P09 卫生、安全、劳动保护 标准查询与下载

ANSI/ASSE A10.33-2011 多雇主参与的工程项目安全性和卫生要求

Sets forth the minimum elements and activities of a program that defines the duties and responsibilities of construction employers working on a construction project where multiple employers are or will be engaged in the common undertaking to complete a construction project. NOTE: This standard was originally published in 1992 and was reaffirmed in 1998 and 2004. This is a revision of the 1992 original standard.

Safety and Health Program Requirements for Multi-Employer Projects

ANSI/NFPA 73-2011 现有住宅的电参数检查规范

1.1.1 This code provides criteria that enable the identification of the hazardous conditions that are evident during a visual inspection of the electrical systems in existing one-family, and two-family, and multifamily dwellings, including mobile homes and manufactured homes. 1.1.2 This code does not define installation requirements that might be desired for convenience or utilitarian purposes.

Electrical Inspection Code for Existing Dwellings

JGJ/T 77-2010 施工企业安全生产评价标准

本标准适用于对施工企业进行安全生产条件和能力的评价。

Standard for the work safety assessment of construction company

JGJ 196-2010 建筑施工塔式起重机安装、使用、拆卸安全技术规程

本规程适用于房屋建筑工程、市政工程所用塔式起重机的安装、使用和拆卸。

Technical specification for safety installation operation and dismantlement of tower crane in construction

ANSI/ASSE A10.11-2010 全体人员和碎片网的安全性要求

This standard establishes safety requirements for the selection, installation, and use of personnel and debris nets during construction, repair, and demolition operations. (Note: The A10 ASC is seeking to approve the original version of the ANSI A10.11-1989 Standard verbatim. This standard was administratively withdrawn by ANSI during August of 2008, but was relaunched per consensus of the A10 ASC. The intent of the committee is to approve the original version verbatim as a new standard and then consider a revision at a later date.)

Safety Requirements for Personnel and Debris Nets

ASTM F1637-10 安全行走表面的标准规程

This practice addresses elements along and in walkways including floors and walkway surfaces, sidewalks, short flight stairs, gratings, wheel stops, and speed bumps. Swimming pools, bath tubs, showers, natural walks, and unimproved paths are beyond the scope of this practice.1.1 This practice covers design and construction guidelines and minimum maintenance criteria for new and existing buildings and structures. This practice is intended to provide reasonably safe walking surfaces for pedestrians wearing ordinary footwear. These guidelines may not be adequate for those with certain mobility impairments. 1.2 Conformance with this practice will not alleviate all hazards; however, conformance will reduce certain pedestrian risks. 1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 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 Practice for Safe Walking Surfaces

CECS 266-2009 建筑工程施工现场安全资料管理规程　

本规程适用于新建、改建、扩建的建设工程施工现场安全管理资料的管理。

Management specification for construction engineering safety document on construction site

DB42/T 560-2009 瓶装液化石油气供应站（点）安全检查评价标准

Standard of the safety inspection and assessment for bottled LPG delivered station

DB42/T 553-2009 建筑施工现场安全生产管理规程

Management specification of safety prdouction in construction site

JIS A 1901:2009 建筑产品用挥发性有机化合物和醛类排放量测定.小室法

This Standard specifies a general laboratory test method for determination of emis? sion factor of volatile organic compounds (VOCs), formaldehyde and other carbonyl compounds from building products using the small chamber. This test method is applicable to buliding products, e.g. boards, wallpapers and floor materials, adhesives, paints and coating matrials, and heat-insulating materials. NOTE: The International Standard corresponding to this Standard is as follows. ISO 16000-9:2006 Indoor air--Part 9: Detennination of the emission of volatile organic compounds from building products and furnishin Emission test chamber method (MOD) In addition, symbols, which denote the degree of correspondence in the contents between the relevant International Standard and JIS, are IDT (identical), MOD (modified), and NEQ (not equivalent) according to ISO/IEC Guide 21.

Determination of the emission of volatile organic compounds and aldehydes for building products -- Small chamber method

