给水排水设计规范GB-50015-2003

NATIONAL STANDARDOF THE PEOPLE’S REPUBLIC OF CHINA中华人民共和国国家标准Code for Design of BuildingWater Supply And Drainage建筑给水排水设计规范　GB 50015-2003Edited by: Shanghai Construction and Management CommitteeApproved by: Ministry of Construction of the People’s Republic of China Implemented on: September 1, 20032003 Bei jingNOTICEThis code is written in Chinese and English. The Chinese text shall be taken as the ruling one in the event of any inconsistency between the Chinese text and the English text.Notification of Ministry of Construction of the People’s Republicof ChinaNo. 138Notification of national standard Code for Design of Building Water Supply And Drainage made by the Ministry of Construction of the People’s Republicof ChinaNow “Code for Design of Building Water Supply A nd Drainage” as the national standard, with the No. of GB 50015-2003, and will be implemented from September1,2003. Among which, No.3.2.1,3.2.3,3.2.4,3.2.5,3.2.6,3.2.9,3.2.10,3.2.14,3.5.8,3.9.1,3.9.3,3.9.4,3.9.9,3.9.12,3.9.14,3.9.22,3.9.24,3.9 .27,4.2.6,4.3.5,4.3.6,4.3.13,4.3.19,4.5.9,4.8.4,4.8.8,5.4.5,5.4.20 are mandatory clauses, and should be strictly implemented. At the same time The former Code for Design of Building Water Supply And Drainage GBJ 15-88 shall be abrogated on the same date.This code is published and issued by China Plan Press organized by Standard & Cost Research Institute of the Ministry of Construction.Ministry of Construction of the People’s Republic of ChinaApril. 15, 2003PrefaceThe pre sent code is a revision of the former national standard <Code for Design of Building Water Supply and Drainage> GBJ 15-88 managed by Shanghai Municipal Construction Commission, compiled by Shanghai Xian Dai Architectural Design (Group) Co., Ltd jointly with the China Architecture Design & Research Group and the Architectural Design and Research Institute of Guangdong Province, according to the official document NO.JB [1998] 94 of the Ministry of Construction of the People's Republic of China.In the process of the revision, summed the engineering experience in building water supply and drainage in recent years, developed topic deliberation to major issue, proposed the questionnaire opinion manuscript and worked out by Establishment Group in the foundation of wide suggestions from the units of designing, researching and universities all our country.The major revisions of technology are (1) residential area water supply and drainage design has been added; (2) dwelling and public buildings rated water consumption has been readjusted and added;(3) the measures to prevent pollution in pipe connect have been added;(4) applied technology of new types of pipe has been added;(5) probability formula of calculating second flow of domestic water supply has been adopted;(6) hydraulic calculation of varied types of pipe has been unified;(7) recycle water treatment of aquatic recreation pool has been added;(8) the design for cooling water and recycle water has been added;(9) details of hospital sewage, water supply and drainage for swimming pool expressed in association standards have been deleted, only provisions of principle, safety and sanitation reserved;(10) the provisions on water supply and drainage for production technology have been deleted;(11) the parameter of pressure flow of roof rainwater has been added;(12) applied range for design heat consumption of maximum hour with central hot water supply has been readjusted;(13) calculation of natural cycle hot water pipe system has been deleted;(14) technology essential and parameter of hot water machine set and water heater have been added and (15) relevant contents of fine drinking water pipe system have been added.The information and provisions revised will be published on the magazine “standardization of engineering construction”while the code needs to revise in part.The compulsory provisions in the code that indicated by boldface type must carry out strictly.Ministry of Construction of the People's Republic of China will be responsible for supervision of the present code and explanation about the compulsory provisions，Shanghai Municipal ConstructionCommission for its handled and Shanghai Xian Dai Architectural Design (Group) Co., Ltd. for its specific explanation.　If users find, in the course of execution of the present code, any points which need to be modified or supplemented, they are requested to give their suggestions and concerned documents to Shanghai Xian Dai Architectural Design (Group) Co., Ltd. （Shanghai Shi Men second road 258th Modern architectural design edifice, national standard “code for design of building water supply and drainage”Manage Group, ZIP code:200041）for reference during the next revision of the present code.Chief editorial unit, participating units and main drafting staffs of this code.Chief editorial unit:Shanghai Xian Dai Architectural Design (Group) Co., Ltd.Participating units：China Architecture Design & Research GroupArchitectural Design and Research Institute of Guangdong ProvinceMain drafting staffs：Zhang Miao, Liu Zhenyin, He Guanqin, Feng Xudong, Sang LuqingContents1 General (1)2 Terms、Symbols (2)2.1 Terms (2)2.2 Symbols (7)3 Water supply (12)3.1 Rated water consumption and water pressure (12)3.2 Water quality and water quality pollution protection (19)3.3 System selection (20)3.4 Pipe material，fittings and water meter (21)3.6 Design flow and hydraulic calculation of pipe (27)3.7 Water tower, Water tank, Reservoir (32)3.8 Pressurizing equipment, pump house (34)3.9 Swimming pool and aquatic recreation pool (37)3.10 Cooling tower and circulation cooling water (40)3.11 Waterscape (42)4 Water Drainage (44)4.1 Selection of drainage system (44)4.2 Sanitary fixture and water lock (44)4.3 Pipe location and pipelining (45)4.4 Calculation of drainage pipe (49)4.5 Pipe material fittings and inspection well (53)4.6 Vent pipe (56)4.7 Sewage pump and catch pit (58)4.8 Local domestic sewage disposal (59)4.9 Rain Water (62)5 Hot water and drinking water supply (67)5.1 Rated consumption, temperature and quality of hot water (67)5.2 Selection of hot water supply system (70)5.3 Calculation of heat consumption, hot water quantity and heating equipment hot supply (72)5.4 Water heating and storage (75)5.5 Calculation of net work (81)5.6 Pipe, fitting and pipeline laying (83)5.7 Potable water supply (85)Appendix A Residential district underground pipeline (structure) minimum net clearance between lines (87)Appendix B Valves and screw fittings resistance loss converted length of compensation (88)Appendix C Water supply pipe section sanitary fixtures water supply equivalent simultaneously outflowα coefficient values table (89)probability calculated equation,cAppendix D Water supply pipe section designed second flow calculation table (90)Appendix E Drinking water number of taps simultaneously use in the calculated pipe section (104)Explanation of wording in this standard (105)1 General1.0.1 This code has been prepared for the purpose of ensuring the quality of building water supply and drainage design, set the design to meet the basic requirement of safety、hygiene、applicability、economy.1.0.2 This code is applicable to the residential area、civil building water supply and drainage design, and also applicable to the industrial building domestic water and drainage and factory roof rain-fall run-off design.But when design the following projects, current relevant specified code or regulation must be complied:1 Collapsible soil、perennially frozen soil and expansive soil region building.2 Building with anti-seismic intensity more than 9.3 Mineral water cure, civil air defense works.4Industrial production water supply and drainage.5Building reclaimed water.1.0.3 Building water supply and drainage design must meet the application demands and also provide convenience for construction installation、operation management、maintenance inspection and safety protection.1.0.4 Building water supply and drainage engineering design must comply with this code, in addition, must comply current relevant national standard codes requirement.2 Terms、Symbols2.1 Terms2.1.1Potable waterWater quality meets portable water hygienic standard apply to usual drinking and washing water. 