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Efficiently-adjusting module sliding system

A sliding form, efficient technology, applied in the direction of formwork/formwork/work frame, preparation of building components on site, building types, etc., can solve the problems of inconvenient use, complex structure, waste of manpower and material resources, etc., to achieve installation and disassembly Convenience, reduce construction cost, and improve the effect of repeated utilization

Active Publication Date: 2013-10-09
CHINA NAT CHEM ENG THIRD CONSTR
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

In this application, the center plate is used to adjust the roundness of the silo and the taper of the inner formwork, but its structure is complex and the adjustment accuracy is not high, and further improvement is needed on how to accurately adjust the formwork taper
[0007] Furthermore, in the sliding form construction of tubular buildings such as prilling towers and silos, the overall radiation beam type sliding form platform is used for construction, and the size of the radiation beam of the sliding form platform used is fixed, so it can only be applied to prilling towers of the same diameter , silos, and the connections between the various parts of the platform are all welded, and many parts need to be replaced during reuse, resulting in extremely inconvenient use and a waste of a lot of manpower and material resources

Method used

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Examples

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Embodiment 1

[0043] like Figure 7 As shown, the fixed-diameter radiant beam truss assembly 8 in this embodiment includes a fixed-diameter upper chord 81, a lower chord 82, a first oblique web 831, a second oblique web 832, a first vertical rod 841, and a second vertical rod 842. End oblique web connecting rod 85 and oblique web connecting rod 86, wherein: the fixed diameter upper chord 81 and lower chord 82 are arranged in parallel up and down, and the right ends of the fixed diameter upper chord 81 and lower chord 82 are connected by bolts On the outer periphery of the central steel ring truss 104, the fixed-diameter radial beam truss assemblies 8 that are bolted to the outer periphery of the central steel ring truss 104 are radially distributed (such as Figure 6 shown). The lower end of the above-mentioned first diagonal rod 831 is welded to the middle part of the lower chord 82, and its upper end is welded to the right end of the fixed-diameter upper chord 81; the lower end of the ab...

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Abstract

The invention discloses an efficiently-adjusting module sliding system, and belongs to the technical field of module sliding auxiliary devices. The efficiently-adjusting module sliding system is characterized in that a diameter reducing radiation beam girder assembly in a diameter reducing assembly type module sliding platform and a fixed diameter radiation beam girder assembly are connected by a first splicing joint, a second splicing joint and a third splicing joint, and bolt holes of a first pull-out support, a second pull-out support, a third pull-out support and a fourth pull-out support in a concrete thickness adjusting mechanism are waist-shaped; the upper part and the lower part of an inner steel template in a template taper adjusting mechanism are respectively connected with a first upper connecting piece and a third lower connecting piece through bolts, and the upper part and the lower part of an outer steel template are respectively connected with a second upper connecting piece and a fourth lower connecting piece through bolts. The efficiently-adjusting module sliding system provided by the invention has the advantages that the cylinder wall thickness range suitable for the module sliding system is improved, each template can keep an exact tiny angle when the template is connected with a surrounding ring, and the length of a radiation beam is increased or reduced through changing the diameter reducing radiation beam girder assembly.

Description

technical field [0001] The invention relates to the technical field of sliding form engineering auxiliary devices, and more specifically, relates to an efficient adjustable sliding form system. Background technique [0002] Sliding form engineering technology is a kind of construction with high degree of mechanization, fast construction speed, less site occupation, strong structural integrity, good seismic performance, safe operation guarantee, and remarkable comprehensive environmental and economic benefits in the construction of cast-in-place concrete structures in my country. technique, often referred to simply as "slip mode". Compared with conventional construction methods, slip form construction has the advantages of fast construction speed, high degree of mechanization, saving the materials required for supporting formwork and erecting scaffolding, and can be easily disassembled and assembled flexibly and can be reused. advantage. This construction method is often use...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04H7/26E04G11/22
Inventor 苏鹏黄庆平庞利阳李文蔚潘云东曹春红台德树
Owner CHINA NAT CHEM ENG THIRD CONSTR
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