Self-thermal-insulation earthquake-proof building block and application method

A self-insulation and block technology, applied in building components, building materials, walls, etc., can solve the problems of insecure vertical ash joints, low overall strength of masonry walls, and low self-strength, etc. Dependence on the skill level of workers, the effect of improving masonry efficiency and masonry quality, and improving overall strength and seismic performance

Inactive Publication Date: 2013-06-26
JIANGXI WEIYI TECH DEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, some masonry materials such as fly ash bricks are small in size, and the traditional "three one" bricklaying method of one shovel ash, one brick, and one squeeze is mostly used. The construction steps are cumbersome and the construction efficiency is low. There is no guarantee for the fullness of the mortar joints, and the construction quality largely depends on the proficiency level of the workers. With the increase of labor costs, the cost of masonry will also increase;
[0004] (2) Strength problem
After replacing clay bricks with fly ash autoclaved materials, energy consumption is reduced and clay resources are saved, but the spherical particle shape of fly ash affects the bonding strength between fly ash autoclaved materials and masonry mortar. As a result, the overall strength of the masonry wall is not high, which affects the earthquake resistance of the building
In addition, the existing hollow blocks and aerated concrete blocks have low self-strength, which affects the ability of the wall to hold nails and hang heavy objects;
[0005] (3) Insulation problem
However, most of the current insulation methods are polysty

Method used

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  • Self-thermal-insulation earthquake-proof building block and application method
  • Self-thermal-insulation earthquake-proof building block and application method
  • Self-thermal-insulation earthquake-proof building block and application method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0048] Such as figure 1 , figure 2 The self-insulating anti-seismic block of the present invention as shown includes a longitudinal outer wall 1 and a transverse outer wall 2, the longitudinal outer wall 1 and the transverse outer wall 2 enclose a hollow insulating cavity 3, and the middle part of the longitudinal outer wall 1 is provided with a reinforcing rib 4 protruding toward the direction of the hollow insulating cavity , the reinforcing ribs 4 and the longitudinal outer wall 1 together form a central grouting channel 5 that runs through vertically. Grouting groove 6 on the end face.

[0049] When applied, such as image 3 As shown, the horizontal end face of the self-insulating anti-seismic block is plastered, and the self-insulating anti-seismic block is used to build the wall layer by layer. During the masonry process, the adjacent self-insulating anti-seismic blocks of the same layer are directly aligned to achieve vertical The self-insulation and anti-seismic bl...

Embodiment 2

[0056] Such as Image 6 The difference between the shown self-insulating anti-seismic block of the present invention and Embodiment 1 is that when the self-insulating anti-seismic block is produced in the factory, the hollow insulating cavity 3 is directly filled with light-weight insulating material 9, and the light-weight insulating material 9 is specifically It is a gypsum foam material, which is made of gypsum mixed with an appropriate amount of fly ash.

[0057] Certainly, there are various types of lightweight heat insulating materials that can be selected, which may be light inorganic foaming materials, light inorganic heat insulating cotton or light organic heat insulating materials. Among them, light inorganic insulation wool includes mineral wool, rock wool or glass wool, etc. Light organic insulation materials include polystyrene insulation materials or polyurethane insulation materials, etc. Light inorganic foam materials include cement foam materials or gypsum foa...

Embodiment 3

[0061] Such as Figure 7 The difference between the shown self-insulating anti-seismic block of the present invention and Embodiment 2 is that in addition to the grouting groove 6 on the end surface and the grouting channel 5 in the middle part of the self-insulating anti-seismic block, the upper and lower end surfaces of the longitudinal outer wall 1 are also provided with horizontal The grouting groove 10 and the horizontal grouting groove 10 are in communication with the end surface grouting groove 6 and the middle grouting channel 5 .

[0062] When applied, such as Figure 8 , Figure 9 with Figure 10 As shown, the wall is built layer by layer with self-insulation and anti-seismic blocks. The horizontal grouting grooves 10 are connected to each other to form a longitudinally continuous mortar core column cavity, and the self-insulating and anti-seismic blocks between the upper and lower layers are overlapped with staggered seams. The end surface grouting grooves 6 of th...

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Abstract

The invention belongs to the technical field of building materials, and relates to a building block. The building block comprises a longitudinal outer wall and a transverse outer wall which are enclosed to form a hollow thermal insulation cavity, and is characterized in that: the middle part of the longitudinal outer wall is provided with a reinforcing rib which protrudes towards the direction of the hollow thermal insulation cavity; the reinforcing rib and the longitudinal outer wall are enclosed together to form a middle grouting passage which is vertically run-through; the middle grouting passage is symmetrically arranged along a middle vertical plane of the longitudinal outer wall of the building block; and the outer end face of the transverse outer wall is provided with a vertical end face grouting groove. The building block has the characteristics of high self-thermal-insulation capacity, light deadweight, high strength and the like, and has a flat appearance, high integrity and high earthquake-proof capacity after being built; in addition, by matching with a method for building a vertical thermal insulation wall or a thermal insulation wall without mortar joints by applying the self-thermal-insulation earthquake-proof building block, the construction efficiency can be greatly increased, and easiness for standardization, high cost performance and high easiness for guaranteeing the construction quality are guaranteed. The building block can be widely applied to overall maintenance outside a building structure and a bearing structure of a low-rise building, and has extremely broad market prospect.

Description

technical field [0001] The invention belongs to the technical field of building materials, and relates to a building block, in particular to a thermal insulation building block with high building efficiency and good overall performance. Background technique [0002] The exterior walls of buildings in our country mostly adopt masonry wall structure. The bricks traditionally used to build walls are mostly clay products, mainly made of benign clay. Due to the extensive use of benign clay, it will damage the cultivated land, and clay products generally have poor thermal insulation performance, high production costs, and pollution during the production process. environment and other disadvantages. Therefore, in recent years, fly ash bricks and various building blocks have begun to gradually replace traditional clay bricks in the market. However, there are still many problems in the application of existing bricks or blocks, mainly in the following aspects: [0003] (1) The prob...

Claims

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Application Information

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IPC IPC(8): E04C1/00E04C1/41E04G21/22E04B2/20
Inventor 李秋义姚伟秦原
Owner JIANGXI WEIYI TECH DEV
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