ASTM E2121-09 在已有的低层住宅建筑中安装氡减轻系统的实施规程

The purpose of the methods, systems, and designs described in this practice is to reduce radiation exposures for occupants of residential buildings caused by radon and its progeny. The goal of mitigation is to maintain reduced radon concentrations in occupiable areas of buildings at levels as low as reasonably achievable. This practice includes sections on reducing radiation exposure caused by radon and its progeny for workers who install and repair radon mitigation systems. The goal for workers is to reduce exposures to radon and its progeny to levels as low as reasonably achievable. The methods, systems, designs, and materials described here have been shown to have a high probability of success in mitigating radon in attached and detached residential buildings, three stories or less in height (see EPA, “Radon Reduction Techniques for Existing Detached Houses, Technical Guidance (Third Edition) for Active Soil Depressurization Systems”). Application of these methods does not, however, guarantee reduction of radon levels below any specific level, since performance will vary with site conditions, construction characteristics, weather, and building operation. When applying this practice, contractors also shall conform to all applicable local, state, and federal regulations, and laws pertaining to residential building construction, remodeling, and improvement.1.1 This practice describes methods for reducing radon entry into existing attached and detached residential buildings three stories or less in height. This practice is intended for use by trained, certified or licensed, or both, or otherwise qualified individuals. 1.2 These methods are based on radon mitigation techniques that have been effective in reducing radon levels in a wide range of residential buildings and soil conditions. These fan powered mitigation methods are listed in Appendix X1. More detailed information is contained in references cited throughout this practice. 1.3 This practice is intended to provide radon mitigation contractors with a uniform set of practices that will ensure a high degree of safety and the likelihood of success in retrofitting low rise residential buildings with radon mitigation systems. 1.4 The methods described in this practice apply to currently occupied or formerly occupied residential buildings, including buildings converted or being converted to residential use, as well as residential buildings changed or being changed by addition(s) or alteration(s), or both. The radon reduction activities performed on new dwellings, while under construction, before occupancy, and for up to one year after occupancy, are covered by Guide E1465. 1.5 This practice also is intended as a model set of practices, which can be adopted or modified by state and local jurisdictions, to fulfill objectives of their specific radon contractor certification or licensure programs. Radon mitigation performed in accordance with this practice is considered ordinary repair. 1.6 The methods addressed in this practice include the following categories of contractor activity: general practices, building investigation, systems design, systems installation, materials, monitors and labeling, post-mitigation testing, and documentation. 1.7 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. See Section 6 for specific safety hazards.

Standard Practice for Installing Radon Mitigation Systems in Existing Low-Rise Residential Buildings

ANSI/NFPA 241-2009 建筑物改建及拆除的安全防护标准

This standard shall apply to structures in the course of construction, alteration, or demolition, including those in underground locations.

Standard for Safeguarding Construction, Alteration, and Demolition Operations

ASTM E1851-09 耐久刚性壁浮动结构电磁屏蔽功效的标准试验方法

This standard provides measurement procedures for determining the electromagnetic shielding effectiveness of durable rigid wall relocatable shielded enclosures. This standard specifies a method for comparing the shielded enclosure performance of structures provided by different suppliers. In addition, this standard is written to minimize variations in measured shielding effectiveness at a given frequency and test point regardless of test personnel, equipment, and test site. Therefore, the shielding effectiveness of a durable rigid wall relocatable shielded enclosure of any size from any supplier can be determined. This standard specifies a minimum set of measurements at a given frequency and a minimum set of frequencies to determine shielding effectiveness. Source Fields8212;Performance of a shielded enclosure is to be assessed for two source fields: magnetic and plane wave. Magnetic Field Measurements8212;The attenuation provided by a shielded enclosure is assessed by using a local source to generate the near field. The magnetic field measurements are specified for two narrow frequency bands: 140 to 160 kHz and 14 to 16 MHz. Plane Wave Measurements8212;The attenuation provided by a shielded enclosure is assessed by using a locally generated distant source or plane wave field. The plane wave measurements are specified for three narrow frequency bands: 300 to 500 MHz, 900 to 1000 MHz, and 8.5 to 10.5 GHz.1.1 This test method covers the determination of the electromagnetic shielding effectiveness of durable relocatable shielded enclosures. 1.1.1 The intended application of this test method is for virgin shielded enclosures that do not have any equipment or equipment racks. It is recommended that tests be conducted before the interior finish work begins. However, the shield assembly including all enclosure penetrations shall be completed and required penetration protection devices shall be installed in accordance with the design specification. The test method can also be used on existing shielded enclosures after repair work is done to verify workmanship, but it may be necessary to remove equipment or equipment racks to gain access to a test area. 1.1.2 The test procedures delineated in this document are comprehensive and may require several days to complete for a room-size shielded enclosure. A user can apply this test method for a first article test that requires proof of concept and validation of design and fabrication technique. Appendix X2 provides guidance on choosing test points so shielding effectiveness tests on a room-size shielded enclosure may be completed in about one-half day for which it applies to shielded enclosures coming off an assembly line. 1.2 This test method is for use in the following frequency ranges: 140 to 160 kHz, 14 to 16 MHz, 300 to 500 MHz, 900 to 1000 MHz, and 8.5 to 10.5 GHz. Specific test frequencies within these ranges are required (see 10.1.1 and 10.2.1). Additional measurements in the range of 10 kHz to 10.1.5.1 GHz may be performed. For specific applications, the frequency range may be extended from 50 Hz to 40 GHz. Appendix X1 provides guidance on selecting measurement frequencies. 1.3 This test method is not applicable to individual components such as separate walls, floors, ceilings, or shielded racks. 1.4 This standard may involve hazardous materials, operations, equipment, or any combination. 1.5 The values stated in SI units are to be regarded as the standard. The values in parentheses are for information only. 1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. I......

