OMA-玻璃幕墙设计

OMA 方案 气瓶 现场处置方案 .pdf气瓶 现场处置方案 .doc见习基地管理方案.doc关于群访事件的化解方案建筑工地扬尘治理专项方案下载 设计幕墙TencentBeijingHeadquartersSchematicDesignFacades20120704目录TableofContents1简介及目标IntroductionandAmbition3.2.4案例研究B-FrankLloydWright设计的詹森公司总部2主要假设及参数KeyAssumptionsandParametersCaseStudyB-FrankLloydWright-2.1眩光GlareJohnsonWaxHeadquarters2.2热力性能及可持续性3.2.5案例研究C-OMA设计的波多音乐厅ThermalPerformanceandSustainabilityCaseStudyC-OMA-2.3通风及活动窗户VentilationandOperableWindowsCasadaMusica2.4结构考虑因素StructuralConsiderations3.2.6技术性 分析 定性数据统计分析pdf销售业绩分析模板建筑结构震害分析销售进度分析表京东商城竞争战略分析 TechnicalAnalysis2.4.1.静载荷DeadLoads2.4.2活载荷-风LiveLoads-Wind3.3多孔石质PerforatedTravertine2.4.3活载荷-热力LiveLoads-Thermal3.3.1材料Material2.4.4活载荷-防震LiveLoads-Seismic3.3.2案例分析-OMA-CCTV2.5隔音SoundInsulationCaseStudy-OMA-CCTV2.6防火FireSafety3.3.3技术性分析TechnicalAnalysis2.7中国及国际的相关规范RelevantPRCandInternationalCodes3.4水平Horizontal2.8通道/维护策略Access/MaintenanceStrategies3.4.1材料Material3.4.2退台研究SetbackStudies3设计Design3.4.3案例研究-ClausenKaan3.1百叶窗式Louvers荷兰司法鉴定研究所3.1.1材料MaterialCaseStudy-ClausenKaan-3.1.2案例研究-CharlesLuckman担任协理的NederlandsForensischInstituutWilshireFederalBuilding3.4.4技术性分析TechnicalAnalysisCaseStudy-CharlesLuckmanAssociates-WilshireFederalBuilding4总览以及OMA的建议3.1.3技术性分析TechnicalAnalysisOverviewandOMARecommendation3.2玻璃管式GlassCylinders3.2.1材料Material3.2.2玻璃管透明度研究GlassCylinderTransparencyStudies3.2.3案例研究A-双层幕墙：北京侨福花园广场CaseStudyA-DoubleSkinFacade:QiaofuGardenPlaza,Beijing11简介及目标IntroductionandAmbition建筑的围护结构是不受控制的外部气候与控制中的室内环境的交界面。Thebuildingenvelopeistheinterfacebetweentheuncontrolled建筑幕墙的设计不仅决定了外观效果，更决定了室内的空间品质。这与exteriorclimateandthecontrolledinteriorenvironment.The在腾讯总部工作的腾讯员工的良好的工作环境和工作成效有直接关系。designofthebuildingfacadenotonlydeterminesthevisual本文件旨在界定幕墙设计的建筑和技术参数，并且为OMA及其幕墙顾问appearanceoftheexterior,butalsothespatialqualitiesofVSA为腾讯北京总部研究的幕墙方案提供总览。theinterior.Thishasadirectrelationshiptothewell-beingandproductivityoftheTencentstaffworkinginside.幕墙的外观应能衬托整体建筑形式。就腾讯北京总部的情况而言，建筑非常庞大，四个立面均长达180米，设计团队考虑了多种幕墙设计策Thisdocumentisintendedtodefinethearchitecturaland略。technicalparametersforthefacadedesignandtoprovideanoverviewofallfacadeoptionsdevelopedbyOMAandits垂直元素将建筑的边长分割成不同单元。对各单元的统一的处理突出了facadeconsultantVSAforTencentBeijingHeadquarters.建筑庄严的效果，而水平元素则另其更显修长。OMA在认为各方案在设计上各有特色，同等可行。