91.040.01 建筑物综合 标准查询与下载

BS ISO 18566-6:2019 建筑环境设计 循环辐射加热和冷却面板系统的设计、测试方法和控制 能量计算的输入参数

What is  ISO 18566 ‑ 6   -  Hydronic radiant heating and cooling panel systems   about?    ISO 18566 ‑ 6  is the sixth part of the  ISO 18566   multi-series that discusses building environment design.    ISO 18566 ‑ 6

Building environment design. Design, test methods and control of hydronic radiant heating and cooling panel systems - Input parameters for the energy calculation

BS ISO 19454:2019 建筑环境设计 室内环境 视觉环境可持续原则的采光开放设计

What is ISO 19454 – Daylight opening design for indoor environment about ?  This international standard guides its users to create building structures with sufficient daylight access for indoors.   ISO 19454 provides a design process for daylight openings in order to ensure the principle of sustainability in the indoor visual environment. The design process for daylight openings includes the consideration of:   Sunshine duration in the building interiors   Daylight opening ratio to the wall area of a habitable room

Building environment design. Indoor environment. Daylight opening design for sustainability principles in visual environment

ISO 18566-6:2019 建筑环境设计.循环辐射加热和冷却板系统的设计 试验方法和控制.第6部分:能量计算的输入参数

This document establishes guidelines for the determination of input parameters for ceiling mounted radiant heating and cooling panels in relation to ISO 52031. The requirements specified by this document are applicable only to the components of the heating/cooling systems and the elements which are part of the heating/cooling panels and which are installed to provide heating and/or cooling. This document is applicable to water-based ceiling mounted radiant heating and cooling panels in residential, commercial and industrial buildings. The methods apply to systems mounted under the ceiling with an open air gap between the panels and the ceiling. This document also applies, as appropriate, to the use of fluids other than water as a heating or cooling medium. This document is also applicable for testing of systems. The methods do not apply to heated or chilled ceiling beams.

Building environment design — Design, test methods and control of hydronic radiant heating and cooling panel systems — Part 6: Input parameters for the energy calculation

ISO 19454:2019 建筑环境设计 - 室内环境 - 日光开放设计过程 以确保视觉环境中的可持续发展原则

This document provides a design process for daylight openings in order to ensure the principle of sustainability in the indoor visual environment. The design process for daylight openings includes the consideration of: — sunshine duration in the building interiors; — daylight opening ratio to the wall area of a habitable room; — daylight opening ratio to the floor area of a habitable room; — appropriate levels of indoor daylight based on human visual needs and the extent of sunlight; — daylight control systems in the building; — thermal comfort, thermal gains and energy efficiency. This document is applicable to building environment design for new buildings and the retrofit of existing buildings.

Building environment design — Indoor environment — Daylight opening design for sustainability principles in visual environment

T/FJJX 1.1-2019 建筑工程实体质量实测实量操作规程（上册）

本标准参照GB 50300《建筑工程施工质量验收统一标准》附录B给出的建筑工程分部工程、分项工程划分标准，分上、中、下三册进行编写。本分册为T/FJJX 1的上册，包括以下11个分项内容：现浇混凝土结构工程、砌筑工程、抹灰工程、防水工程、涂饰工程、吊顶工程、轻质隔墙工程、墙饰面板（砖）工程、楼地面饰面工程、栏杆工程、屋面工程。

Operational rules for actual measurement of building engineering entity quality(First volume)

