雹火箭弹生产安全技术条件

Safety technical conditions for the production of rain-enhancing and hail-proof rockets

JIS B 9717-1:2011 机械安全性.压敏防护设备.第1部分:压敏垫子和压敏地板设计和测试通则

This Standard specifies requirements for pressure-sensitive mats and floors normally actuated by the feet, for use as safety devices to protect persons from dangerous machinery.

Safety of machinery -- Pressure-sensitive protective devices -- Part 1: General principles for design and testing of pressure-sensitive mats and pressure-sensitive floors

DB12/ 440-2011 高处悬吊作业安全技术规程

Safety technical regulations for suspension work at heights

KS G ISO 22846-1:2010 个人防跌落保护性设备.绳索接近系统.第1部分:工作系统的基本原理

이 표준은 높은 곳에서 작업할 때 로프 접근 방법을 사용하는 기본 원리를 다루고 있다. 로

Personal equipment for protection against falls-Rope access systems-Part 1:Fundamental principles for a system of work

KS G ISO 14567:2010 防止从高处坠落的个人防护装置.单点锚定设备

이 표준은 추락 방지, 작업 포지셔닝(work positioning) 및 이동제한(trav

Personal protective equipment for protection against falls from a height－Single-point anchor devices

DIN EN ISO 14122-2/A1:2010 机械安全性.永久性进入机械的固定方式.第2部分:工作台和通道.修改件1(ISO 14122-2-2001/Amd 1:2010).德文版本EN ISO 14122-2-2001/A1-2010

Safety of machinery - Permanent means of access to machinery - Part 2: Working platforms and walkways - Amendment 1 (ISO 14122-2:2001/Amd 1:2010); German version EN ISO 14122-2:2001/A1:2010

DIN EN ISO 23907:2010 锐器伤害保护. 要求和试验方法. 锐器容器(ISO/DIS 23907-2010); 德文版本prEN ISO 23907-2010

Sharps injury protection - Requirements and test methods - Sharps containers (ISO/DIS 23907:2010); German version prEN ISO 23907:2010

DIN EN ISO 11161:2010 机械安全性.集成制造系统.基本要求(ISO 11161-2007+Amd 1-2010).德文版本EN ISO 11161-2007+A1-2010

This International Standard specifies the safet requiements for integrated anufacturing systems (IMS)that incorporate two or more interconnected machines for specific applications.

Safety of machinery - Integrated manufacturing systems - Basic requirements (ISO 11161:2007 + Amd 1:2010); German version EN ISO 11161:2007 + A1:2010

DIN EN ISO 13855:2010 机械安全性.保护设备相对于人体部位接近速度的定位(ISO 13855-2010).德文版本EN ISO 13855-2010

Safety of machinery - Positioning of safeguards with respect to the approach speeds of parts of the human body (ISO 13855:2010); German version EN ISO 13855:2010

AQ 3036-2010 危险化学品重大危险源.灌区 现场安全监控装备设置规范

本标准规定了危险化学品重大危险源灌区现场安全监控装备的设置要求和管理。 本标准适用于化工(含石油化工)行业危险化学品重大危险源灌区现场安全监控设备的设置,其他行业可参照执行。

Setting specifications for safety monitoring and controlling equipments in dangerous chemicals major hazard installations Tanks section

AQ 3035-2010 危险化学品重大危险源安全监控通用技术规范

本标准规定了危险化学品重大危险源安全监控预警系统的监控项目、组成和功能设计等技术要求。 本标准适用于化工(含石油化工)行业危险化学品重大危险源新建储罐区、库区及生产场所安全监控预警系统(以下简称系统)的设计、建设和管理,扩建或改建系统可参照执行。其他行业可参照执行。

General technical specification for dangerous chemicals major hazard installations monitoring and controlling

NF E85-003/A1:2010 机械安全性.机械装置的永久性专用通道.第3部分:楼梯、阶梯和护栏.修改件1

Safety of machinery - Permanent means of access to machinery - Part 3 : stairs, stepladders and guard-rails - Amendment 1.

NF E85-001/A1:2010 机械安全性.机械装置的永久性专用通道.第1部分:两层间通道的固定方式选择.修改件1

Safety of machinery - Permanent means of access to machinery - Part 1 : choice of fixed means of access between two levels - Amendment 1.

BS EN ISO 13855:2010 机械安全性.保障措施相对于人体部位接近速度的定位

This International Standard establishes the positioning of safeguards with respect to the approach speeds of parts of the human body. It specifies parameters based on values for approach speeds of parts of the human body and provides a methodology to determine the minimum distances to a hazard zone from the detection zone or from actuating devices of safeguards. The values for approach speeds (walking speed and upper limb movement) in this International Standard are time tested and proven in practical experience. This International Standard gives guidance for typical approaches. Other types of approach, for example running, jumping or falling, are not considered in this International Standard. Safeguards considered in this International Standard include: a) electro-sensitive protective equipment [see IEC 61496 (all parts)], including: ? light curtains and light grids (AOPDs); ? laser scanners (AOPDDRs) and two-dimensional vision systems; b) pressure-sensitive protective equipment (see ISO 13856-1, ISO 13856-2 and ISO 13856-3), especially pressure-sensitive mats; c) two-hand control devices (see ISO 13851); d) interlocking guards without guard locking (see ISO 14119). This International Standard specifies minimum distances from the detection zone, plane, line, point or interlocking guard access point to the hazard zone for hazards caused by the machine (e.g. crushing, shearing, drawing-in). Protection against the risks from hazards arising from the ejection of solid or fluid materials, emissions, radiation and electricity are not covered by this International Standard. The International Standard is not applicable to safeguards (e.g. pendant two-hand control devices) that can be moved, without using tools, nearer to the hazard zone than the calculated minimum distance. The minimum distances derived from this International Standard are not applicable to safeguards used to detect the presence of persons within an area already protected by a guard or electro-sensitive protective equipment.

Safety of machinery - Positioning of safeguards with respect to the approach speeds of parts of the human body

ISO 13855:2010 机械安全性.保护设备相对于人体部位接近速度的定位

Safety of machinery - Positioning of safeguards with respect to the approach speeds of parts of the human body

ISO/TR 23849:2010 ISO13849-1和IEC62061在机械安全相关控制系统设计中的应用指南

Guidance on the application of ISO 13849-1 and IEC 62061 in the design of safety-related control systems for machinery

BS CWA 16107:2010 应急服务能力框架

Emergency services capability framework

ISO 11161:2007/Amd 1:2010 机械安全.集成制造系统.基本要求.修改件1

Safety of machinery - Integrated manufacturing systems - Basic requirements; Amendment 1

ASTM D7659-10 工人保护用金属和类金属制品的表面取样策略标准指南

This guide describes approaches which can be used to determine surface sampling strategies before any actual surface sampling occurs. The strategy selection process needs to consider a number of factors, including, but not limited to, purpose for sampling, fitness of the sampling strategy for that purpose, data quality objectives and how the data will be used, ability to execute the selected strategy, and ability of the analytical laboratory (fixed-site or in-field) to analyze the samples once they are collected. For the purposes of sampling, and for the materials sampled, surface sampling strategies are matters of choice. Workplace sampling may be performed for single or multiple purposes. Conflicts may arise when a single sampling strategy is expected to satisfy multiple purposes. Limitations of cost, space, power requirements, equipment, personnel, and analytical methods need to be considered to arrive at an optimum strategy for each purpose. A strategy intended to satisfy multiple purposes will typically be a compromise among several alternatives, and will typically not be optimal for any one purpose. The purpose or purposes for sampling should be explicitly stated before a sampling strategy is selected. Good practice, regulatory and legal requirements, cost of the sampling program, and the usefulness of the results may be markedly different for different purposes of sampling. This guide is intended for those who are preparing to evaluate a workplace environment by collecting samples of metals or metalloids on surfaces, or who wish to obtain an understanding of what information can be obtained by such sampling. This guide cannot take the place of sound professional judgment in development and execution of any sampling strategy. In most instances, a strategy based on a standard practice or method will need to be adjusted due to conditions encountered in the field. Documentation of any professional judgments applied to development or execution of a sampling strategy is essential. This guide should not be used as a stand-alone document to evaluate any given contaminant or chemical species. The surface sampling techniques described in this guide are intended for the determination of metals and metalloids on surfaces, or for the determination of loadings of embedded metallic residues in surface coverings. These techniques may not accurately reflect the transferability or bioavailability of such residues by way of dermal contact or inhalation of resuspended respirable dust.1.1 This guide provides criteria to be used in defining strategies for sampling for metals and metalloids on surfaces for workplace health and safety monitoring or evaluation. 1.2 Guidance provided by this standard is intended for sampling of metals and metalloids on surfaces for subsequent analysis using methods such as atomic spectrometry, mass spectrometry, X-ray fluorescence, or molecular fluorescence. Guidance for evaluation of data after sample analysis is included. 1.3 Sampling for volatile organometallic species (for example, trimethyl tin) is not within the scope of this guide. 1.4 Sampling to determine levels of metals or metalloids on the skin is not within the scope of this guide. 1.5 Sampling for airborne particulate matter is not within the scope of this guide. Guide E1370 provides information on air sampling strategies. 1.6 Where surface sampling is prescribed by law or regulation, this guide is not intended to take the place of any requirements that may be specified in such law or regulation. 1.7 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.8

Standard Guide for Strategies for Surface Sampling of Metals and Metalloids for Worker Protection