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Cinder and concrete compound self-insulating building block and processing method thereof

A technology of self-insulating blocks and processing methods, which is applied in the direction of manufacturing tools, building components, building materials, etc., can solve problems affecting thermal insulation performance and compressive strength, leakage of thermal insulation materials, etc., achieve easy control of molding quality, and improve thermal insulation performance, mold simple effect

Active Publication Date: 2019-03-01
CHINA BUILDING MATERIALS ACAD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The current composite structure self-insulating concrete hollow blocks have the following problems: (1) Leakage of insulation materials
After the final product is cured, there will be a certain amount of moisture inside the pozzolanic aggregate, whether in theory or in practice, which will affect its thermal insulation performance and compressive strength

Method used

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  • Cinder and concrete compound self-insulating building block and processing method thereof
  • Cinder and concrete compound self-insulating building block and processing method thereof
  • Cinder and concrete compound self-insulating building block and processing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0056] Example as Figure 1-1~1-9 as shown,

[0057] The load-bearing base A and the load-bearing base B of the same shape all have a facade 10, a side elevation 11 and a side elevation 2 12; the side elevation 11 and the side elevation 2 12 are offset by 1 relative to the elevation, so that the three The latter forms an F-shaped base 1; the surfaces of the side elevation 11 and the side elevation 2 12 facing the F-shaped lower end are all provided with dovetail grooves 13 for tenon and tenon connection; The surface sinks to form a masonry material accommodation surface 14;

[0058] The load-bearing base A and the load-bearing base B (actually two F-shaped bases 1 with the same shape and size) are placed opposite each other, so that the respective side elevations 11 and side elevations 2 12 are in staggered positions; the insulation connection block 101 has two , each thermal insulation connection block 101 is arranged between the dovetail groove 13 on the load-bearing base ...

Embodiment 2

[0060] Example two such as Figure 2-1~2-4 as shown,

[0061] The structures of the load-bearing base A and the load-bearing base B are both U-shaped, and the U-shaped base 2 has a plate-shaped stand, and two side facades 22 of the same shape at both ends of the plate-shaped stand; the ends of the two side facades 22 Mortise and tenon grooves 23 are respectively provided on the heads, and masonry material accommodating grooves 24 are respectively provided on the outer surfaces of the two side facades 22 .

[0062] The load-bearing base A and the load-bearing base B are relatively placed to leave a gap, and there are two insulation connection blocks 201 with the same shape, and the two ends of the insulation connection block 201 are respectively provided with mortise and tenon heads that match the mortise and tenon grooves at the ends of the side elevation 22 ,

[0063] The cavity 200 is reserved between the load-bearing base A and the load-bearing base B.

[0064] Embodimen...

Embodiment 3

[0067] Embodiment three such as Figure 3-1~3-4 as shown,

[0068] The load-bearing base A (hereinafter referred to as the frame-shaped base 3) is in the shape of a frame, and the load-bearing base B (hereinafter referred to as the in-line base 30) is in the shape of a line; in the mortise and tenon groove; the frame-shaped base body 3 and the in-line base body 30 are arranged oppositely, and a thermal insulation connection block 301 with dovetail grooves 33 on both sides is arranged between them, and the three are connected as one; on one side of the load-bearing base A, a There is a masonry material accommodating groove 34 , and at least one cavity 300 is provided in the inner height direction of the frame-shaped base 3 .

[0069] A socket seam 31 is provided on one side of the load-bearing base A (frame-shaped base 3 ), and a socket strip 32 is provided on the other side. When in use, several blocks are placed horizontally and connected end to end, and the socket of the p...

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Abstract

The invention discloses a cinder and concrete compound self-insulating building block and a processing method thereof, and relates to the field of green energy-saving building wall insulating materials, in particular to a compound self-insulating building block prepared from cinders and a processing method thereof. The cinder and concrete compound self-insulating building block and the processingmethod thereof are provided, wherein the cost is saved, the natural lightweight aggregate performance of cinders can be fully optimized, and the mechanical performance and the insulating performance of the self-insulating building block are guaranteed. The cinder and concrete compound self-insulating building block comprises an insulating connection block, and further comprises two cinder bearingsubstrates A and B, wherein the bearing substrate A and the bearing substrate B are integrated into one by the insulating connection block through mortise and tenon joint structures to form the building block; in the building block, cavities are formed. The shape of the bearing substrate A and the bearing substrate B are the same or not the same. According to the cinder and concrete compound self-insulating building block and the processing method thereof, the cinders are fully used, and the performance of the cinder and concrete building block is maximized and optimized.

Description

technical field [0001] The invention relates to the field of thermal insulation materials for green energy-saving building walls, in particular to a composite self-insulation block prepared by using volcanic slag and a processing method thereof. Background technique [0002] In recent years, with the country's emphasis on environmental protection, a series of measures have been taken to reduce building energy consumption. In building energy consumption, the energy consumption caused by heat transfer through external walls is relatively large. Therefore, my country vigorously supports the development of new wall materials, improves the thermal insulation conditions of building external walls, and achieves energy-saving goals. Building exterior wall insulation is an important measure for building energy conservation, and self-insulating concrete hollow blocks are important building exterior wall insulation materials. Composite self-insulating blocks can effectively eliminate ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04C1/00E04C1/41C04B28/02B28B23/00B28B11/24
CPCB28B11/245B28B23/00C04B28/02E04C1/00E04C1/41C04B14/14
Inventor 张旭王武祥张磊蕾廖礼平王爱军
Owner CHINA BUILDING MATERIALS ACAD
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