2.1.2Non-potable waterWater mot safe for drinking or for personal or culinary use, apply to wash sanitary fixture、vehicle、road sprinkling、irrigate greenbelt、complement air condition circulating water.2.1.3Hourly variation coefficientRatio between maximum daily maximum hourly water consumption and average hourly water consumption.2.1.4Maximum hourly water consumptionWithin maximum daily water consumption day time, the maximum water consumption per hour.2.1.5Backflow pollutionA condition which may occur in the potable water distribution system.1 Due to negative pressure in the pipeline, causing a reversal of flow from water storage tank, plumbing fixture liquid mixture back flow water.2 Due to non-drinking water or other liquid mixture flow into water supply system.2.1.6Air gap1 The vertical space distance between the lowest point of water supply pipeline outlet and the receptor or fixture which water overflows.2 The vertical space distance between the lowest point of indirect drainage facility or storage out let and the receptor or fixture which water overflows.2.1.7Flood-level rimThe edge of the receptor or fixture which water overflows.2.1.8Service pipeThis pipe from the water main in the street or municipal pipeline of supply to the building served area.2.1.9Building unite pipeWater supply and drainage pipeline laying around the building directly connect with building inlet and outlet pipe.2.1.10Inlet pipePipe between water meter in building and out door building unite pipe.2.1.11V ertical division blockThe building water supply system is vertically divided into a certain number of blocks.2.1.12Parallel water supplyWater supply system in vertical division block with parallel distribution pattern.2.1.13Series water supplyWater supply system in vertical division block with series distribution pattern.2.1.14Exposed installationIndoor pipeline with exposed installation.2.1.15Concealed installation, embedded installationIndoor pipeline installed in wall channel/well or pipe duct, or conceded in by architectural decoration.2.1.16 ManifoldA fitting or pipe with many outlets or connections relatively close together. 2.1.17 compression connectionsPipe connection by compressed the spigot to the bell or a coupling.2.1.18 Coupling connectionsPipe connection by using special pipe clamp and clamp ring-connecting pattern.2.1.19Coefficient of expansionThe increase in unit pipeline length for one degree rise in temperature.2.1.20Plumbing fixtureInstalled receptacles, device or appliance which are supplied with water or which receive liquid or liquid-borne wastes and discharge such wastes into the drainage system to which they may be directly or indirectly connected.2.1.21Fixture unitA quantity in terms of which the load producing effects on the plumbing system of different kinds of plumbing fixture are expressed on some arbitraity chosen scale.2.1.22 Rate of flowThe quantity of water lows out in a unite time of a plumbing fixture.2.1.23Design flowThe average quantity of flow of water supply or water drainage in a certain period, it is the basic design flow of basic of building water supply and drainage pipeline system.2.1.24Head lossThe loss of pressure (or water head) in water supply and drainage pipe system.2.1.25 Pneumatic water supplyWater supply pattern, a composite set of pump and pressure vessel and accessories, water pumps into pressure vessel, the compress air of vessel automatically regulate the amount of eater supply and keep the pressure of water supply.2.1.26Point of distributionPoints of water consumption of water supply system.2.1.27 Circulating periodRatio between circulation capacity per unit of time period and the effective water volume in circulating system structure and the transmission pipeline.2.1.28 Back washWhen filter clogging occurs, flash back with comparative high-pressure water flow.2.1.29Unassured hour for average yearYearly average value of accumulated average year unassured total number of hours.2.1.30 Water quality stabilization treatmentWater treatment process, keep the concentration of calcium carbonate and carbon dioxide in an equilibrium state in the circulating cooling water (neither calcium carbonate deposit nor solution corrosion), and restrain bacteria production.2.1.31Cycle of concentrationRatio of salt concentration between circulating cooling water and the added water.2.1.32Self-primingThe top of centrifugal pump with horizontal axis, 1st stage inlet of centrifugal pump with vertical axis with multistage are set below the lowest design starting elevation, start up by gravity flow of water into the pump body.2.1.33Waterscape, fountainArtificial build up waterscape, foundation.2.1.34 Domestic soilBuilding sewage containing human waste.3.1.35Domestic waste waterBuilding drain from domestic wash water.3.1.36Domestic sewageThe water-borne wastes derived from ordinary living processes.3.1.37Building drain, outlet pipeThat part of the lowest piping of a discharge system which receives the discharge from soil, waste and other drainage pipes inside the walls of the building and conveys it to the outdoor manhole.3.1.38 V ertical pipe, riser, stackAny pipe or fitting which makes an angle of 45°or more with the horizontal.3.1.39Horizontal pipeAny pipe or fitting which makes an angle of less than 45°with the horizontal.2.1.40 CleanoutFitting for inside pipe cleaning installed on horizontal drain pipe.2.1.41Check hole, check pipeWith open cover, set on pipeline system for inspection and cleaning.2.1.42TrapA fitting or device which provides a liquid seal to prevent the emission of sewer gasses without materially affection the flow of sewage or waste water through it.2.1.43Water seal (trop seal)The maximum vertical depth of liquid that a trap will retain, measured between the crown weir and the top of the dip of the trap.2.1.44 H pipeH type fitting for connection vertical drain pipe and vent pipe.2.1.45V ent pipePart of the vent system for drainage system air circulation, stable pressure, prevent the failure of water seal.2.1.46V ent stackVertical vent pipe installed to provide circulation of air to and from the drainage system and which extends through one or more stories.2.1.47Specific vent stackVertical vent stack only connect with vertical drain pipe, for the air circulation of vertical drain pipe.2.1.48V ent headersVent pipe section connect with several vent stacks or vertical drain top vent section and stretch out door into open air.2.1.49Main ventThe principal artery of the venting system to which vent branches may be connected.2.1.50Continuous vent stackVent stack only connect with loop vent, for air circulation of drain horizontal branch.2.1.51Loop ventA circuit vent pipe section which loops back to connect with a stack vent instead of a vent stack.2.1.52Fixture ventPipe section from the outlet of the trap of plumbing fixture to the vent stack..2.1.53Y oke vent, yoke vent pipePipe section connecting the drain vertical pipe to the vent