Theappearanceofthefacadeshouldcomplementtheoverallbuildingform.InthecaseoftheTencentBeijingHQ,anunusuallylargebuildingwith4elevationseach180minlength,thedesignteamhasconsideredvariousstrategiesforthefacadedesign.Verticalemphasismodulatesthelengthintodiscreteunits,uniformtreatmentsaccentuateitsmonumentality,andhorizontalemphasisaccentuatesitslength.OMAconsiderseachapproachuniqueandequallyviableintermsofdesign.3立面图Elevations29.0023.5030.0023.5036.50北North180.0029.0018.0014.5031.8049.2045.00东East180.0029.0018.0045.0054.00南South180.0029.0018.0017.3336.0063.0126.99西West180.004维护结构的范围ExtentofEnvelope主要幕墙PrimaryFacades北North4134m2东East3965m2南South4005m2西West4188m2小计Subtotal16292m222%T2小计T2Subtotal5238m27%屋顶Roof17700m23791m211966m22178m21266m2屋顶小计RoofSubtotal37012m249%幕墙切角FacadeCuts8439m211%庭院Courtyards8253m211%总计OVERALLTotal75234m2100%NEWS52主要假设及参数KeyAssumptionsandParameters72.1眩光Glare设计团队观察到，在腾讯现有的深圳和北京办公室中，运用了许多百叶InTencent’sexistingofficesinShenzhenandBeijing,thedesignteamhas窗和窗帘阻挡强烈的阳光。想必这是由于腾讯的员工主要用电脑工作。observedthefrequentuseofblindsandcurtainstoblocksunlight.This明亮的玻璃无法避免眩光，因此必需采用遮阳设施。这样一来，办公室ispresumablyduetothecomputer-basedtasksperformedbyTencent’s便没有阳光的照射，而需完全依赖人工照明。腾讯北京总部大楼幕墙的staff.Veryclearglazingcannotpreventglare,thereforeshadesmustbe设计意图为：充分利用天然光照，并且不会导致视觉上的不适。故此，drawntoavoidit.Asaresult,nosunlightpenetratesintothebuildingand减轻眩光是幕墙设计的主要参数。在设计过程中，我们研究了为建筑维artificiallightingstrategiesareimplementedthroughout.Theintention护结构采用甚不透明的幕墙和漫射材料。inthedesignoftheTencentBeijingHQfaçadeistointroducenaturallightingwithoutcompromisingvisualcomfort.Assuch,mitigationofglareiskeyparameterofthefaçadedesign,andveryopaquefacadesanddiffusematerialsforthebuildingenvelopehavebeenexploredinthedesignprocess.892.2热力性能及可持续性ThermalPerformanceandSustainability围护结构有效的隔热性能减少能源消耗，从而令建筑达到更好的可持续Effectivethermalinsulationoftheenvelopecancontributetoamore性。为使大楼在北京极端天气状况下亦能保持人体可接受的热舒适度，sustainablebuildingbyreducingenergyconsumption.Toprovide设计团队时将仔细考虑U值区间，并在设计建筑围护时将遵循这个区间。acceptablelevelsofthermalcomfortinBeijing’sextremeclimate,the需要留意的是，由于腾讯北京总部大楼的表面积与体积之比较低，这意designteamwillcloselyconsiderarangeofU-valuestobefollowed味着幕墙U值较大的改变未必对建筑整体U值带来巨大的影响。whendesigningthebuildingenvelope.However,itshouldbenotedthatthelowsurfacetovolumeratiooftheTencentBeijingHQmassingmeans由于北京夏季天气炎热，故设计幕墙时应避免令建筑在此期间获取过多thatalargechangeintheU-valueofthefaçademaynotdramatically的太阳热。affecttheoverallU-valueofthebuilding.项目的目标是争取LEED金级认证。幕墙设计可通过取得能源性能的得分DuetoBeijing’shotclimateinthesummer,thefaçadeshallbedesigned及光照得分，从而帮助争取LEED认证。相关得分项目如下：toavoidexcessivesolarheatgainduringthisperiod.TheambitionoftheprojectisachieveLEEDGold.ThefaçadedesigncancontributetoLEEDcertificationthroughenergyperformancecreditsanddaylightingcredits.Relevantcreditsinclude:10LEED要求——与幕墙相关的主要得分LEEDRequirement–PrimaryFaçadeRelatedCredits类别得分项目要求/影响CategoryCreditsRequirements/Implications能源与大气先决条件2建筑物的总能源消耗比美国采暖、制冷和空调工程师学会(ASHRAE)90.1效能超出Energy&Atmosphere最低能源效能10%Prerequisite2MinimumEnergyTotalbuildingenergyuseexceedASHRAE90.1performanceby10%.Performance得分项目2建筑物的总能源消耗比美国采暖、制冷和空调工程师学会(ASHRAE)90.1效能超出最佳能源规格10%以上Credit2OptimizeEnergyPerformanceTotalbuildingenergyuseexceedASHRAE90.1performancebymorethan10%.