欢迎来到天天文库
浏览记录
ID:59522161
大小:370.20 KB
页数:19页
时间:2020-11-06
《水工钢结构潜孔式平面钢闸门设计.docx》由会员上传分享,免费在线阅读,更多相关内容在教育资源-天天文库。
1、目录一、设计资料及有关规定·············································1二、闸门结构的形式及布置···········································1三、面板设计·······················································2四、水平次梁、顶梁和底梁地设计·····································3五、主梁设计····················
2、···································6六、横隔板设计·····················································9七、纵向连接系····················································10八、边梁设计······················································10九、行走支承设计····························
3、······················12十、轨道设计·····················································13十一、止水布置方式················································13十二、埋固构件····················································14十三、闸门启闭力···········································
4、·······14十四、闸门的启闭机械··············································14一、设计资料及有关规定1、闸门形式:潜孔式平面钢闸门2、孔口尺寸(宽×高):7.0m×12.0m3、上游水位:67m4、下游水位:0.1m5、闸底高程:0m6、启闭方式:电动固定式启闭机7、材料:钢结构:Q235-A.F焊条:E43型行走支承:采用滚轮支承止水橡皮:侧止水和顶止水用P型橡皮,底止水用条型橡皮8、制造条件:金属结构制造厂制造,手工电弧焊,满足Ⅲ级焊缝质量检验标准
5、。9、规范:《水利水电工程钢闸门设计规范SL1974-2005》二、闸门结构的形式及布置1、闸门尺寸的确定闸门高度:12.2m闸门的荷载跨度为两止水的间距:7.0m闸门计算跨度:10+2×0.22=7.44(m)设计水头:67m2、主梁的数目及形式主梁是闸门的主要受力构件,其数目主要取决于闸门的尺寸。因为闸门跨度L=7m,闸门高度h=12m,L6、时按最下面的那根受力最大的主梁来设计,各主梁采用相同的截面尺寸。4、梁格的布置及形式梁格采用复式布置与等高连接,水平次梁穿过横隔板上的预留孔并被横隔板所支承。水平次梁为连续梁,其间距应均匀,以减少计算量。5、连接系的布置与形式(1)横向连接系,根据主梁的跨度,决定布置5道横隔板,其间距为1.24m,横隔板兼作竖直次粱。(2)纵向连接系,采用斜杆式桁架。三、面板设计根据《钢闸门设计规范S74—95》关于面板的设计,先估算面板厚度,在主梁截面选择以后再验算面板的局部弯曲与主梁整体弯曲的折算应力。1、估算面板厚度7、假定梁格布置尺寸如图2所示。面板厚度按下式计算t=akp(0.9ασ)当b/a≤3时,a=1.5,则t=akp(0.9×1.5×160)=0.068akp当b/a>3时,a=1.4,则t=akp(0.9×1.4×160)=0.07akp现列表1计算如下:表1区格a(mm)b(mm)b/akp[N/mm2]kpt(mm)191012301.350.5100.5440.52732.61291012301.350.4290.5540.48830.20391012301.350.4290.5640.49230.448、491012301.350.4290.5730.49630.69591012301.350.4290.5830.50030.94691012301.350.4290.5930.50431.19791012301.350.4290.6030.50931.50891012301.350.4290.6130.51331.74991012301.350.4290.6220.51731.991091012301.350.4
6、时按最下面的那根受力最大的主梁来设计,各主梁采用相同的截面尺寸。4、梁格的布置及形式梁格采用复式布置与等高连接,水平次梁穿过横隔板上的预留孔并被横隔板所支承。水平次梁为连续梁,其间距应均匀,以减少计算量。5、连接系的布置与形式(1)横向连接系,根据主梁的跨度,决定布置5道横隔板,其间距为1.24m,横隔板兼作竖直次粱。(2)纵向连接系,采用斜杆式桁架。三、面板设计根据《钢闸门设计规范S74—95》关于面板的设计,先估算面板厚度,在主梁截面选择以后再验算面板的局部弯曲与主梁整体弯曲的折算应力。1、估算面板厚度
7、假定梁格布置尺寸如图2所示。面板厚度按下式计算t=akp(0.9ασ)当b/a≤3时,a=1.5,则t=akp(0.9×1.5×160)=0.068akp当b/a>3时,a=1.4,则t=akp(0.9×1.4×160)=0.07akp现列表1计算如下:表1区格a(mm)b(mm)b/akp[N/mm2]kpt(mm)191012301.350.5100.5440.52732.61291012301.350.4290.5540.48830.20391012301.350.4290.5640.49230.44
8、491012301.350.4290.5730.49630.69591012301.350.4290.5830.50030.94691012301.350.4290.5930.50431.19791012301.350.4290.6030.50931.50891012301.350.4290.6130.51331.74991012301.350.4290.6220.51731.991091012301.350.4
此文档下载收益归作者所有