施工组织设计下载简介
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1659.贵阳万科城E区二标公交车站工程施工方案.docxMmax=max[M1,M2]=max[0.059,0.198]=0.198kN·m
σ=Mmax/W=0.198×106/37500=5.272N/mm2≤[f]=15N/mm2
深圳市青岛啤酒朝日有限公司33万升扩建设备施工组织方案 νmax=5ql4/(384EI)=5×4.116×2504/(384×10000×281250)=0.074mm
ν=0.074mm≤[ν]=L/250=250/250=1mm
q1=0.9×max[1.2(G1k+ (G2k+G3k)×h)+1.4Q1k,1.35(G1k +(G2k+G3k)×h)+1.4×0.7×Q1k]×b=0.9×max[1.2×(0.3+(24+1.1)×0.16)+1.4×2.5,1.35×(0.3+(24+1.1)×0.16)+1.4×0.7×2.5]×0.25=1.953kN/m
因此,q1静=0.9×1.2×(G1k +(G2k+G3k)×h)×b=0.9×1.2×(0.3+(24+1.1)×0.16)×0.25=1.165kN/m
q1活=0.9×1.4×Q1k×b=0.9×1.4×2.5×0.25=0.787kN/m
q2=0.9×1.2×G1k×b=0.9×1.2×0.3×0.25=0.081kN/m
p=0.9×1.4×Q1k=0.9×1.4×2.5=3.15kN
计算简图如下:
M1=0.125q1静L2+0.125q1活L2=0.125×1.165×12+0.125×0.787×12=0.244kN·m
M2=max[0.07q2L2+0.203pL,0.125q2L2+0.188pL]=max[0.07×0.081×12+0.203×3.15×1,0.125×0.081×12+0.188×3.15×1]=0.645kN·m
M3=max[q1L12/2,q2L12/2+pL1]=max[1.953×0.22/2,0.081×0.22/2+3.15×0.2]=0.632kN·m
Mmax=max[M1,M2,M3]=max[0.244,0.645,0.632]=0.645kN·m
σ=Mmax/W=0.645×106/42667=15.12N/mm2≤[f]=15.444N/mm2
V1=0.625q1静L+0.625q1活L=0.625×1.165×1+0.625×0.787×1=1.221kN
V2=0.625q2L+0.688p=0.625×0.081×1+0.688×3.15=2.218kN
V3=max[q1L1,q2L1+p]=max[1.953×0.2,0.081×0.2+3.15]=3.166kN
Vmax=max[V1,V2,V3]=max[1.221,2.218,3.166]=3.166kN
τmax=3Vmax/(2bh0)=3×3.166×1000/(2×40×80)=1.484N/mm2≤[τ]=1.782N/mm2
q=(γG(G1k +(G2k+G3k)×h))×b=(1×(0.3+(24+1.1)×0.16))×0.25=1.079kN/m
挠度,跨中νmax=0.521qL4/(100EI)=0.521×1.079×10004/(100×9350×170.667×104)=0.352mm≤[ν]=L/250=1000/250=4mm;
悬臂端νmax=ql14/(8EI)=1.079×2014/(8×9350×170.667×104)=0.014mm≤[ν]=2×l1/250=2×201/250=1.6mm
1、小梁最大支座反力计算
q1=0.9×max[1.2(G1k +(G2k+G3k)×h)+1.4Q1k,1.35(G1k +(G2k+G3k)×h)+1.4×0.7×Q1k]×b=0.9×max[1.2×(0.5+(24+1.1)×0.16)+1.4×1.5,1.35×(0.5+(24+1.1)×0.16)+1.4×0.7×1.5]×0.25=1.702kN/m
q1静=0.9×1.35×(G1k +(G2k+G3k)×h)×b=0.9×1.35×(0.5+(24+1.1)×0.16)×0.25=1.372kN/m
q1活=0.9×1.4×0.7×Q1k×b =0.9×1.4×0.7×1.5×0.25=0.331kN/m