T/CECS 608-2019 绿色建筑运营后评估标准

本标准共分3章，主要技术内容包括：总则、基本规定、评估指标。

Post operation evaluation standard for green building

T/CAME 1-2019 家庭式产房建设标准

范围、规范性引用文件、术语和定义、设置原则、建筑设计、设备设施、智能化系统、施工与验收、附录A 家庭式产房平面布局示意图。

Standard for Labor-Delivery-Recovery-Postpartum room construction

ASTM E2432-19 建筑物可持续性一般原则的标准指南

1.1 Sustainabilty has three types of general principles: environmental, economic, and social. This guide covers the fundamental concepts and associated building characteristics for each of the general principles of sustainability. 1.2 This guide distinguishes between ideal sustainability and applied sustainability. Ideally, human activities would not require making trade-offs among environmental, economic, and social goals. However, this guide recognizes that, in applying sustainability principles to buildings, decision makers must often balance opportunities and challenges associated with each of the general principles. 1.3 This guide identifies general methodologies associated with the decision-making process used in pursuing sustainability. 1.4 This guide addresses buildings individually and in aggregate (collectively). 1.4.1 The general principles identified in this guide are applicable to all scales of building projects, including: interior spaces, individual buildings and groups of buildings, infrastructure systems, and land use. 1.4.2 The general principles identified in this guide are applicable to all life-cycle stages of a building and its components, including: material extraction, product manufacturing, product transportation, planning, siting, design, specification, construction, operation, maintenance, renovation, retrofit, reuse, deconstruction, and waste disposal of buildings. 1.5 A variety of tools and standards exist that qualify and quantify impacts of buildings, building materials, and building methods in terms of one or more of the general principles of sustainability. It is not within the scope of this standard to recreate or replace these tools. 1.6 This guide does not provide direction as to the specific implementation of the general principles; nor does it provide direction as to the specific weighting of principles necessary for achieving balance. 1.7 Applying the principles in this guide will require professional judgment. Such judgment should be informed by experience with environmental, economic, and social issues as appropriate to the building use, type, scale, and location. 1.8 This guide offers an organized collection of information or a series of options and does not recommend a specific course of action. This document cannot replace education or experience and should be used in conjunction with professional judgment. Not all aspects of this guide may be applicable in all circumstances. This ASTM standard is not intended to represent or replace the standard of care by which the adequacy of a given professional service must be judged, nor should this document be applied without consideration of a project’s many unique aspects. The word “Standard” in the title of this document means only that the document has been approved through the ASTM consensus process. 1.9 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.10 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Guide for General Principles of Sustainability Relative to Buildings

T/CECS 595-2019 建筑用加湿技术应用规程

规程共分6章，主要内容包括：总则、术语、建筑用加湿设备、设计与选型、安装、调试验收与运行。

Technical specification for application of humidification in building

T/ASC 04-2019 智能快速应急电源系统 ( ISPS )技术标准

1. 范围; 2. 规范性引用文件; 3. 定义和代号; 4. 要求; 5. 试验; 6. 检测规则;7. 标志、使用说明书、包装、运输与贮存; 8. 工程设计; 9. 工程验收。

Technical standard for intelligent swift emergency power system

T/ZZB 1100-2019 预应力筋用夹片式锚具、夹具和连接器

本标准规定了预应力筋用夹片式锚具、夹具和连接器的基本要求、技术要求及试验方法、检验规则、标志、包装、运输和贮存、质量承诺。 本标准适用于体内和体外配筋的有粘结、无粘结、缓粘结的预应力结构中和特种施工过程中使用的夹片式锚具、夹具、连接器及拉索用的锚具和连接器。 本标准不适用于纤维增强复合材料预应力筋用锚具和连接器。

Clamp anchorage,grip and coupler for prestressing tendons

ASTM E2728-19 建筑物设计、建造和操作中的水管理标准指南

1.1 This guide is intended to inform sustainable development in the building industry. It outlines ideal sustainability and applied sustainability for water management, consistent with Guide E2432. Both ideal sustainability and applied sustainability should inform decisions regarding water management. 1.1.1 Ideal sustainability is patterned on the hydrological cycle. This provides the concept goals and direction for continual improvement. 1.1.2 Applied sustainability outlines current best practices. This identifies available options considering environmental, economic, and social opportunities and challenges. The most appropriate option(s) are likely to vary depending on the location of the project. 1.2 Water management challenges differ enormously depending on the type of built environment and the available water resources. 1.2.1 The general demands of the built environment vary from very low density rural development to crowded urban development. Large cities present a particular challenge, with 400 cities worldwide housing over 1 million inhabitants. 1.2.2 Successfully meeting the challenges of uneven distribution of water around the world, depletion of groundwater, changing rainfall patterns, and other water industry trends requires sustainable solutions for the effective management of the entire water cycle. 1.2.3 Sustainable design, construction, and operation of water and wastewater services for the built environment are critical components of water stewardship and global sustainable water management. 1.3 Water stewardship encompasses both pollution prevention (quality issues) and conservation (quantity issues). 1.4 The values stated in inch-pound units are to be regarded as standard. No other units of measurement are included in this standard. 1.5 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, health, and environmental practices and to determine the applicability of regulatory limitations prior to use. 1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Guide for Water Stewardship in the Design, Construction, and Operation of Buildings