室内环境质量得分项目8.1电脑模拟效果显示，在9月21日上午9时和下午3时、在晴空下，适用空间的日光亮IndoorEnvironmentalQuality日光和视野——日光度达到最低10支英尺烛光(fc)(108勒克司)和最高500fc(5,400勒克司)。为节Credit8.1制眩光而设的可观景式自动窗帘只能符合最低亮度即10支英尺烛光(fc)(108勒克DaylightandViews–司)。DaylightingDemonstratethroughcomputersimulationthattheapplicablespacesachievedaylightilluminancelevelsofminimum10footcandles(fc)(108lux)andamaximumof500fc(5,400lux)inaclearskyconditiononSeptember21at9a.m.and3p.m.View-preservingautomatedshadesforglarecontrolmaydemonstratecomplianceforonlytheminimum10fc(108lux)illuminancelevel.得分项目8.2在90%的常用空间，楼宇使用者能够在每层地上透过可视玻璃在30寸至90寸（即0.8日光和视野——视野米至2.3米）的距离之间直视户外环境。Credit8.2DaylightandViews–ViewsAchieveadirectlineofsighttotheoutdoorenvironmentviavisionglazingbetween30inchesand90inches(between0.8metersand2.3meters)abovethefinishfloorforbuildingoccupantsin90%ofallregularlyoccupiedareas.11LEED要求——与外墙相关的次要得分LEEDRequirement–SecondaryFaçadeRelatedCredits类别得分项目要求/影响CategoryCreditsRequirements/Implications物料和资源得分项目4使用含循环内容1的物料，使消耗后回收材料2(PCR)和消耗前材料3的一半加起来至少Material&Resources循环内容构成本项目的物料总价值的10%或20%（以成本计算）。幕墙物料是总物料量的一部Credit4分。RecycledContent10%->得1分20%->得2分平板玻璃一般不可以成为再造物质，其他玻璃产品例如浇注玻璃和皮料玻璃较可能含再造物质，含再造物质的铝竖框也计算在物料内容之内。Usematerialswithrecycledcontent1suchthatthesumofpostconsumer2recycledcontentplus1/2ofthepreconsumer3contentconstitutesatleast10%or20%,basedoncost,ofthetotalvalueofthematerialsintheproject.Façadematerialscontributetothetotalmaterialcount.10%->1point20%->2pointsFlatglassgenerallydoesnotcounttowardsrecyclecontent.Otherglassproductssuchascastglassandchannelglassaremorelikelytohaverecycledcontent.Aluminummullionscontainingrecycledcontentalsocounttowardsmaterialcontent.得分项目5从项目基地500里（800公里）范围内提炼、收获、回收以及制造出来的建筑物料或产本地物料品占总物料价值的最低百分比（以成本计算）Credit5RegionalMaterials10%->得1分20%->得2分Buildingmaterialsorproductsthathavebeenextracted,harvestedorrecovered,aswellasmanufactured,within500miles(800kilometers)oftheprojectsiteforaminimumpercentage,basedoncost,ofthetotalmaterialsvalue.10%->1point20%->2points12InnovationinDesign得分项目1.1和1.2可以任何方式将创新的设计及达到可作模范的表现两种途径结合，从而获取得分。设创新的设计Credit1.1&1.2计团队提供控规的要求以及达到要求的策略。可通过材料、集成系统、或动力控制获取得分。CreditcanbeachievedthroughanycombinationoftheInnovationinDesignandExemplaryPerformancepaths.DesignTeamtoproposerequirementforcomplianceandstrategiesusedtomeettherequirements.Creditattainmentcouldpotentiallybeachievedbymaterial,integratedsystems,ordynamiccontrol.