q2=(γG(G1k +(G2k+G3k)×h))×b=(1×(0.5+(24+1.1)×0.16))×0.25=1.129kN/m
承载能力极限状态
按二等跨连续梁,Rmax=1.25q1L=1.25×1.702×1=2.128kN
按悬臂梁,R1=q1l1=1.702×0.2=0.34kN
R=max[Rmax,R1]=2.128kN;
正常使用极限状态
按二等跨连续梁,R'max=1.25q2L=1.25×1.129×1=1.411kN
按悬臂梁,R'1=q2l1=1.129×0.2=0.226kN
R'=max[R'max,R'1]=1.411kN;
计算简图如下:
主梁计算简图一
主梁弯矩图一(kN·m)
σ=Mmax/W=0.692×106/4490=154.034N/mm2≤[f]=205N/mm2
主梁剪力图一(kN)
τmax=2Vmax/A=2×3.352×1000/424=15.81N/mm2≤[τ]=125N/mm2
主梁变形图一(mm)
跨中νmax=0.862mm≤[ν]=1000/250=4mm
悬挑段νmax=0.049mm≤[ν]=2×250/250=2mm
5、支座反力计算
承载能力极限状态
支座反力依次为R1=7.288kN,R2=8.672kN,R3=8.672kN,R4=7.288kN
按上节计算可知,可调托座受力N=8.672kN≤[N]=30kN
顶部立柱段:l01=kμ1(hd+2a)=1×1.386×(1500+2×201)=2633mm
非顶部立柱段:l0=kμ2h =1×1.755×1800=3159mm
λ=max[l01,l0]/i=3159/15.9=198.679≤[λ]=210
2、立柱稳定性验算
q1=1×[1.2×(0.5+(24+1.1)×0.16)+1.4×0.9×1]×0.25 = 1.67kN/m
同上四~六步计算过程,可得:
R1=7.148kN,R2=8.505kN,R3=8.505kN,R4=7.148kN
l01=kμ1(hd+2a)=1.155×1.386×(1500+2×201)=3041.577mm
λ1=l01/i=3041.577/15.9=191.294
查表得,φ=0.197
不考虑风荷载:
N1 =Max[R1,R2,R3,R4]=Max[7.148,8.505,8.505,7.148]=8.505kN
f= N1/(ΦA)=8505/(0.197×424)=101.822N/mm2≤[f]=205N/mm2
Mw=1×γQφcωk×la×h2/10=1×1.4×0.9×0.076×1×1.82/10=0.031kN·m
N1w =Max[R1,R2,R3,R4]+Mw/lb=Max[7.148,8.505,8.505,7.148]+0.031/1=8.536kN
f= N1w/(φA)+ Mw/W=8536/(0.197×424)+0.031×106/4490=109.097N/mm2≤[f]=205N/mm2
非顶部立柱段:
l0=kμ2h =1.155×1.755×1800=3648.645mm
λ=l0/i=3648.645/15.9=229.475
查表得,φ1=0.139
不考虑风荷载:
N =Max[R1,R2,R3,R4]+1×γG×q×H=Max[7.148,8.505,8.505,7.148]+1×1.2×0.15×6.05=9.594kN
f=N/(φ1A)=9.594×103/(0.139×424)=162.787N/mm2≤[σ]=205N/mm2
Mw=1×γQφcωk×la×h2/10=1×1.4×0.9×0.076×1×1.82/10=0.031kN·m
Nw =Max[R1,R2,R3,R4]+1×γG×q×H+Mw/lb=Max[7.148,8.505,8.505,7.148]+1×1.2×0.15×6.05+0.031/1=9.625kN
f=Nw/(φ1A)+Mw/W=9.625×103/(0.139×424)+0.031×106/4490=170.217N/mm2≤[σ]=205N/mm2
骏苑二期地下车库施工组织设计 H/B=6.05/1.6=3.781≥3
十、立柱地基基础验算
立柱底垫板的底面平均压力p=N/(mfA)=9.625/(0.9×0.1)=106.944kPa≤fak=140kPa
梁模板(扣件式公寓基础钢筋工程施工方案,梁板立柱共用)计算书
2、《建筑施工扣件式钢管脚手架安全技术规范》JGJ 130-2011
设计简图如下: