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- 2017
“套接式H型”缓冲器在超大型竖井混凝土施工中的应用
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Abstract:
摘要: 针对N-J水电工程调压竖井长溜管输送混凝土时骨料离析、下料速度快、混凝土和易性较差等输送技术难点,设计出一种“套接式H型”缓冲器,并对其结构设计及工作原理进行了详细研究。现场对比试验及应用表明:与原有的MY·BOX型缓冲器相比,新型缓冲器结构简单,制作成本低,且能有效控制高落差条件下的混凝土下落速度,解决混凝土拌和物离析及对管路磨损、击穿问题,保证了设备的使用寿命、施工安全及混凝土工程质量,可为类似竖井混凝土衬砌施工提供良好的借鉴。
Abstract: Regarding aggregate segregation, excessively fast slipping and poor concrete mix-ability during concrete long distance convey by articulated chute in surge shaft of N-J(NEELUM-JHELUM)hydroelectric project, one kind of “sleeve-connected H-type” buffer was designed and its structure design & operation principle were discussed. Comparative trial and application in site indicate that comparing with original MY·BOX buffer the new one has a simpler structure and cheaper cost, and it can effectively control the concretes dropping speed under high elevation difference and resolve the concrete segregation and damage as well as breaking through for chute, guaranteeing the service life of equipment, construction safety and quality of concrete works, which can also provide reference for similar surge shaft concrete lining project
| [1] | 翟学东. 乌鞘岭隧道大台竖井井筒衬砌安全快速施工[J]. 隧道建设, 2008, 28(3):339-343. ZHAI Xuedong. Safe and rapid lining construction of shaft Datai vertical shaft of Wushaoling Tunnel[J]. Tunnel Construction, 2008, 28(3):339-343. |
| [2] | 谭华,唐明酉.溪洛渡水电站左岸引水压力管道深竖井混凝土施工技术[J].水利建设与管理,2012(10):16-19. |
| [3] | 余成行, 师卫科. 泵送混凝土技术与超高泵送混凝土技术[J]. 商品混凝土, 2011(10):29-34. |
| [4] | 周宇, 沈洁, 钱兴喜. 新型My-Box缓降器简介[J]. 云南水力发电, 2003, 19(1):75-77. |
| [5] | 陈小刚. MY·BOX系统在三峡工程中的应用[J]. 人民长江, 2004, 35(6):5-6. CHEN Xiaogang. Application of MY·BOX system in TGP. Yangtze River, 2004, 35(6):5-6. |
| [6] | 严定成,方勇锋.周宁水电站引水竖井混凝土施工技术[J].隧道建设,2007,27(5):49-53. YAN Dingcheng, FANG Yongfeng. Concrete construction technology for water in-take vertical shafts case study on Zhouning hydro-power works[J]. Tunnel Construction, 2007, 27(5):49-53. |
| [7] | 吴德平,范美师,杨育礼.莲花田水库输水隧洞竖井滑模施工技术[J].人民长江,2009,40(3):44-48. WU Deping, FAN Meishi, YANG Yuli. Slip form construction technology of water diversion tunnel in Lianhua Reservoir[J]. Yangtze River, 2009, 40(3):44-48. |
| [8] | 罗加贵,陈勇,杨松.特大型竖井混凝土滑模施工[J]. 云南水力发电,2011,27(3):73-75. |
| [9] | 王延立. My-box缓降器在竖井混凝土浇筑中的应用[J]. 水利水电施工, 2012(3):27-29. |
| [10] | 董瑞科, 李春雁, 张继虎. 金奎地隧洞斜井混凝土运输方式选择[J]. 云南水力发电, 2016, 32(5):136-138. |
| [11] | 杨洪娜. 浅析压力钢管竖井混凝土浇筑垂直运输方案[J]. 科技创新导报, 2011(31):33-34. |
| [12] | 周雪琼, 郑道明. 套接式缓降器在毛尔盖水电站深、大调压井混凝土施工中的应用[J]. 四川水力发电, 2013,32(4):35-37. |
| [13] | 张宝忠. 斜井(竖井)混凝土运输设计及应用[J]. 云南水力发电, 2013,29(3):41-43. |
| [14] | 魏存兰.竖井混凝土衬砌滑模设计及施工技术[J].铁道建筑技术,2009(8):54-56. WEI Cunlan. Slip form design and construction techniques for shaft concrete lining[J]. Railway Construction Technology, 2009(8):54-56. |
| [15] | 吴松华, 黄旭兵, 丁一蓉. 带简易缓冲器的溜管在竖井混凝土浇筑中的应用[J]. 水利科技与经济, 2010, 16(7):818-819. |
| [16] | 杨选波, 曹劝绩, 李伟泉,等. 高落差长溜管在长隧洞混凝土运输中的应用[J].南北水调与水利科技,2013,11(4):211-214. YANG Xuanbo, CAO Quanji, LI Weiquan,et al. Application of long articulated chute with high head for concrete transportation in long tunnel[J]. South-to-North Tranfers and Water Science & Technology, 2013, 11(4):211-214. |
| [17] | 刘红旗.龙潭隧道深大竖井衬砌混凝土滑模施工技术[J]. 铁道建筑,2007(12):51-53. |
| [18] | 李政, 范继辅.伊朗塔里干水利枢纽地下厂房工程交通竖井混凝土衬砌的滑模施工[J].水电站设计,2009,25(3):67-70. |