得分项目.2项目团队最少应有1名主要成员是LEED认证专业人员(AP)，VS-A幕墙工作团队有这样LEED认证专业人员的专业人员。Credit2LEEDAccreditedProfessionalAtleast1principalparticipantoftheprojectteamshallbeaLEEDAccreditedProfessional(AP).LEEDAPispresentonVS-Afaçadeteam.13LEED要求——与外墙相关的第三得分LEEDRequirement–TertiaryFaçadeRelatedCredits类别得分项目要求/影响CategoryCreditsRequirements/Implications基地选址得分项目7对于平坦或坡度较缓的屋顶（≤2:12或15），至少75%的屋面需采用太阳能反射指SiteSelection热岛效应——屋顶数2（SRI）等于或大于78的材料。或者，至少50%面积的屋面应为植被覆盖的屋顶。Credit7HeatIslandEffect-RoofForflatorlow-slopedroof(≤2:12or15%),useroofingmaterialswithasolarreflectanceindex2(SRI)equaltoorgreaterthan78foraminimumof75%oftheroofsurface.Alternatively,vegetatedroofcoversatleast50%oftheroofarea.得分项目8室内照明减少光污染(通过自动装置）将晚上11时至凌晨5时期间的所有非紧急室内照明的电力输入减少至Credit8少50%，但保证仍能直视建筑外围的任何半透明或透明的开口。下班时间可通过手动LightPollutionReduction或自动感应装置照明。室外照明设计室外照明，令所有基地照明和安装在建筑物的照明在基地界线上能产生不超过0.20水平及垂直英尺蜡烛（即2.0水平及垂直勒克司）的初始光度，以及在基地外15英尺（即4.5米）的范围内产生不超过0.01水平英尺蜡烛（即0.1水平勒克司）的初始光度。InteriorLightingReducetheinputpower(byautomaticdevice)ofallnonemergencyinteriorluminaireswithadirectlineofsighttoanyopeningsintheenvelope(translucentortransparent)byatleast50%between11p.m.and5a.m.After-hoursoverridemaybeprovidedbyamanualoroccupant-sensingdevice.OutdoorLightingDesignexteriorlightingsothatallsiteandbuilding-mountedluminairesproduceamaximuminitialilluminancevaluenogreaterthan0.20horizontalandverticalfootcandles(2.0horizontalandverticallux)attheprojectboundaryandnogreaterthan0.01horizontalfootcandles(0.1horizontallux)15feet(4.5meters)beyondthesite.14能源与大气先决条件1由独立第三方核实项目已经装嵌相关的能源系统，并已按照业主的项目要求、设计基Energy&Atmosphere建筑物能源系统基本调试础和施工文件来校准运作。需要作出照明和日光管控调试。Prerequisite1FundamentalCommissioningofBuildingIndependentthird-partytoverifythattheproject’senergy-relatedsystemsareinstalled,EnergySystemsandcalibratedtoperformaccordingtotheowner’sprojectrequirements,basisofdesignandconstructiondocuments.Commissioningoflightinganddaylightingcontrolsarerequired.得分项目2这与幕墙相关（若应用了BIPV建材一体太阳电池模板技术）基地上的可再生能源Credit2RelevanttofaçadeiftechnologiessuchasBIPV(Buildingintegratedphotovoltiacs)On-SiteRenewableEnergyisused.区域优先性得分项目1.1由美国绿色建筑协会(USGBC)区域协会和分会决定是否在这项目给分，给分与否取决RegionalPriorityCredits区域优先性于项目对所在地区的环境有否产生重要影响。核对USGBC资料库，确认本地的重要环Credit1.1境议题。RegionalPriorityRegionalPrioritycreditsidentifiedbytheUSGBCregionalcouncilsandchaptersashavingenvironmentalimportanceforaproject’sregion.CheckUSGBCdatabasetoconfirmregionallyimportantenvironmentalissues.152.3通风及活动窗VentilationandOperableWindows与AECOM机电顾问研究的初步设计乃基于自然及机械排烟。