Standard Test Method for Electromagnetic Shielding Effectiveness of Durable Rigid Wall Relocatable Structures

ASTM E2121-08 在现有低层住宅建筑中安装氡缓解系统的标准实施规程

The purpose of the methods, systems, and designs described in this practice is to reduce radiation exposures for occupants of residential buildings caused by radon and its progeny. The goal of mitigation is to maintain reduced radon concentrations in occupiable areas of buildings at levels as low as reasonably achievable. This practice includes sections on reducing radiation exposure caused by radon and its progeny for workers who install and repair radon mitigation systems. The goal for workers is to reduce exposures to radon and its progeny to levels as low as reasonably achievable. The methods, systems, designs, and materials described here have been shown to have a high probability of success in mitigating radon in attached and detached residential buildings, three stories or less in height (see EPA, “Radon Reduction Techniques for Existing Detached Houses, Technical Guidance (Third Edition) for Active Soil Depressurization Systems”). Application of these methods does not, however, guarantee reduction of radon levels below any specific level, since performance will vary with site conditions, construction characteristics, weather, and building operation. When applying this practice, contractors also shall conform to all applicable local, state, and federal regulations, and laws pertaining to residential building construction, remodeling, and improvement.1.1 This practice describes methods for reducing radon entry into existing attached and detached residential buildings three stories or less in height. This practice is intended for use by trained, certified or licensed, or both, or otherwise qualified individuals. 1.2 These methods are based on radon mitigation techniques that have been effective in reducing radon levels in a wide range of residential buildings and soil conditions. These fan powered mitigation methods are listed in Appendix X1. More detailed information is contained in references cited throughout this practice. 1.3 This practice is intended to provide radon mitigation contractors with a uniform set of practices that will ensure a high degree of safety and the likelihood of success in retrofitting low rise residential buildings with radon mitigation systems. 1.4 The methods described in this practice apply to currently occupied or formerly occupied residential buildings, including buildings converted or being converted to residential use, as well as residential buildings changed or being changed by addition(s) or alteration(s), or both. The radon reduction activities performed on new dwellings, while under construction, before occupancy, and for up to one year after occupancy, are covered by Guide E 1465. 1.5 This practice also is intended as a model set of practices, which can be adopted or modified by state and local jurisdictions, to fulfill objectives of their specific radon contractor certification or licensure programs. Radon mitigation performed in accordance with this practice is considered ordinary repair. 1.6 The methods addressed in this practice include the following categories of contractor activity: general practices, building investigation, systems design, systems installation, materials, monitors and labeling, post-mitigation testing, and documentation. 1.7 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. See Section 6 for specific safety hazards.

Standard Practice for Installing Radon Mitigation Systems in Existing Low-Rise Residential Buildings

GOST R 53195.1-2008 建筑/建筑物安全性相关系统的功能安全.第1部分:总论

Functional safety of building/erection safety-related systems. Part 1. General

GOST R 53195.2-2008 建筑/建筑物安全性相关系统的功能安全.第2部分:一般要求

Functional safety of building/erection safety-related systems. Part 2. General requirements

DB13(J) 68-2007 建设工程安全监理规程

本规程依据国务院《建设工程安全生产管理条例》、《建设工 程监理规范》(GB50319)、建设部《关于落实建设工程安全生产 监理责任的若干意见》等有关建设工程安全监理的法规和标准， 在广泛调查研究，征求意见的基础上编制的，具有较强的可操作 性。 编制本规程的目的是促进本省建设工程安全生产监理工作的 程序化、规范化、科学化，指导工程监理单位落实安全监理责任， 规范安全监理行为，切实加强施工现场安全生产管理工作，提高 建设工程安全监理工作的水平。 本规程包括了监理单位安全管理体系和施工活动的安全监 理。其主要内容有:监理单位安全管理体系、安全监理的职责、安 全监理文件，安全监理的主要工作内容、方法、程序;安全监理 资料的管理及工作表格等。 各级建设行政主管部门及委托的建筑施工安全监督管理机构 应依法对监理单位、监理人员履行安全生产有关法律、法规、工 程建设强制性条文的情况进行监督和管理，督促监理单位落实安 全生产的监理职责。本规程适用于本省新建、扩建、改建和拆除的建设工程施工 安全监理工作。

Construction Engineering Safety Supervision Regulations

DL/T 5402-2007 水电水利工程环境保护设计规范

本标准规定了水电水利工程环境保护设计应遵循的原则、依据和技术要求。 本标准适用于大、中型水电水利工程可行性研究阶段的环境保护设计，小型水电水利工程可参照执行。

Specification for environmental protection design of water conservancy and hydropower project

ANSI/ASSE A10.40-2007 建筑中工人慢性肌肉骨骼损伤的减少量

This standard applies to construction work where there may be risk factors, which could lead to musculoskeletal problems for construction workers. This standard does not apply to office or administrative work performed by construction companies.

Reduction of Musculoskeletal Problems in Construction

DL/T 5373-2007 水电水利工程施工作业人员安全技术操作规程

本标准规定了参加水电水利工程施工作业人员安全、文明施 工的行为规范。 本标准适用于大中型水电水利工程施工现场作业人员安全技 术管理、安全防护与安全、文明施工，小型水电水利工程可参照执行。

Technical operation code of safety for workmen of hydroelectric and hydraulic construction engineering