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Composite component of alkaline-resisting mesh cloth plastering

A composite component and alkali-resistant technology, which is applied to building components, building structures, truss structures, etc., can solve the problems of not effectively solving safety and heat preservation, not being able to achieve low heat transfer coefficient, and having many thermal bridges in insulation blocks , to achieve the effect of light weight, good thermal insulation, good shock resistance and wind resistance

Inactive Publication Date: 2009-11-04
吴淑环
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] In order to implement the wall reform and building energy-saving policy in China, the government has invested a lot in the development of new wall materials for many years, but these various new wall materials have not effectively solved the contradiction between safety and heat preservation, and the cost is high. There are many thermal bridges in the block, which cannot achieve low heat transfer coefficient, which is not good for building energy saving

Method used

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  • Composite component of alkaline-resisting mesh cloth plastering
  • Composite component of alkaline-resisting mesh cloth plastering
  • Composite component of alkaline-resisting mesh cloth plastering

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Experimental program
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Effect test

specific Embodiment approach 1

[0036] Specific implementation mode one: see figure 1 , figure 2 , a structure of the composite member of the present embodiment is composed of a load-bearing member 1, a core layer 3, an alkali-resistant mesh cloth 4, and a protective layer 8 of the main structure of the building; the load-bearing member 1 of the main structure of the building is a concrete beam or a steel beam Or steel-concrete composite beam 1-1, concrete slab 1-2, concrete column or steel column or steel-concrete composite column 1-3, concrete wall or load-bearing masonry wall 1-3-1, the core layer 3 is polymer Insulation material, or the core layer 3 is mineral wool or plant straw, and the protective layer 8 is cement mortar or fine stone concrete plastering layer, or the protective layer 8 is modified cement mortar or fine stone concrete plastering layer; the core layer 3 is fixed on the concrete beam or steel beam or steel-concrete composite beam 1-1, concrete slab 1-2, concrete column or steel column...

specific Embodiment approach 2

[0042] Specific implementation mode two: see Figure 4 ~ Figure 6 The difference between this embodiment and the first embodiment is that this embodiment also adds an anchoring steel bar 2, and the anchoring steel bar 2 is connected with the concrete beam or steel beam or steel-concrete composite beam 1-1 of the load-bearing member 1 of the main building structure. , concrete slab 1-2 anchoring, or / and anchoring steel bar 2 and concrete column or steel column or steel-concrete composite column 1-3 of the load-bearing member 1 of the main building structure, concrete wall or load-bearing masonry wall 1-3-1 anchoring , the anchoring steel bar 2 is located in the protective layer 8, and the alkali-resistant mesh cloth 4 is pasted and connected to the protective layer 8 at the position of the anchoring steel bar 2.

specific Embodiment approach 3

[0043] Specific implementation mode three: see Figure 7 ~ Figure 10 The difference between this embodiment and specific embodiments one and two is: the core layer 3 of this embodiment is also fixed on the concrete beam or steel beam or steel-concrete composite beam 1-1, concrete slab 1-2, The outer side of the concrete column or steel column or steel-concrete composite column 1-3, and the concrete wall or load-bearing masonry wall 1-3-1 constitute a composite wall body plastered with an alkali-resistant mesh cloth for external heat preservation.

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Abstract

The invention relates to a composite component of alkaline-resisting mesh cloth plastering, relating to a building composite component and aiming at the problems of high construction cost, inconvenient construction and the like of the current energy-saving wall body. The structure one is as follows: a sandwich layer 3 is struck to the interior of a beam column frame of a load-carrying member 1; the interior and the exterior the sandwich layer 3 have cement mortar protective courses 8; an alkaline-resisting mesh cloth 4 is embedded in the interior of the protective courses 8 and is connected with the load-carrying member 1 in a sticking way. The structure two is as follows: the sandwich layer 3 is struck to a basic unit wall 1-5; the exterior of the sandwich layer 3 has the cement mortar protective courses 8; the alkaline-resisting mesh cloth 4 is embedded in the interior of the protective courses 8. The structure three is as follows: the sandwich layer 3 is positioned between the upper and lower cement mortar protective courses 8; the lower cement mortar protective course 8 is positioned on a building major structure 1; the upper protective course 8 covers the sandwich layer 3; the alkaline-resisting mesh cloth 4 is embedded in the interior of the protective courses 8. The method of construction is as follows: an interface agent is painted on the sandwich layer or cement mortar to stick the alkaline-resisting mesh cloth 4; when the interface agent is damp, the cement mortar ash is carried out; the glass is used as a waterproof and dampproof moisture barrier; a caking agent is struck to the surface of a structural cement to serve as the waterproof and dampproof moisture barrier. The method has the advantages of low construction cost, convenient construction, etc.

Description

technical field [0001] The invention relates to a building composite component structure and a construction method for plastering the composite component with alkali-resistant glass fiber mesh cloth (hereinafter referred to as the alkali-resistant mesh cloth), and the application of glass as a waterproof, moisture-proof and air barrier layer of the composite component. The composite components plastered with alkali-resistant mesh cloth include composite walls (columns, beams) plastered with alkali-resistant mesh cloth, and composite roofs plastered with alkali-resistant mesh cloth. Alkali-resistant mesh is the abbreviation for alkali-resistant glass fiber mesh in the JCT-841-2007 standard of "Alkali-resistant Glass Fiber Mesh". Background technique [0002] I have filed a patent application No. 200710072572.0, and the title of the invention patent is "Composite wall with steel bars / and wire mesh plastering inside and outside", and the patent application number is 20081000724...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/18E04B1/19E04B2/56E04C3/02E04C3/30E04D3/35
Inventor 吴淑环
Owner 吴淑环
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