毗邻幕墙区域ThepreliminarydesigndevelopedwithAECOMMEPwillrelyonboth的达500平方米的排烟区将采用自然通风，从而避免使用排风扇。需在这naturalandmechanicalsmokeextract.Smokezonesupto500m2些自然排风区设置活动窗，其总面积不得少于房间面积的2%。活动窗的adjacenttothefacadeareawillbenaturallyventilatedtoavoidtheuse面积取决于窗户的开关方式。如有阻碍物或窗户为外推上悬窗，则窗户ofsmokeextractionfans.Thesenaturallyventilatedsmokezoneswill区域应同等地增加。requireoperablewindowswithatotalareaofnolessthan2%oftheroomarea.Theareaoftheoperablewindowsissubjecttothemodeof幕墙亦需要通风，令新风通过幕墙进入空气处理装置。过渡季时，室外operationofthewindow.Ifthereisobstructionoritisahopperwindow,区域可直接用作空气调节（“自由冷却”）。要达到这些用途，幕墙上thereshallbeanequivalentincreaseinthewindowarea.应有促进空气流通的区域（如令空气流通的百叶窗、栅栏、或扩张网）。Ventilationwillalsoberequiredthroughthefaçadeforintaketoairhandlingunits.Duringthetransitionseasons,outdoorareamaybedirectlyusedforair-conditioningpurposes(“freecooling.”)Theseusesbothrequireventilatedareas(suchasventedlouvers,grating,orexpandedmesh)throughthefaçade.162.4结构考虑因素StructuralConsiderations2.4.1静载荷2.4.1DeadLoads静载荷假设将符合选定的设计方向。DeadLoadassumptionswillbeinaccordancewiththeselecteddesigndirection.2.4.2活载荷-风2.4.2LiveLoads-Wind《建筑结构荷载规范》(2006年版)GB50009-2001中 规定 关于下班后关闭电源的规定党章中关于入党时间的规定公务员考核规定下载规定办法文件下载宁波关于闷顶的规定 了幕墙的风荷载ThevalueobtainofwindloadoffaçadeisstipulatedintheLoadCodefor如何取值的问题。theDesignofBuildingStructures(2006Edition)GB50009-2001.风载荷可能对高层建筑的幕墙的形式有影响。北京的幕墙抗风压水平为Windloadingcapacitymayaffecttheformoffaçadeofahigh-risebuilding.5.3.0≤P3.5。幕墙的抗风压性能需待计算后方可确认。其指数不应低于InBeijing,windpressureresistanceleveloffaçadeis5.3.0≤P3.5.The幕墙的 标准 excel标准偏差excel标准偏差函数exl标准差函数国标检验抽样标准表免费下载红头文件格式标准下载 风载荷能力，或不低于1.0Kpa.windpressureresistanceperformanceofthefaçadeistobeconfirmedaftercalculation.Itsindexshouldnotbelowerthanthestandardwindloadingcapacityofthefaçade,norlowerthan1.0kPa.建筑物不同高度处的风压与“风压高度系数”和“阵风系数”这两个值Windpressureonabuildingatdifferentheightsisdependenton“wind有关，“风压高度系数”和“阵风系数”是与建筑物高度相关的两个系pressureheightcoefficient”and“gustfactor”whicharerelatedtobuilding数。设计团队认为不需进行风洞测试。height.Thedesignteambelieveswindtunneltestingwillnotberequired.参考风压?KPaReferencewindpressure?KPa暴露等级?ExposureCategory?围护分类?EnclosureClassification?体型系数+/-?KPaShapecoefficient+/-?KPa高度5m10m15m20m25m30m35mHeight5m10m15m20m25m30m35m阵风风压系数Gustwindpressurecoefficient风压高度变化Windpressure系数heightvariationcoefficient当地围护风载荷Localcladdingwindload172.4.3活载荷-热力2.4.3LiveLoads-Thermal热载荷受中国法规JGJ102-2003规管。ThermalloadingisgovernedbyPRCcodeJGJ102-2003.幕墙及围护系统乃基于-27.4°C至40.6°C的气温设计。