Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Wharf steel structure hoisting in-place construction method based on BIM technology
The invention discloses a wharf steel structure hoisting in-place construction method based on a BIM technology. The wharf steel structure hoisting in-place construction method comprises the following steps that S1, construction equipment is selected; s2, an equipment foundation and embedded parts are embedded and checked; s3, loading and unloading arm bulk part assembly: loading and unloading arm installation is divided into two parts: hoisting of a first stand column is performed, the weight is 16 t, the height is 17 m, the first stand column crosses the height of 9 m of the three-storey building and falls down from a reserved hole during hoisting, and the first stand column is fixed after being aligned with an embedded bolt; the maximum crane load core for installation and design of the large arm is 75t, so that only water surface hoisting can be adopted, and before a floating crane ship is selected, a proper crane ship needs to be selected after collision simulation is carried out through three-dimensional software. Three-point supporting needs to be adopted in the large arm assembling process, and a temporary stand column and a large arm pipe flange are connected and fixed through a temporary bolt; in order to keep the balance of the large arm during assembly, the bottom plate needing to be assembled with the heavy-side stand column is lengthened and deviates from the center of the stand column, and lower pipes of arm pipes are placed on the triangular supports at the two ends.
本发明公开了一种基于BIM技术的码头钢结构吊装就位施工方法,包括以下步骤:S1、施工设备的选用;S2、设备基础和预埋件预埋和检查;S3、装卸臂散装件组装,装卸臂安装分两部分:第一立柱的吊装,重量为16t,高度为17m,吊装时要越过三层建筑物高度9m从预留洞落下,对准预埋螺栓后固定;大臂的安装,设计的最大起重机载核为75t,因此只能采用水面吊装,在选择浮吊船前,需要通过三维软件进行碰撞模拟后,选择合适的起重船。本发明大臂在组装过程中需采用三点支撑,临时立柱与大臂管法兰采用临时螺栓连接固定;为保持组装时大臂平衡,需装配重侧立柱的底板加长,与立柱中心偏离,两端的三角支架放置臂管下管。
Wharf steel structure hoisting in-place construction method based on BIM technology
The invention discloses a wharf steel structure hoisting in-place construction method based on a BIM technology. The wharf steel structure hoisting in-place construction method comprises the following steps that S1, construction equipment is selected; s2, an equipment foundation and embedded parts are embedded and checked; s3, loading and unloading arm bulk part assembly: loading and unloading arm installation is divided into two parts: hoisting of a first stand column is performed, the weight is 16 t, the height is 17 m, the first stand column crosses the height of 9 m of the three-storey building and falls down from a reserved hole during hoisting, and the first stand column is fixed after being aligned with an embedded bolt; the maximum crane load core for installation and design of the large arm is 75t, so that only water surface hoisting can be adopted, and before a floating crane ship is selected, a proper crane ship needs to be selected after collision simulation is carried out through three-dimensional software. Three-point supporting needs to be adopted in the large arm assembling process, and a temporary stand column and a large arm pipe flange are connected and fixed through a temporary bolt; in order to keep the balance of the large arm during assembly, the bottom plate needing to be assembled with the heavy-side stand column is lengthened and deviates from the center of the stand column, and lower pipes of arm pipes are placed on the triangular supports at the two ends.
本发明公开了一种基于BIM技术的码头钢结构吊装就位施工方法,包括以下步骤:S1、施工设备的选用;S2、设备基础和预埋件预埋和检查;S3、装卸臂散装件组装,装卸臂安装分两部分:第一立柱的吊装,重量为16t,高度为17m,吊装时要越过三层建筑物高度9m从预留洞落下,对准预埋螺栓后固定;大臂的安装,设计的最大起重机载核为75t,因此只能采用水面吊装,在选择浮吊船前,需要通过三维软件进行碰撞模拟后,选择合适的起重船。本发明大臂在组装过程中需采用三点支撑,临时立柱与大臂管法兰采用临时螺栓连接固定;为保持组装时大臂平衡,需装配重侧立柱的底板加长,与立柱中心偏离,两端的三角支架放置臂管下管。
Wharf steel structure hoisting in-place construction method based on BIM technology
一种基于BIM技术的码头钢结构吊装就位施工方法
WEI ZHOUJIE (Autor:in) / CHEN QIANYIN (Autor:in) / XIA YI (Autor:in) / LIU LIN (Autor:in) / DONG LIUYANG (Autor:in)
29.08.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
B66C
Krane
,
CRANES
/
E02B
HYDRAULIC ENGINEERING
,
Wasserbau
/
E02D
FOUNDATIONS
,
Gründungen
/
G06Q
Datenverarbeitungssysteme oder -verfahren, besonders angepasst an verwaltungstechnische, geschäftliche, finanzielle oder betriebswirtschaftliche Zwecke, sowie an geschäftsbezogene Überwachungs- oder Voraussagezwecke
,
DATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES
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