stack.2.1.54Air gap drainage systemThe outlet of waste pipe of fixture and the flood rim of the receptor which is discharging.2.1.55 Buried depthVertical distance between buried pipe top to the ground surface.2.1.56Angle of turning flowAngle between original fl ow direction and turning flow direction.2.1.57Depth ratioDegree of fullness of water flow in the conduit, ratio between water depth in pipe and pipe diameter.2.1.58 Grease interceptorSmall treatment structure for intercept, collect grease from domestic waste water.2.1.59Cooling tankTreatment structure to decrease temperature of drain water.2.1.60Septic tankA receptacle which receives the discharge of a drainage system for ratain solid, digest organic matter through a period of detention and allow the liquid to discharge into the outside soil pipe.2.1.61Reclaimed waterEffluent from a waste water treatment plant that has undergone external treatment to remove harmful pathogens, organic material and heavy metals.2.1.62Hospital sewagePolluted drainage water from hospital.2.1.63Primary treatmentMechanical treatment, waste water primary treated by mechanical measures.2.1.64Secondary treatmentComposite of mechanical treatment and biochemical or chemical treatment for waste water treatment process.2.1.65Air changeRatio between volume of room space and volume of draw in or blow-off the ventilation system within a unit of time.2.1.66Rainfall intensityRainfall in a unit of time, usually expressed as mm/min(or L/s·h).2.1.67Recurrence intervalThrough static analysis of long time observed rainfall record, equal or greater than some storm intensity rainfall occur once average interval time, the expressed unit is usually in year.2.1.68 Duration of rainfallAny continuous time section of rainfall duration, the expressed unit is usually in min.2.1.69 Inlet timeTime of rain water from correspond catchment area farthest spot surface flow into drain pipe inlet, the expressed unit is usually in min., abbreviated inlet time.2.1.70Time of flowTime of rainwater flow in the pipe, the expressed unit is usually in min, abbreviated time of flow. 2.1.71Catchment areaDrain conduit for rainfall catchment area, expressed unit usually in m2 of km2.2.1.72Gravity flow storm drainage systemHydraulic design of storm drainage pipeline is based on gravity flow system.2.1.73Pressure storm systemHydraulic design of storm drainage pipeline is based on pressure flow system.2.1.74Gully trapGround surface rain water inlet well with gully gratings and frames.2.1.75Down pipe, down spoutDown pipe installed on inside or outside building wall applied to drain roof rainwater.2.1.76Hanged pipeHorizontal pipe hang on building floor, beam or roof truss.2.1.77Rain strainerA receptor facility receives roof surface rain water flow into down pipe.2.1.78Runoff coefficientRatio between volume of certain catchment rain water and volume of rainfall water.2.1.79Centralized got water heat-supply systemHot water supply system for one set or many set building.2.1.80Regional hot-water supply systemA small hot water supply system used only to supply single or several point of distribution.2.1.81Open-type hot-water supply systemHot water pipe system is open to the air in the hot water supply system.2.1.82Closed-type hot-water supplyHot water pipe system is closed to the air in the hot water supply system.2.1.83One pipeline hot water systemHot water system with one pipe supply, one temperature, no water temperature regulation of the rater use spot.2.1.84Heat sourceEnergy for heating hot water.2.1.85Heating mediumHeat transmission carrier for heat-supply system. Usually is hot water, steam, smoke.2.1.86Waste heatDischarge from industrial production with heated waste such as waste steam, high temperature waste water, high temperature smoke.2.1.87Design maximum heat consumption of one hourMaximum heat consumption per hour in the hot water supply system installation.2.1.88Reversed return hot water systemThe length of supply and return pipeline is nearly equal in a hot water supply system.2.1.89Heat medium circulation systemThe heat medium circulating system between steam boiler and water heater or hot water boiler and hot water storage tank in the central hot water supply system.2.1.90Upper pipe water supply systemWater supply horizontal pipe is installed at the upper part of distribution pipe system, water flows downward through vertical pipe.2.1.91Lower pipe water supply systemWater supply horizontal pipe is installed at the lower part of distribution pipe system, water flows upward through vertical pipe.2.1.92Water return pipePart of a hot water circulation system in which the restoration to the point of heating source is accomplished.2.1.93Fine drinking waterRaw water confirms to drink standard quality through thorough purification can drink directly.2.2 Symbols2.2.1Flow rate, flow velocityq－Water supply flowgq－Flow rate of water supply or drain of plumbing fixtureoq－Drain flowpq－Rated hot water supplyrq－Designed hourly hot water supplyrhq－Hourly rated hot water supply of plumbing fixturehq－Circulation flowxq－Maximum flowmaxq－Replenishing waterbcq－Designed rain water flowyq－Designed rain fall intensityjq－Loss of water due to windage in cooling towerfq－Loss of water due leakage in cooling towersq－Loss of water due evaporation in cooling towerzq－Pump out flowbv－A verage water flow velocity in the pipe2.2.2Water pressure, loss of water headR－Hydraulic radiusI－Hydraulic gradientP－Pressurei－Loss of head of unit length pipelineh－Loss of head of circulation flow pass through distribution pipe net work ph－Loss of head of circulation flow pass through return pipe/net workxH－Natural pressure of the first circulation pipexrH－Pump headb2.2.3 Geometrical characteristicsF－Heating areajrF－Catchment areawh、H－HeightV－Total volume of air pressure water tankqV－Rater volume of air pressure water tank1qV－Regulated volume of air pressure water tankq2V－V olume of heat storagerV－Effective volume of expansion water tankpV－V olume of expansion water tankeV－Water volume of hot water pipeline systemsd－Calculated pipe interior diameterj2.2.4Calculation coefficientk、α－Coefficient determination based on the use of buildingb－Percentage of plumbing fixture for water supply and drainage simultaneously and percentage of plumbing fixture work simultaneouslyN－Concentration multiplenn－Coefficient of pipe roughnessK－Coefficient of heat conductionK－Hourly variable coefficienthU－Probability of simultaneous out flow of water supply of plumbing fixtureU－Probability of average out flow of water supply of plumbing fixture during maximum water ousageα－Factor of safetyaα－Working pressure ratio of air pressure water tankbc α－Coefficient correspond to o Uβ－V olume coefficient of air pressure water tankΨ－Run off coefficientM －Discounted coefficientη－Effective heat storage volume coefficientε－Coefficient of heat transmission effectiveness due to scale deposit and uneven distribution of heat mediar C －Heat loss coefficient of hot water supply systemh C －Hayen Williams roughness coefficient2.2.5 Heat, temperature, specific gravity and timeg Q －Designed hour heat supplyh Q －Designed hour heat consumptionz Q －Heat demand for heating hot waters Q －Hot loss of distribution pipelinet －Rain fall duration1t －Time of ground surface water catchment2t －Time of storm water flow in pipeT －Time of durationr t －Temperature of hot raterl t －Temperature of cold waterc t －Initial temperature of heated waterz t －Final temperature of heated waterj t ∆－Calculated temperature differencemc t －Initial temperature of heat mediamz t －Final temperature of heat media。

