摘要:海上贸易在世界迅速的发展,威海市为了拓展贸易,将以能源(煤炭)、盐及非金属矿、矿建材料、粮油中转为主,拥有地区性件杂货客货轮渡、集装箱外贸和内外贸相结合的综合性海港,现将建成威海港高桩码头。由于威海港附近雨季较多,尤其是高桩码头施工时间较长,跨越的季度较大,对在雨季、冬季施工时期产生较大的困难,因此对科学的安排施工工期非常重要。因此,在制定施工工期和施工工艺的时间应充分考虑天气的变化,以保证施工进度能按原计划完成。为使威海港高桩码头工程能够顺利完成,在工程开展之前,对其进行科学的施工组织设计、组织设计的优化和预算编制。
该施工组织设计主要内容为工程工程量的计算,各分项工程施工工艺的制定,以及施工所需要的人机、材料等合理调度,制定合理的施工进度计划,确定施工组织方案,做好施工质量与安全技术措施,最后进行码头工程的施工优化和大致预算等。
关键词:高桩码头;施工组织设计;工程预算;资源优化
Abstract:Maritime trade in the rapid development of the world, Weihai City in order to expand trade, will be energy (coal), salt and non-metallic minerals, mining materials, grain and oil into the main, with regional grocery cargo ferry, container trade and The combination of foreign trade in a comprehensive harbor, now built Weihai port high-piled terminal. Due to the relatively large rainy season near Weihai harbor, especially for the construction of high-piled wharf, it is very important for the construction period of science in the rainy season and winter construction period. Therefore, in the development of construction time and construction process time should take full account of changes in the weather to ensure that the construction schedule can be completed according to the original plan. In order to make the Weihai Port high-piled wharf project can be successfully completed, before the project carried out, its scientific construction organization design, organizational design optimization and budget preparation.
The main content of the construction organization design is the calculation of the engineering quantity, the construction of the sub-project construction technology and the man-machine and material needed for the construction, and formulate a reasonable construction schedule to determine the construction organization design and make the construction quality And safety and technical measures, and finally the terminal project optimization and budget.
Keywords:high-piled wharf; construction organization design; project budget; resource optimization
目录
第一章 绪论 1
1.1 编制说明 1
1.2 编制原则 1
1.3 设计的主要内容 1
第二章 工程概况 2
2.1 工程位置 2
2.2 设计内容及建筑物等级 2
2.3 自然条件 2
2.3.1 地质地貌 3
2.3.2 工程地质条件 3
2.3.3 海岸动态 4
2.3.4