DB5118/T 4-2018 厕所革命 农村户厕建设与管理规范

本标准规定了雅安市行政区划范围内农村户厕建设与管理规范的术语和定义、六有建设原则、十二 项建设内容、其他基本要求、粪污收集要求、现场指导与验收、使用管理、组织保障等方面。 本标准适用于雅安市行政区划范围内的农村户厕的建设和管理。

Toilet Revolution Construction and Management Standards for Rural Household Toilets

DB11/T 641-2018 住宅工程质量保修规程

Regulations on Quality Warranty of Residential Projects

DB11/T 1606-2018 绿色雪上运动场馆评价标准

Evaluation criteria for green snow sports venues

DB64/T 1552-2018 建筑物移动通信基础设施建设标准

Construction standards for building mobile communication infrastructure

T/ZZB 0793-2018 电动天幕遮阳篷

本标准规定了电动天幕遮阳篷的术语和定义、基本要求、技术要求、试验方法、检验规则、标志、包装、运输、贮存和质量承诺。 本标准适用于电动天幕遮阳篷（以下简称“天幕篷”）。

Electric sky-awning

T/CAPPD 2-2018 多层工业建筑无障碍指南

1、　无障碍多层工业建筑的厂区用地应满足无障碍设计要求，并符合厂房布置的便利性、无障碍交通和场地排水。 2、　多层工业建筑厂区应进行无障碍道路设计、无障碍标识设计与无障碍应急疏散设计，应建设无障碍环境 3、　多层工业建筑厂区内人行通道与无障碍通道地面应平整防滑、无反光。 4、　厂区内生产车间与生活用房间距离大于500m，以及地形坡度大于6%的劳动密集型既有多层工业建筑厂区，每500m间距宜设置座椅或休息区。应依据无障碍需求设置无障碍摆渡车 5、　多层工业建筑厂区应至少设置两个无障碍出入口。厂区出入口应与内部道路及无障碍通道相连接，以利于人员无障碍出入、消防安全和应急疏散。 6、　多层工业建筑应充分考虑人员行动障碍、听力障碍、视力障碍等无障碍需求特点。 7、　应防止高空坠落物，禁止尖锐突出物。 生产车间出入口门应无障碍，不得使用弹簧门。

The Accessibility Guide for Multistory Industrial Buildings

DB37/T 5127-2018 装配式建筑评价标准

本标准适用于评价山东省民用建筑的装配化程度。

Prefabricated Building Evaluation Standards

ISO 11855-6:2018 建筑环境设计.嵌入式辐射供暖和冷却系统的设计,尺寸标注,安装和控制.第6部分:控制

This document establishes guidelines for the control of embedded radiant heating and cooling systems. It specifies uniform requirements for the design and construction of heating and cooling floors, ceiling and wall structures to ensure that the heating/cooling systems are suited to the particular application. The requirements specified in this document are applicable only to the components of the heating/ cooling systems and the elements which are part of the heating/cooling surface and which are installed due to the heating/cooling systems. This document is applicable to water-based embedded surface heating and cooling systems in residential, commercial and industrial buildings. The methods apply to systems integrated into the wall, floor or ceiling construction without any open air gaps. It is not applicable to panel systems with an open air gap which is not integrated with the building structure. This document also applies, as appropriate, to the use of fluids other than water as a heating or cooling medium. This document is not applicable for testing of systems. The methods do not apply to heated or chilled ceiling panels or beams.

Building environment design - Design, dimensioning, installation and control of embedded radiant heating and cooling systems - Part 6: Control