卫生间给排水设计说明一、工程概况：本工程为小型卫生间安装工程，建筑高度为3.33m，卫生间面积为17.97㎡。

本设计包括给水、排水部分的说明。

二、设计依据：《建筑给水排水设计规范》GB50015-2003《建筑给水钢塑复合管管道工程技术规程》CECS125：2001《建筑给水聚丙烯（PP-R）管道工程技术规程》DBJ14-BS11-2001 《给水排水管道工程施工及验收规范》GB50268-2008三、给水部分：生活给水由市政管网供给，供水压力为0.25MPa。

卫生间明装干管及管道井内立管采用衬塑钢管，丝接。

卫生间内埋地冷水管采用S4（PN1.25）等级，给水聚丙烯PP-R管,热熔连接。

卫生间给水暗装，埋地管均敷设于垫层内。

阀门采用钢球阀，阀门处均设活接头。

给水引入管应有不小于0.003的坡度坡向室外给水管网工阀门井。

图中标高均以米计，其它尺寸标注均以毫米计，标高均指管中心标高。

卫生洁具采用节水型（6L），施工完毕应做水压试验，衬塑钢管的试验压力为中区0.85PMa，给水聚丙烯PP-R管的试验压力为1.0MPa，热水管的试验压力为 1.5MPa，具体做法详《建筑给水排水及采暖工程施工质量验收规范》GB50242-2002。

四、排水部分：排水系统为污水排水系统。

排水系统日排水量9.2m3/d。

图中标高均以米计，其它尺寸标注均以毫米计，排水管标高均指管内底标高。

排水出户管采用标准坡度。

安装地漏时，碗沿应低于地面10mm。

地漏水封深度不小于50mm。

排水产管检查口中心距地面1米，地面清扫口与地面相平。

埋设下水道的沟底必须找平夯实，回填土必须分层夯填。

室内排水管采用UPVC塑料管，室外部分采用柔性接口机制排水铸铁管。

排水检查井以外排水管采用PVC-U双壁波纹管。

UPVC塑料管伸缩安装见96S406-14，检查井井口盖板采用印有“污水”字样的。

横管与横管或立管连接，宜采用45°或90°斜三（四）通，不得采用正三（四）通。

-*给水排水管道敷设规范及要求（整理的很全面）1给水管道的敷设及管材室内给水管道的敷设、布置应严格按照建筑给排水设计规范（G B-50015-2003 ）的要求进行，建筑室内管道布置和敷设原则如下：（1）室内生活给水管道宜布置成枝状管网，单向供水。

