某工程钢螺旋楼梯结构重难点分析与设计
引用文献:
陈德银 赖克 郑腾虎. 某工程钢螺旋楼梯结构重难点分析与设计[J]. 建筑结构,2023,48(07):78-84,124.
CHEN Deyin LAI Ke ZHENG Tenghu. Design and analysis on key and difficult points of spiral stair in a project[J]. Building Structure,2023,48(07):78-84,124.
摘要:以实际工程中的异形钢螺旋楼梯为研究对象,基于通用有限元软件MIDAS Gen,利用简化空间曲线模型分析了螺旋楼梯结构选型过程中楼梯的变形与内力变化,结果表明随着螺旋楼梯中心线最右侧边缘与上部支座的距离增大,楼梯的竖向最大位移与构件内力均增大。进一步通过建立带横梁的内、外弧梁曲线模型探讨了螺旋楼梯内、外弧梁变形的差异以及横梁的作用,并对楼梯支座条件对变形和内力的影响进行了分析,得到了支座刚度越大楼梯的变形越小的结论。对比了楼梯与主体结构共同建模和单独建模时的变形及内力差异,并对螺旋楼梯的舒适度进行了验算,建议在满足梁单元构件强度与稳定性的情况下优先选用箱形截面而非工字钢截面。针对分析结果给出了异形螺旋楼梯的设计要求并对梁截面进行了受扭验算。
关键词:螺旋楼梯;有限元分析;空间梁单元模型;结构分析;舒适度分析;
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参考文献[1] 钟建敏.钢结构螺旋楼梯结构计算分析与设计[J].建筑结构,2017,47(S1):819-823.
[2] 钢梯:15J401[S].北京:中国计划出版社,2016.
[3] 武韩青,曾德伟,郭耀杰,等.钢螺旋楼梯的计算及设计方法研究[C]//钢结构工程研究(九)——中国钢结构协会结构稳定与疲劳分会第13届(ISSF-2012)学术交流会暨教学研讨会论文集.武汉,2012:649-656.
[4] 徐平辉,王素裹.某工程钢螺旋楼梯受力分析与设计[J].福建建筑,2013(6):3-5.
[5] 袁建霞,毛海波,周洪彬.板式钢结构螺旋楼梯的有限元分析[J].建筑,2012(8):70,72.
[6] 建筑楼盖结构振动舒适度技术标准:JGJ/T 441—2019[S].北京:中国建筑工业出版社,2020.
[7] 赵雪冰,林宇.不同约束下板式螺旋楼梯舒适度分析[J].中国建筑金属结构,2021(1):58-59.
[8] 彭航,朱亮.螺旋钢结构楼梯设计及舒适度分析[J].钢结构,2016,31(4):43-46.
[9] 何婧,邱剑,谭波,等.某文展大楼钢螺旋楼梯的结构设计与有限元分析[J].建筑结构,2022,52(S2):218-223.
[10] 王国周,瞿履谦.钢结构:原理与设计[M].北京:清华大学出版社,1993.
[2] 钢梯:15J401[S].北京:中国计划出版社,2016.
[3] 武韩青,曾德伟,郭耀杰,等.钢螺旋楼梯的计算及设计方法研究[C]//钢结构工程研究(九)——中国钢结构协会结构稳定与疲劳分会第13届(ISSF-2012)学术交流会暨教学研讨会论文集.武汉,2012:649-656.
[4] 徐平辉,王素裹.某工程钢螺旋楼梯受力分析与设计[J].福建建筑,2013(6):3-5.
[5] 袁建霞,毛海波,周洪彬.板式钢结构螺旋楼梯的有限元分析[J].建筑,2012(8):70,72.
[6] 建筑楼盖结构振动舒适度技术标准:JGJ/T 441—2019[S].北京:中国建筑工业出版社,2020.
[7] 赵雪冰,林宇.不同约束下板式螺旋楼梯舒适度分析[J].中国建筑金属结构,2021(1):58-59.
[8] 彭航,朱亮.螺旋钢结构楼梯设计及舒适度分析[J].钢结构,2016,31(4):43-46.
[9] 何婧,邱剑,谭波,等.某文展大楼钢螺旋楼梯的结构设计与有限元分析[J].建筑结构,2022,52(S2):218-223.
[10] 王国周,瞿履谦.钢结构:原理与设计[M].北京:清华大学出版社,1993.
Design and analysis on key and difficult points of spiral stair in a project
Abstract: Taking special shaped steel spiral stair in actual engineering as the research object, based on the general finite element software MIDAS Gen, a simplified spatial curve model was used to analyze the deformation and internal force changes of spiral stair in the process of structural selection. The results show that the maximum vertical displacement and internal force of the stair increase with the increase of the distance from the rightmost edge of the center line to the top support. Further, by establishing the curve model of the inner and outer arc beams with cross beams, the difference of the deformation of the inner and outer arc beams of the spiral stair and the role of the cross beams were discussed. In addition, the influence of the stair support conditions on the deformation and internal force was analyzed, it obtains the conclusion that the greater the support stiffness is, the smaller the deformation of the stair is. The deformation and internal force difference between the stair and the main structure when modeling together and separately was compared. Besides, the comfort analysis of spiral stair was checked. It is suggested that the box section should be preferred to the I-section steel under the condition of meeting the strength and stability requirements of beam elements. Focus on the analysis results, the design requirements of special shaped spiral stair was given and beam section torsion checking calculation was given.
Keywords: spiral stair; finite element analysis; beam-element model; structural analysis; comfort analysis
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