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A platform for research: civil engineering, architecture and urbanism
Inclined climbing method for core tube inclined wall climbing formwork
The invention relates to the technical field of constructional engineering, aims to solve the technical problem of low efficiency caused by complicated construction in a large-angle variable-angle creeping formwork in the existing core tube inclined wall construction process, and discloses an inclined climbing method for a core tube inclined wall creeping formwork, which is characterized in that a base plate is arranged, and the jacking direction of the creeping formwork is controlled by adjusting the thickness of a support base plate; the angle of the creeping formwork can be accurately adjusted in the inclined wall construction process, so that the construction process is continuously carried out, and time waste caused by frequent dismounting and remounting of the creeping formwork is avoided. By using the wall attaching device and the hydraulic supporting leg assembly, the stability of the creeping formwork in inclined wall section construction is ensured. The rotation angle of the creeping formwork frame body is accurately controlled through the hydraulic supporting leg assembly, and the construction precision of the inclined wall section is ensured. By means of the variable-angle jacking method, high cost caused by frequent dismantling and reinstalling of the creeping formwork is avoided, erecting and dismantling work of a scaffold is reduced, and the limitation of construction on the inclined wall portion of the core tube in the traditional creeping formwork technology is broken through.
本发明涉及建筑工程技术领域,为了解决现有核心筒斜墙施工过程在大角度变角爬模中存在施工复杂导致效率低的技术问题,本发明公开了一种核心筒斜墙爬模斜爬方法,设置有垫板,并通过调整支座垫板的厚度来控制爬模的顶升方向,确保在斜墙施工过程中能够精准地调整爬模的角度,使得施工过程连续进行,避免了频繁拆除和重装爬模所带来的时间浪费。通过使用附墙装置和液压支腿总成,确保爬模在斜墙段施工中的稳定性。爬模架体通过液压支腿总成精确控制旋转角度,确保了斜墙段的施工精度。通过变角度顶升的方法,避免了因频繁拆除和重装爬模所带来的高额费用,减少了脚手架的搭设和拆除工作,突破了传统爬模技术在核心筒斜墙部位施工的限制。
Inclined climbing method for core tube inclined wall climbing formwork
The invention relates to the technical field of constructional engineering, aims to solve the technical problem of low efficiency caused by complicated construction in a large-angle variable-angle creeping formwork in the existing core tube inclined wall construction process, and discloses an inclined climbing method for a core tube inclined wall creeping formwork, which is characterized in that a base plate is arranged, and the jacking direction of the creeping formwork is controlled by adjusting the thickness of a support base plate; the angle of the creeping formwork can be accurately adjusted in the inclined wall construction process, so that the construction process is continuously carried out, and time waste caused by frequent dismounting and remounting of the creeping formwork is avoided. By using the wall attaching device and the hydraulic supporting leg assembly, the stability of the creeping formwork in inclined wall section construction is ensured. The rotation angle of the creeping formwork frame body is accurately controlled through the hydraulic supporting leg assembly, and the construction precision of the inclined wall section is ensured. By means of the variable-angle jacking method, high cost caused by frequent dismantling and reinstalling of the creeping formwork is avoided, erecting and dismantling work of a scaffold is reduced, and the limitation of construction on the inclined wall portion of the core tube in the traditional creeping formwork technology is broken through.
本发明涉及建筑工程技术领域,为了解决现有核心筒斜墙施工过程在大角度变角爬模中存在施工复杂导致效率低的技术问题,本发明公开了一种核心筒斜墙爬模斜爬方法,设置有垫板,并通过调整支座垫板的厚度来控制爬模的顶升方向,确保在斜墙施工过程中能够精准地调整爬模的角度,使得施工过程连续进行,避免了频繁拆除和重装爬模所带来的时间浪费。通过使用附墙装置和液压支腿总成,确保爬模在斜墙段施工中的稳定性。爬模架体通过液压支腿总成精确控制旋转角度,确保了斜墙段的施工精度。通过变角度顶升的方法,避免了因频繁拆除和重装爬模所带来的高额费用,减少了脚手架的搭设和拆除工作,突破了传统爬模技术在核心筒斜墙部位施工的限制。
Inclined climbing method for core tube inclined wall climbing formwork
一种核心筒斜墙爬模斜爬方法
ZENG FANLIANG (author) / LI JIANFENG (author) / HUANG ZHOUMIN (author) / HOU JINGQIANG (author) / WU LINJIANG (author) / TANG ZHEN (author) / JIA SHANFENG (author) / LI DAODA (author) / AN LEI (author) / LIU ZHIPENG (author)
2024-11-15
Patent
Electronic Resource
Chinese
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