（2）室内给水管道不应穿越变配电房、电梯机房、通信机房、大中型计算机房、计算机网络中心、音像库房等遇水会损坏设备和引发事故的房间，并应避免在生产设备上方通过。

室内给水管道的布置，不得妨碍生产操作、交通运输和建筑物的使用。

（3）室内给水管道不得布置在遇水会引起燃烧、爆炸的原料、产品和设备的上面。

（4）埋地敷设的给水管应避免布置在可能受重物压坏处。

管道不得穿越生产设备基础，在特殊情况下必须穿越时，应采取有效的保护措施。

（5）给水管道不得敷设在烟道、风道、电梯井内、排水沟内。

给水管道不宜穿越橱窗、壁柜、给水管道不得穿过大便槽和小便槽，且立管离大、小便槽端部不得小于 0.5m 。

（6）给水管道不宜穿越伸缩缝、沉降缝、变形缝。

如必须穿越时，应设置补偿管道伸缩和剪切变形的装置。

（7）塑料给水管道在室内宜暗设。

明设时立管应布置在不易受撞击处，如不能避免时，应在管外加保护措施。

塑料给水管道不得与水加热器或热水炉直接连接，应有不小于0.4m 的金属管段过渡。

（8）室内给水管道上的各种阀门，宜装设在便于检修和便于操作的位置。

（9）建筑物内埋地敷设的生活给水管与排水管之间的最小净距，平行埋设时不应小于 0.5m ；交叉埋设时不应小于 0.15m ，且给水管道应在排水管的上面。

（10）给水管的伸缩补偿装置，应按直线长度、管材的线膨胀系数、环境温度和管内水温的变化、管道节点的允许位移量等因素经计算确定。

应尽量利用管道自身的折角补偿温度变形。

（11）当给水管道结露会影响环境，引起装饰、物品等受损害时，给水管道应作防结露保冷层，防结露保冷层的计算和构造，按现行的《设备及管道保冷技术通则》执行。

3．2．3城镇给水管道严禁与自备水源的供水管道直接连接。

3．2．3A中水、回用雨水等非生活饮用水管道严禁与生活饮用水管道连接。

3．2．4生活饮用水不得因管道内产生虹吸、背压回流而受污染。

3．2．4A卫生器具和用水设备、构筑物等的生活饮用水管配水件出水口应符合下列规定：1出水口不得被任何液体或杂质所淹没；2出水口高出承接用水容器溢流边缘的最小空气间隙，不得小于出水口直径的2．5倍。

3．2．4C从生活饮用水管网向消防、中水和雨水回用水等其他用水的贮水池(箱)补水时，其进水管口最低点高出溢流边缘的空气间隙不应小于150mm。

3．2．5从生活饮用水管道上直接供下列用水管道时，应在这些用水管道的下列部位设置倒流防止器：1从城镇给水管网的不同管段接出两路及两路以上的引入管，且与城镇给水管形成环状管网的小区或建筑物，在其引入管上；2从城镇生活给水管网直接抽水的水泵的吸水管上；3利用城镇给水管网水压且小区引入管无防回流设施时，向商用的锅炉、热水机组、水加热器、气压水罐等有压容器或密闭容器注水的进水管上。

3．2．5A从小区或建筑物内生活饮用水管道系统上接至下列用水管道或设备时，应设置倒流防止器：1单独接出消防用水管道时，在消防用水管道的起端；2从生活饮用水贮水池抽水的消防水泵出水管上。

3．2．5B生活饮用水管道系统上接至下列含有对健康有危害物质等有害有毒场所或设备时，应设置倒流防止设施：1贮存池(罐)、装置、设备的连接管上；2化工剂罐区、化工车间、实验楼(医药、病理、生化)等除按本条第1款设置外，还应在其引入管上设置空气间隙。

3．2．5C从小区或建筑物内生活饮用水管道上直接接出下列用水管道时，应在这些用水管道上设置真空破坏器：1当游泳池、水上游乐池、按摩池、水景池、循环冷却水集水池等的充水或补水管道出口与溢流水位之间的空气间隙小于出口管径2．5倍时，在其充(补)水管上；2不含有化学药剂的绿地喷灌系统，当喷头为地下式或自动升降式时，在其管道起端；3消防(软管)卷盘；4出口接软管的冲洗水嘴与给水管道连接处。

雨水系统设计规范【篇一：给水排水设计规范gb 50015-2003】建筑给水排水设计规范code for design of building water supply and drainagegb 50015-20031 总则1.0.1 为保证建筑给水排水设计质量，使设计符合安全、卫生、适用、经济等基本要求，制订本规范。

1.0.2 本规范适用于居住小区、民用建筑给水排水设计，亦适用于工业建筑生活给水排水和厂房屋面雨水排水设计。

但设计下列工程时，还应按现行的有关专门规范或规定执行： 1 湿陷性黄土、多年冻土和胀缩土等地区的建筑物。

2 抗震设防烈度超过9度的建筑物。

3 矿泉水疗、人防建筑。

4 工业生产给水排水。

5 建筑中水。

1.0.3 建筑给水排水设计，应在满足使用要求的同时还应为施工安装、操作管理、维修检测以及安全保护等提供便利条件。

1.0.4 建筑给水排水工程设计，除执行本规范外，尚应符合国家现行的有关标准、规范的要求。

2.1 术语2.1.1 生活饮用水 potable water水质符合生活饮用水卫生标准的用于日常饮用、洗涤的水。

2.1.2 生活杂用水 non-drinking water用于冲洗便器、汽车，浇洒道路、浇灌绿化，补充空调循环用水的非饮用水。

2.1.3 小时变化系数 hourly variation coefficient2.1.4 最大时用水量 maximum hourly water consumption 最高日用水时间内，最大一小时的用水量。

