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A platform for research: civil engineering, architecture and urbanism
Erected cantilever scaffold and comprehensive construction method thereof
The invention provides an erected cantilever scaffold and a comprehensive construction method thereof. The method comprises following steps: step 1, carrying out construction preparation; step 2, pre-embedding I-beam compression ring reinforcements; step 3, erecting a scaffold body; step 4, erecting I-beams; step 5, performing wire drawing and mounting steel screen connecting pieces; step 6, erecting steel screens; and step 7, maintaining the steel screens. Compared with traditional dense screens, the steel screens adopted in the method have the advantages of being high in construction speed and high in quality and safety coefficient, shortening construction period and facilitating low-carbon environmental protection and energy conservation and emission reduction. The construction method adopts shaping components and advanced technology, and is safe, reliable, high in economic benefit, simple and convenient to operate and higher in degree of standardization of construction. The mounting construction quality and sense are better, and the integrity is good. Finished component products can be turned over repeatedly and recycled after construction, and meet the normalized and standardized management requirements of construction. The construction method is applicable to construction of protective scaffolds such as the cantilever scaffold, a construction elevator scaffold and the like.
一种搭设悬挑脚手架及其综合性施工工法,包括以下步骤:步骤1:施工准备;步骤2:预埋工字钢压环钢筋;步骤3:搭设架体;步骤4:搭设工字钢;步骤5:拉线、安装钢板网连接件;步骤6:搭设钢板网;步骤7:钢板网维护。本工法所采用的钢板网相对于传统使用的密目网而言、施工速度快,缩短了施工工期,质量及安全系数高,有利于低碳环保、节能减排。本施工工法采用定型构件,技术先进、安全可靠,经济效益高,操作简单方便,施工标准化程度较高。安装施工质量、感官较好、整体性好。制作的构件成品施工后均可以多次周转、重复使用,符合施工标准化、规范化管理要求。本工法适用于悬挑脚手架、施工电梯架等防护架体施工。
Erected cantilever scaffold and comprehensive construction method thereof
The invention provides an erected cantilever scaffold and a comprehensive construction method thereof. The method comprises following steps: step 1, carrying out construction preparation; step 2, pre-embedding I-beam compression ring reinforcements; step 3, erecting a scaffold body; step 4, erecting I-beams; step 5, performing wire drawing and mounting steel screen connecting pieces; step 6, erecting steel screens; and step 7, maintaining the steel screens. Compared with traditional dense screens, the steel screens adopted in the method have the advantages of being high in construction speed and high in quality and safety coefficient, shortening construction period and facilitating low-carbon environmental protection and energy conservation and emission reduction. The construction method adopts shaping components and advanced technology, and is safe, reliable, high in economic benefit, simple and convenient to operate and higher in degree of standardization of construction. The mounting construction quality and sense are better, and the integrity is good. Finished component products can be turned over repeatedly and recycled after construction, and meet the normalized and standardized management requirements of construction. The construction method is applicable to construction of protective scaffolds such as the cantilever scaffold, a construction elevator scaffold and the like.
一种搭设悬挑脚手架及其综合性施工工法,包括以下步骤:步骤1:施工准备;步骤2:预埋工字钢压环钢筋;步骤3:搭设架体;步骤4:搭设工字钢;步骤5:拉线、安装钢板网连接件;步骤6:搭设钢板网;步骤7:钢板网维护。本工法所采用的钢板网相对于传统使用的密目网而言、施工速度快,缩短了施工工期,质量及安全系数高,有利于低碳环保、节能减排。本施工工法采用定型构件,技术先进、安全可靠,经济效益高,操作简单方便,施工标准化程度较高。安装施工质量、感官较好、整体性好。制作的构件成品施工后均可以多次周转、重复使用,符合施工标准化、规范化管理要求。本工法适用于悬挑脚手架、施工电梯架等防护架体施工。
Erected cantilever scaffold and comprehensive construction method thereof
一种搭设悬挑脚手架及其综合性施工工法
SHI HUIRONG (author) / ZHANG FENG (author) / LI FENGBO (author) / LI LIN (author) / CHEN XU (author)
2020-09-01
Patent
Electronic Resource
Chinese
IPC:
E04G
SCAFFOLDING
,
Baugerüste
Comprehensive construction method of steel screen cantilever scaffold
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