中国水利水电科学研究院学报
中國水利水電科學研究院學報
중국수이수전과학연구원학보
JOURNAL OF CHINA INSTITUTE OF WATER RESOURCES AND HYDROPOWER RESEARCH
2014年
2期
170-175
,共6页
大型升船机塔柱%抗倾覆稳定性%摇摆谱
大型升船機塔柱%抗傾覆穩定性%搖襬譜
대형승선궤탑주%항경복은정성%요파보
tower structure of large-scale ship lift%Anti-overturning stability%Rocking spectrum%MAT-LAB 7.0
鉴于齿轮齿条式升船机过坝速度快、运行安全可靠,已在我国的大型水利水电工程中得到广泛应用。由于升船机支承塔柱高宽比通常大于6,在水平地震荷载作用下,受到很大的倾覆力矩,使得基础的一侧发生破坏,当结构倾覆力矩超过由结构自重产生的恢复力矩时,结构将发生转动,当转角大于临界倾覆角时结构将会发生倾覆。因此需要评价升船机塔柱结构在强震作用下的转动稳定性。本文基于 MATLAB 7.0,编制了摇摆反应控制方程求解程序,利用该程序对大型升船机塔柱简化结构进行了抗倾覆稳定性分析。研究表明:地震波的频谱特性、高宽比、结构尺寸对结构抗倾覆能力有很大影响。应重点关注升船机塔柱结构底部拉应力集中区以防止应力过大引起底部脱开而发生摇摆失稳。
鑒于齒輪齒條式升船機過壩速度快、運行安全可靠,已在我國的大型水利水電工程中得到廣汎應用。由于升船機支承塔柱高寬比通常大于6,在水平地震荷載作用下,受到很大的傾覆力矩,使得基礎的一側髮生破壞,噹結構傾覆力矩超過由結構自重產生的恢複力矩時,結構將髮生轉動,噹轉角大于臨界傾覆角時結構將會髮生傾覆。因此需要評價升船機塔柱結構在彊震作用下的轉動穩定性。本文基于 MATLAB 7.0,編製瞭搖襬反應控製方程求解程序,利用該程序對大型升船機塔柱簡化結構進行瞭抗傾覆穩定性分析。研究錶明:地震波的頻譜特性、高寬比、結構呎吋對結構抗傾覆能力有很大影響。應重點關註升船機塔柱結構底部拉應力集中區以防止應力過大引起底部脫開而髮生搖襬失穩。
감우치륜치조식승선궤과패속도쾌、운행안전가고,이재아국적대형수이수전공정중득도엄범응용。유우승선궤지승탑주고관비통상대우6,재수평지진하재작용하,수도흔대적경복력구,사득기출적일측발생파배,당결구경복력구초과유결구자중산생적회복력구시,결구장발생전동,당전각대우림계경복각시결구장회발생경복。인차수요평개승선궤탑주결구재강진작용하적전동은정성。본문기우 MATLAB 7.0,편제료요파반응공제방정구해정서,이용해정서대대형승선궤탑주간화결구진행료항경복은정성분석。연구표명:지진파적빈보특성、고관비、결구척촌대결구항경복능력유흔대영향。응중점관주승선궤탑주결구저부랍응력집중구이방지응력과대인기저부탈개이발생요파실은。
The vertical gear-rack ship-lift has been widely applied to large water and hydropower projects in China, due to its speed, safety and reliability. Since the width-height ratio of tower structure of ship lift is typically greater than 6, under horizontal ground motion, the resulting overturning moment of tower struc-ture is so large that the interface between structure and foundation will be destroyed. When overturning mo-ment exceeds restoring moment capacity,structure will tip about an edge of its base. It is necessary to ana-lyze the anti-overturning stability of tower structure of ship lift under strong ground motion. Based on MAT-LAB 7.0 platform, the solving program of rocking equations of rigid bodies has been developed. After verifi-cation, the overturning stability of simplified tower structure of ship lift has been analyzed in this paper. The results show that the characteristics of earthquake waves, width-height ratio and sizes have important impact on overturning stabilities of tower structures. More attention should be paid to the concentration zones of tensile stresses at the bottom of tower structure to prevent bottom disengagement from resulting rocking instability.