2.1.5 回流污染 backflow pollution1 由于给水管道内负压引起卫生器具或受水容器中的水或液体混合物倒流入生活给水系统的现象。

2 非饮用水或其它液体、混合物进入生活给水管道系统的现象。

2.1.6 空气间隙 air gap1 给水管道出口或水嘴出口的最低点与用水设备溢流水位间的垂直空间距离。

2 间接排水的设备或窗口的排出管口最低点与受水器溢流水位间的垂直窨距离。

《建筑给水排水设计规范》GB 50015-2003（2009年版）178774目录1总则2术语、符号2.1 术语2.2 符号3给水3.1 用水定额和水压3.2 水质和防水质污染3.3 系统选择3.4 管材、附件和水表3.5 管道布置和敷设3.6 设计流量和管道水力计算3.7 水塔、水箱、贮水池3.8 增压设备、泵房3.9 游泳池与水上游乐池3.10 循环冷却水及冷却塔3.11 水景4排水4.1 系统选择4.2 卫生器具及存水弯4.3 管道布置和敷设4.4 排水管道水力计算4.5 管材、附件和检查井4.6 通气管4.7 污水泵和集水池4.8 小型生活污水处理4.9 雨水5热水及饮水供应5.1 用水定额、水温和水质5.2 热水供应系统选择5.3 耗热量、热水量和加热设备供热量的计算5.4 水的加热和贮存5.5 管网计算5.6 管材、附件和管道敷设5.7 饮水供应附录A 回流污染的危害程度及防回流设施的选择附录B 居住小区地下管线（构筑物）间最小净距附录C 给水管段卫生器具给水当量同时出流概率计算式ac系数取值表附录D 阀门和螺纹管件的摩阻损失的折算补偿长度附录E 给水管段设计秒流量计算表附录F 饮用水嘴同时使用数量计算本规范用词说明引用标准名录1总则1.0.1 为保证建筑给水排水设计质量，使设计符合安全、卫生、适用、经济等基本要求，制定本规范。

1.0.2 本规范适用于居住小区、公共建筑区、民用建筑给水排水设计，亦适用于工业建筑生活给水排水和厂房屋面雨水排水设计。

但设计下列工程时，还应按现行的有关专门规范或规定执行：1 湿陷性黄土、多年冻土和胀缩土等地区的建筑物；2 抗震设防烈度超过9度的建筑物；3 矿泉水疗、人防建筑；4 工业生产给水排水；5 建筑中水和雨水利用。

▼点击展开条文说明1.0.2 本条是原规范条文的修改，明确了本规范的适用范围。

随着我国诸如会展区、金融区、高新科技开发区、大学城等兴建，形成以展馆、办公楼、教学楼等为主体，以为其配套的服务行业建筑为辅的公建区。

目录 (1)1.建筑给水排水设计规范GB 50015-2003（2009年版）..................................................................... 1~32.建筑设计防火规范GB 50016--2006.................................................................................................. 3~223.高层民用建筑设计防火规范GB 50045-95（2005年版） ............................................................. 22~244.人民防空工程设计防火规范GB 50098—2009 (24)5.自动喷水灭火系统设计规范GB 50084—2001（2005年版） ....................................................... 24~456.建筑灭火器配置设计规范GB 50140-2005...................................................................................... 45~467.民用建筑水灭火系统设计规程DGJ08-94-2007(J11056-2007) .................................................... 46~50一．（建筑给水排水设计规范）GB 50015-2003（2009年版）第3. 2. 3A、3. 2. 4、3. 2. 4A、3. 2. 4C、3. 2. 5、3. 2. 5A、3. 2. 5B、3. 2. 5C、3. 2. 6、3. 2. 10、3. 9. 14、3. 9. 18A、3. 9. 20A、3. 9. 24、4. 2. 6、4. 3. 3A、4. 3. 4、4. 3. 6、4. 3. 6A、4. 5. 10A 条为强制性条文，必须严格执行。

建筑给排水管道管径的确定前言：本文根据《建筑给水排水设计规范》(GB50015-2003)（以下简称“规范”）的规定，通过计算，采用表格的形式列出了不同建筑给排水管道管径与卫生器具当量值之间的关系，及不同给水管材相互替换的规律，为设计工作提供了便利。

1.给水管道的管径：(1)计算原则：1. 本表以建筑给排水设计中常见的用水分散型公共建筑（如幼儿园、托儿所、养老院、门诊部、诊疗所、办公楼、商场、学校、医院、疗养院、休养所、集体宿舍2. 、旅馆、招待所、宾馆、客运站、会展中心、公共厕所等）为计算对象：3. 给水管道设计秒流量根据“规范”的规定，4. 按下式计算：q g=0.2αNg0.5式中的α值：建筑物名称α值幼儿园、托儿所、养老院 1.2门诊部、诊疗所 1.4办公楼、商场 1.5学校 1.8医院、疗养院、休养所 2.0集体宿舍、旅馆、招待所、宾馆 2.5客运站、会展中心、公共厕所 3.05. 管道流速按下表选定。

公称直径（mm）15～20 25～40 50～70 ≥80水流速度（m/s）≤1.0 ≤1.2 ≤1.5 ≤1.86. 关于管径：(1) 钢管、铸铁管已考虑锈蚀和沉垢的影响。