CurtainWallandCladdingSystemdesignbasedonrangefrom-27.4°Cto40.6°C2.4.4活载荷-防震2.4.4LiveLoads-Seismic幕墙的防震荷载主要通过地震的动力放大系数（取为5.0）和水平地震影Whenconsideringseismicload,dynamicmagnificationfactorof响系数来考虑，水平地震影响系数与建筑物所在地的抗地震设防烈度和earthquake(5.0canbetaken)andhorizontalseismicinfluencecoefficient地震加速度值有关。竖向地震影响系数的最大值，可取水平地震影响系shouldbestudied.Horizontalearthquakeinfluencecoefficientisrelated数最大值的65%，幕墙设计中，一般不考虑竖向地震荷载的作用。totheseismicfortificationintensityandseismicaccelerationoftheplacewherethebuildinglocates.65%ofmaximumvalueofhorizontalseismicinfluencecoefficientcanbetakenforthemaximumvalueofverticalseismicinfluencecoefficient.Verticalseismicloadeffectisusuallynotconsideredinthefaçadedesign.地震载荷受JGJ102-2003规管。SeismicloadingisgovernedbyJGJ102-2003.震区8Seismiczone8最大影响系数?Maximumeffectcoefficient?动力放大系数5.0Dynamicamplificationfactor5.0幕墙地震载荷?GFacadeseismicload?G182.5隔音SoundInsulation为营造舒适的工作环境，建筑的围护结构应减少附近的声源产生的外部Toensureapleasantworkingenvironment,thebuildingenvelopeshould噪音（如道路及飞机的声音）。一旦得到软件园交通总体规划资料，OMAmitigateexcessiveexternalnoisefromnearbysourcessuchasroads及其声学顾问DHV将对附近声源制造的噪音等级进行假设计算。该等声源andaircraftnoise.OncetheZ-Parktrafficmasterplanisavailable,OMA将与建筑区域背景声音水平要求结合起来考虑，从而计算幕墙所需的隔anditsacousticianDHVwillcalculateassumptionsaboutsoundlevels音值。fromnearbytrafficsources.Thesesources,incombinationwiththebackgroundnoiselevelrequirementsofspaceswithinthebuilding,willbeusedtocalculatetherequiredsoundinsulationvalueofthefaçade.2.6防火FireSafety幕墙的防火要求受中国法规规管。中国法规规定，楼层之间应有高度不FiresafetyrequirementsoffaçadearegovernedbyPRCcode,which少于800毫米的不燃烧墙体。requiresaminimumverticalfireseparationof800mminnon-combustibleconstructionbetweenfloors.无窗槛墙或窗槛墙的高度小于0.8m的建筑幕墙，应在每层楼板外沿设置耐火极限不低于1.0h、高度不低于0.8m的不燃烧体裙墙或防火玻璃。建Forafaçadewithoutwindowsillorafaçadewithwindowsilloflessthan筑幕墙与每层楼板/隔墙处的缝隙，应采用防火材料封堵。防火分区分界0.8minheight,anon-flammableapronorfireproofglass,withminimum处两侧的门窗洞口之间，最近边缘水平间距不应小于2m，若不满足，则fireresistancelevelof1.0handaminimumheightof0.8m,shouldbe应设置固定乙级防火门、窗。防火分区分界处，内转角两侧的门窗洞口fixedontheedgeofeachfloorslab.Thegapbetweenfaçadeandfloor之间，最近边缘水平间距不应小于4m，当一侧装有固定乙级防火窗时，slab/partitionwallshouldbefilledwithfireresistantmaterials.Inbetween距离不限。thewindow/dooropeningsonbothsidesofthefirezoneboundary,thehorizontaldistancenearesttotheedgeshallnotbelessthan2m.IfthisOMA已考虑楼层之间的防火间隔要求，并表示在建筑围护边缘设置厚度为cannotbefulfilled,thereshouldbefixedgradeBfiredoor/window.On800毫米的裙墙。theboundaryofthefirezone,inbetweenthewindow/dooropeningsonbothsidesoftheinteriorcorner,thehorizontaldistancenearesttotheedgeshallnotbelessthan4m.ThereisnolimitationonthedistanceifthereisafixedgradeBfirewindowoneitherside.OMAhasconsideredthefireseparationrequirementsbetweenfloorsandindicatedafloorpackagethicknessof800mmattheedgeofthebuildingenvelope.192.7中国及国际的相关规范RelevantPRCandInternationalCodes设计团队已核对了相关规范和标准，下面列出可能与腾讯北京总部大楼Thedesignteamhasevaluatedapplicablecodesandstandards,the的设计有关的规范。