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Z-shaped thermal insulation board self-insulation block without thermal bridge

A technology of self-insulating blocks and insulation boards, which is applied in the direction of building materials, etc., to achieve the effects of solving material loss, improving seismic performance, and convenient construction technology

Inactive Publication Date: 2016-07-13
SHENYANG JIANZHU UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to solve the above existing technical problems, the present invention provides a self-insulating block without thermal bridges of Z-shaped thermal insulation boards. The blocks of the present invention can eliminate thermal bridges in the wall without using other thermal insulation measures, thereby improving the thermal insulation effect of the outer wall , reduce energy consumption, and effectively solve the problem of building energy conservation

Method used

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  • Z-shaped thermal insulation board self-insulation block without thermal bridge
  • Z-shaped thermal insulation board self-insulation block without thermal bridge
  • Z-shaped thermal insulation board self-insulation block without thermal bridge

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] Embodiment 1: as Figure 1-Figure 3 As shown, the present invention includes an outer row of Z-shaped thermal insulation boards 1, an inner row of Z-shaped thermal insulation boards 2, horizontal ash joint energy transfer cut-off ladders 7, concrete 8, continuous ladder energy transfer concrete extension ribs 9, in block concrete 8, etc. The inner and outer rows of Z-shaped insulation boards 2 and 1 are arranged side by side, and the outer layer longitudinal board 3 and the inner layer longitudinal board 5 of the same row of adjacent Z-type insulation boards overlap each other; the outer layer longitudinal boards of the two rows of Z-type insulation boards Plate 3, transverse plate 4 and inner longitudinal plate 5 divide the concrete 8 into multiple continuous ladder energy transfer concrete extension ribs 9, and the longitudinal plates of the two rows of Z-shaped insulation boards at both ends of the block respectively extend out of the block to form an external heat pr...

Embodiment 2

[0021] Embodiment 2: The difference between this example and Embodiment 1 is that the distance between the outer row of Z-shaped insulation boards 1 and the inner row of Z-type insulation boards 2 in this example is 20mm from the energy transfer cut-off step 7 of the horizontal gray joint; each row of Z-type insulation boards The distance between the Z-type insulation boards is 30mm, the length of the outer longitudinal board and the inner longitudinal board is not less than 1 / 2 the thickness of the block, and the overlapping length of adjacent Z-type insulation boards in the longitudinal direction is 50mm; the longitudinal length of the continuous ladder energy transfer concrete extension rib 9 The ribs are twice as long as the transverse ribs; the overhanging length of the overhanging insulation board 6 is 9 mm.

Embodiment 3

[0022] Embodiment 3: The difference between this example and Embodiment 1 is that the distance between the outer row of Z-shaped insulation boards 1 and the inner row of Z-type insulation boards 2 in this example is 25mm from the energy transfer cut-off step 7 of the horizontal gray joint; each row of Z-type insulation boards The distance between the Z-type insulation boards is 40mm, the length of the outer longitudinal board and the inner longitudinal board is 2 / 3 of the block thickness, and the overlapping length of the adjacent Z-type insulation boards in the longitudinal direction is 60mm; the longitudinal rib of the continuous ladder energy transfer concrete extension rib 9 It is 4 times of the transverse rib; the overhanging length of the overhanging insulation board 6 is 8mm.

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Abstract

The invention provides a Z-shaped heat-preservation board heat-free bridge self-heat-preservation building block, belonging to the technical field of construction building blocks. The Z-shaped heat-preservation board heat-free bridge self-heat-preservation building block comprises outer rows of Z-shaped heat-preservation boards, inner rows of Z-shaped heat-preservation boards, a horizontal mortar joint energy transmitting cutting-off ladder, concrete, and continuous ladder energy transmitting concrete extending ribs, wherein the inner and outer rows of Z-shaped heat-preservation boards are arrayed in the concrete in parallel at equal intervals; outer-layer longitudinal plates and inner-layer longitudinal plates of the adjacent Z-shaped heat-preservation boards in the same row are mutually overlapped; the outer-layer longitudinal plates, transverse plates and the inner-layer longitudinal plates of the two rows of Z-shaped heat-preservation boards are used for dividing the concrete into the plurality of continuous ladder energy transmitting concrete extending ribs; the longitudinal plates of two rows of Z-shaped heat-preservation boards at the two ends of a building block stretch out of the building block to form outwards-extending heat preservation boards; and the whole building block is provided with ladder surfaces with height difference on one side or two side surfaces between the two rows of Z-shaped heat-preservation boards, so as to form the horizontal mortar joint energy transmitting cutting-off ladder, and thus the whole L-shaped or Z-shaped building block is formed. According to the Z-shaped heat-preservation board heat-free bridge self-heat-preservation building block, heat bridges at different parts of a wall body are separated so that the energy-saving and heat-preservation effects are improved; and the building block is applied to a plurality of types of self-heat-preservation wall bodies.

Description

technical field [0001] The invention belongs to the technical field of building blocks, and in particular relates to a self-insulating block without a thermal bridge of a Z-shaped heat-insulating board. Background technique [0002] The production and application of blocks are closely related to building fire prevention, energy, ecological environment and living conditions. The development of new wall materials in China, the adjustment of product structure, the improvement of equipment technology level, the improvement of product performance and quality, and the improvement of construction application technology will further promote the development of my country's building materials and building energy conservation, and will contribute to my country's sustainable development. The implementation of the strategy has a positive effect. As a building form suitable for my country's national conditions, the advantages of block building are mainly manifested in: outstanding seismic...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E04C1/41
Inventor 张延年李玉兵
Owner SHENYANG JIANZHU UNIVERSITY
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