(2) 塑料管管径、管材系列根据《热塑性塑料管材通用壁厚表》（GB/T10798-2001）并已考虑到刚性与连接的要求。

(3) 不同(4) 管材的管径对照表：钢管公称DN15 DN20 DN25 DN32 DN40 DN50 DN70 DN80 DN100 DN125 DN150 直径铸铁管公称直径－－－－－DN50 DN70 DN80 DN100 DN125 DN150公称外径d20 d25 d32 d40 d50 d63 d75 －－－－热塑性塑料管壁厚 2.0 2.3 2.9 3.7 4.6 5.8 6.8 －－－－铝塑复合管公称外径d20 d25 d32 d40 d50 d63 d75 －－－－钢塑给水复合管公称直径DN15 DN20 DN25 DN32 DN40 DN50 DN65 DN80 DN100 DN125 DN150 说明：上表中“热塑性塑料管”为S5系列的规格；“铝塑复合管”为铝管搭接焊式铝塑复合管的规格。

《建筑给水排水设计规范》GB 50015-2003（2009年版）178774 目录1总则2术语、符号2.1 术语2.2 符号3给水3.1 用水定额和水压3.2 水质和防水质污染3.3 系统选择3.4 管材、附件和水表3.5 管道布置和敷设3.6 设计流量和管道水力计算3.7 水塔、水箱、贮水池3.8 增压设备、泵房3.9 游泳池与水上游乐池3.10 循环冷却水及冷却塔3.11 水景4排水4.1 系统选择4.2 卫生器具及存水弯4.3 管道布置和敷设4.4 排水管道水力计算4.5 管材、附件和检查井4.6 通气管4.7 污水泵和集水池4.8 小型生活污水处理4.9 雨水5热水及饮水供应5.1 用水定额、水温和水质5.2 热水供应系统选择5.3 耗热量、热水量和加热设备供热量的计算5.4 水的加热和贮存5.5 管网计算5.6 管材、附件和管道敷设5.7 饮水供应附录A 回流污染的危害程度及防回流设施的选择附录B 居住小区地下管线（构筑物）间最小净距附录C 给水管段卫生器具给水当量同时出流概率计算式ac系数取值表附录D 阀门和螺纹管件的摩阻损失的折算补偿长度附录E 给水管段设计秒流量计算表附录F 饮用水嘴同时使用数量计算本规范用词说明引用标准名录1总则1.0.1 为保证建筑给水排水设计质量，使设计符合安全、卫生、适用、经济等基本要求，制定本规范。

1.0.2 本规范适用于居住小区、公共建筑区、民用建筑给水排水设计，亦适用于工业建筑生活给水排水和厂房屋面雨水排水设计。

但设计下列工程时，还应按现行的有关专门规范或规定执行：1 湿陷性黄土、多年冻土和胀缩土等地区的建筑物；2 抗震设防烈度超过9度的建筑物；3 矿泉水疗、人防建筑；4 工业生产给水排水；5 建筑中水和雨水利用。

▼点击展开条文说明1.0.2 本条是原规范条文的修改，明确了本规范的适用范围。

随着我国诸如会展区、金融区、高新科技开发区、大学城等兴建，形成以展馆、办公楼、教学楼等为主体，以为其配套的服务行业建筑为辅的公建区。

建筑给水排水设计规Code for design of building water supply and drainageGB 50015-20031 总则1.0.1为保证建筑给水排水设计质量，使设计符合安全、卫生、适用、经济等基本要求，制订本规。

1.0.2本规适用于居住小区、民用建筑给水排水设计，亦适用于工业建筑生活给水排水和厂房屋面雨水排水设计。

但设计下列工程时，还应按现行的有关专门规或规定执行：1湿陷性黄土、多年冻土和胀缩土等地区的建筑物。

2抗震设防烈度超过9度的建筑物。

3矿泉水疗、人防建筑。

4工业生产给水排水。

5建筑中水。

1.0.3建筑给水排水设计，应在满足使用要求的同时还应为施工安装、操作管理、维修检测以及安全保护等提供便利条件。

1.0.4建筑给水排水工程设计，除执行本规外，尚应符合国家现行的有关标准、规的要求。

2.1 术语2.1.1生活饮用水 potable water水质符合生活饮用水卫生标准的用于日常饮用、洗涤的水。

2.1.2 生活杂用水 non-drinking water用于冲洗便器、汽车，浇洒道路、浇灌绿化，补充空调循环用水的非饮用水。

2.1.3小时变化系数 hourly variation coefficient2.1.4 最大时用水量 maximum hourly water consumption最高日用水时间，最大一小时的用水量。

2.1.5回流污染 backflow pollution1 由于给水管道负压引起卫生器具或受水容器中的水或液体混合物倒流入生活给水系统的现象。

2 非饮用水或其它液体、混合物进入生活给水管道系统的现象。

2.1.6 空气间隙 air gap1 给水管道出口或水嘴出口的最低点与用水设备溢流水位间的垂直空间距离。

2 间接排水的设备或窗口的排出管口最低点与受水器溢流水位间的垂直窨距离。

2.1.7 溢流边缘 flood-level rim指由此溢流的容器上边缘。

水表的选取与管径建筑给水排水设计规范 GB 50015-2003 第3.4.18.1条,水表口径宜与给水管道管径一致。

专业--给排水常识 2010-05-26 18:54:09 阅读193 评论1 字号：大中小订阅水表口径一般都比管径小一号，管径的规格是根据用水设备的设计流量来确定的，而水表的规格则要兼顾考虑精度问题.相对来说较小规格的水表的最小可测流量也较小，这对自来水公司来说可以更大限度减少水损.而且，水表取小一号，只是局部阻力增大一些，这对系统来说是可以接受的.以上只是自来水公司的要求，不是国家强制规定的水表分类及标准水表 2009-10-24 20:19:12 阅读296 评论0 字号：大中小订阅流量计的分类原则有许多,按测量原理、测量方法和结构形式、测量目的、测量介质、测量管径、指示值显示方式等进行分类是其主要的方法。