followingofwhichmayberelevantinthedesignoftheTencentBJHQ.中国的规范ChinaCodes一般规范GeneralJGJ102-2003玻璃幕墙工程技术规范TechnicalCodeforGlassCurtainWallEngineeringJGJ/T139-2001玻璃幕墙工程质量检验标准TechnicalCodeforQualityControlandEvaluationofCurtainWallJGJ133-2001金属与石材幕墙工程技术规范‘TheCodeofMetal&StoneMaterialCurtainWall’JGJ113-2003建筑玻璃应用技术规程‘BuildingGlassApplicationTechnologyCode’GB/T50083-97建筑结构设计术语和符号标准StandardforterminologyandsymbolsusedindesignofbuildingstructuresGB50009-2001建筑结构荷载规范LoadCodefortheDesignofBuildingStructuresGB50011-2001建筑抗震设计规范CodeforSeismicDesignofBuildingStructuresGB50057建筑物防雷设计规范LightningProtectionDesignCodeofBuildingsGB50210-2001建筑装饰装修工程质量验收规范ConstructiondecorationrepairprojectqualityapprovalstandardJGT116中空板PChollowboardPCGB50068-2001建筑结构可靠度设计统一标准UnifiedStandardforReliabilityDesignofBuildingStructuresJG/J113-2009建筑玻璃应用技术规程TechnicalSpecificationforApplicationofArchitecturalGlassGB50011-2010建筑抗震设计规范CodeforSeismicDesignofBuildingsGB50017-2003钢结构设计规范CodefordesignofsteelstructuresGB50205-2001钢结构工程施工质量验收规范CodeforAcceptanceofConstructionQualityofSteelStructuresJGJ99-1998高层民用建筑钢结构技术规程TechnicalSpecificationforSteelStructureofTallBuildings20中国的规范ChinaCodes一般规范GeneralGB50018-2002冷弯薄壁型钢结构技术规范TechnicalCodeforDesignofCold-formedThin-wallSteelStructuresGB/T6725-2008冷弯型钢ColdFormingSteelSectionsGB50429-2007铝合金结构设计规范CodeforDesignofAluminiumStructuresGB50576-2010铝合金结构工程施工质量验收规范CodeforAcceptanceofConstructionQualityofAluminumStructuresGB50010-2010混凝土结构设计规范CodeforDesignofConcreteStructuresGB50204-2002混凝土结构工程施工质量验收规范CodeforAcceptanceofConstructionalQualityofConcreteStructuresJGJ145-2004混凝土结构后锚固技术规程TechnicalSpecificationforPost-installedFasteningsinConcretGB/T21086-2007建筑幕墙CurtainWallforBuildingGB/T21086-2007CECS127:2001点支式玻璃幕墙工程技术规程TechnicalSpecificationforPointSupportedGlassCurtainWallJG/T216-2007小单元建筑幕墙DivisionUnitPanelCurtainWallJG/T231-2007建筑玻璃采光顶BuildingGlassSkylightLightQB/JH001-2005外通风双层幕墙制作、安装、验收标准Manufacture,Installation,CheckandAcceptStandardforNaturallyVentilatedDoubleWall07J103-8双层幕墙图集AtlasofDoubleSkinWallBDJ/CT031-2005CEC超薄型石材蜂窝板应用技术规程TechnicalSpecificationforApplicationofCECSuper-thinStoneHoneycombPanelJC830.1-830.2-2005干挂饰面石材及其金属挂件Dry-hangingFacingBuildingStoneandFixingMetalSystemsGB/T8478-2008铝合金门窗AluminumWindowsandDoors212.7中国及国际的相关规范RelevantPRCandInternationalCodes中国的规范ChinaCodes一般规范GeneralGB50016-2006建筑设计防火规范CodeofDesignonBuildingFireProtectionandPreventionGB50057-94建筑物防雷设计规范（2000年版）DesignCodeforProtectionofStructuresagainstLightning(2000Edition)GB50601-2010建筑物防雷工程施工与质量验收规范CodeforConstructionandQualityAcceptanceforLightningProtectionEngineeringofStructuresGB50045-95高层民用建筑设计防火规范（2005年版）CodeforFireProtectionDesignofTallBuildings(2005Edition)GB/T15227-2007建筑幕墙气密、水密、抗风压性能检测 