水表的分类也基本上按这些原则。

1 按测量原理按测量原理是一种主要的分类方法。

一般可分为速度式水表和容积式水表。

（1）速度式水表安装在封闭管道中，由一个运动元件组成，并由水流运动速度直接使其获得动力速度的水表。

典型的速度式水表有旋翼式水表、螺翼式水表。

旋翼式水表中又分单流束水表和多流束水表。

（2）容积式水表安装在管道中，由一些被逐次充满和排放流体的已知容积的容室和凭借流体驱动的机构组成的水表，或简称定量排放式水表。

容积式水表一般采用活塞式结构。

2 按计量等级计量等级反映了水表的工作流量范围，尤其是小流量下的计量性能。

按照从低到高的次序，一般分为A级表、B级表、C级表、D级表，其计量性能分别达到国家标准中规定的计量登记A、B、C、D等级的相应要求。

PS：一些欧洲国家的大口径水表（如涡轮式水表或复式水表等）的工作流量范围特别宽（可以到200：1以上），也标注分段误差限和标注“B、C”等级符号，但这类表的计量等级符号的具体含义、特性流量值与国际标准ISO4064中的相应规定不同。

建筑给水排水设计规范Code for design of building water supply and drainageGB 50015-20031总则1.0.1为保证建筑给水排水设计质量，使设计符合安全、卫生、适用、经济等基本要求，制订本规范。

1.0.2本规范适用于居住小区、民用建筑给水排水设计，亦适用于工业建筑生活给水排水和厂房屋面雨水排水设计。

但设计下列工程时，还应按现行的有关专门规范或规定执行：1湿陷性黄土、多年冻土和胀缩土等地区的建筑物。

2抗震设防烈度超过9度的建筑物。

3矿泉水疗、人防建筑。

4工业生产给水排水。

5建筑中水。

1.0.3建筑给水排水设计，应在满足使用要求的同时还应为施工安装、操作管理、维修检测以及安全保护等提供便利条件。

1.0.4建筑给水排水工程设计，除执行本规范外，尚应符合国家现行的有关标准、规范的要求。

2.1 术语2.1.1生活饮用水 potable water水质符合生活饮用水卫生标准的用于日常饮用、洗涤的水。

2.1.2 生活杂用水 non-drinking water用于冲洗便器、汽车，浇洒道路、浇灌绿化，补充空调循环用水的非饮用水。

2.1.3小时变化系数 hourly variation coefficient2.1.4 最大时用水量 maximum hourly water consumption最高日用水时间内，最大一小时的用水量。

2.1.5回流污染 backflow pollution1 由于给水管道内负压引起卫生器具或受水容器中的水或液体混合物倒流入生活给水系统的现象。

2 非饮用水或其它液体、混合物进入生活给水管道系统的现象。

2.1.6 空气间隙 air gap1 给水管道出口或水嘴出口的最低点与用水设备溢流水位间的垂直空间距离。

2 间接排水的设备或窗口的排出管口最低点与受水器溢流水位间的垂直窨距离。

2.1.7 溢流边缘 flood-level rim指由此溢流的容器上边缘。

《建筑给水排水设计规范》GB 50015-2003目录1总则2术语、符号2.1 术语2.2 符号3给水3.1 用水定额和水压3.2 水质和防水质污染3.3 系统选择3.4 管材、附件和水表3.5 管道布置和敷设3.6 设计流量和管道水力计算3.7 水塔、水箱、贮水池3.8 增压设备、泵房3.9 游泳池与水上游乐池3.10 循环冷却水及冷却塔3.11 水景4排水4.1 系统选择4.2 卫生器具及存水弯4.3 管道布置和敷设4.4 排水管道水力计算4.5 管材、附件和检查井4.6 通气管4.7 污水泵和集水池4.8 小型生活污水处理4.9 雨水5热水及饮水供应5.1 用水定额、水温和水质5.2 热水供应系统选择5.3 耗热量、热水量和加热设备供热量的计算5.4 水的加热和贮存5.5 管网计算5.6 管材、附件和管道敷设5.7 饮水供应附录A 回流污染的危害程度及防回流设施的选择附录B 居住小区地下管线（构筑物）间最小净距附录C 给水管段卫生器具给水当量同时出流概率计算式ac系数取值表附录D 阀门和螺纹管件的摩阻损失的折算补偿长度附录E 给水管段设计秒流量计算表附录F 饮用水嘴同时使用数量计算本规范用词说明引用标准名录1总则1.0.1 为保证建筑给水排水设计质量，使设计符合安全、卫生、适用、经济等基本要求，制定本规范。

1.0.2 本规范适用于居住小区、公共建筑区、民用建筑给水排水设计，亦适用于工业建筑生活给水排水和厂房屋面雨水排水设计。

但设计下列工程时，还应按现行的有关专门规范或规定执行：1 湿陷性黄土、多年冻土和胀缩土等地区的建筑物；2 抗震设防烈度超过9度的建筑物；3 矿泉水疗、人防建筑；4 工业生产给水排水；5 建筑中水和雨水利用。

▼点击展开条文说明1.0.2 本条是原规范条文的修改，明确了本规范的适用范围。

随着我国诸如会展区、金融区、高新科技开发区、大学城等兴建，形成以展馆、办公楼、教学楼等为主体，以为其配套的服务行业建筑为辅的公建区。