方法 快递客服问题件处理详细方法山木方法pdf计算方法pdf华与华方法下载八字理论方法下载 TestMethodofAirPermeability,Watertightness,WindLoadResistancePerformanceforCurtainWallsJG/T211-2007建筑外窗气密、水密、抗风压性能现场检测方法FieldTestMethodofAirPermeability,Watertightness,WindLoadResistancePerformanceforExteriorWindowsGB/T18250-2000建筑幕墙平面内变形性能检测方法TestMethodforPerformanceinPlaneDeformationofCurtainWall’sGB/T7106-2008建筑外门窗气密、水密、抗风压性能分级及检测方法GraduationandTestMethodofAirPermeability,Watertightness,WindLoadResistancePerformanceforBuilding,ExternalWindowsandDoorsGB/T8484-2008建筑外门窗保温性能分级及检测方法GraduationandTestMethodforThermalInsulatingPropertiesofDoorsandWindowsGB/T8485-2008建筑门窗空气声隔声性能分级及检测方法TheGraduationandTestMethodforAirborneSoundInsulatingPropertiesorWindowsandDoorsGB/T11976-2002建筑外窗采光性能分级及检测方法GraduationandTestMethodofDaylightingPropertiesforWindowsGB19154-2003擦窗机PermanentlyInstalledSuspendedAccessEquipment22中国的规范ChinaCodes型材规范ProfilesGB5237.1-2008铝合金建筑型材第1部分：基材AluminiumAlloyExtrudedProfilesforArchitecture–Part1:MillFinishGB5237.2-2008铝合金建筑型材第2部分：阳极氧化型材WroughtAluminiumAlloyExtrudedProfilesforArchitecture–Part2:AnodizedProfilesGB5237.3-2008铝合金建筑型材第3部分：电泳涂漆型材WroughtAluminiumAlloyExtrudedProfilesforArchitecture–Part3:ElectrophoreticCoatingProfilesGB5237.4-2008铝合金建筑型材第4部分：粉末喷涂型材WroughtAluminiumAlloyExtrudedProfilesforArchitecture–Part4:PowerCoatingProfilesGB5237.5-2008铝合金建筑型材第5部分：氟碳漆喷涂型材WroughtAluminiumAlloyExtrudedProfilesforArchitecture–Part5:PVDFCoatingProfilesGB5237.6-2004铝合金建筑型材第6部分：隔热型材WroughtAluminiumAlloyExtrudedProfilesforArchitecture–Part6:ThermalBarrierProfilesJG/T175-2005建筑用隔热铝合金型材穿条式InsulatingAluminumAlloyProfilewithThermalBarrierStripforConstruction其他规范OtherGB/T23443-2009建筑装饰用铝单板AluminiumPanelsforBuildingDecorationYS/T429.2-2000铝幕墙板氟碳喷漆铝单板AluminiumCurtainWallPlatePVDFCoatingProfilesVeneerGB/T17748-2008建筑幕墙用铝塑复合板Aluminium-plasticCompositePanelforCurtainWallGB/T23443-2009建筑装饰用铝单板AluminiumPanelsforBuildingDecorationYS/T429.2-2000铝幕墙板氟碳喷漆铝单板AluminiumCurtainWallPlatePVDFCoatingProfilesVeneerGB/T17748-2008建筑幕墙用铝塑复合板Aluminium-plasticCompositePanelforCurtainWallGB15763.1-2009建筑用安全玻璃防火玻璃SafetyGlazingMaterialsinBuildingFire-resistantGlass232.7中国及国际的相关规范RelevantPRCandInternationalCodes中国的规范ChinaCodes其他规范OtherGB/