CN202899343U

CN202899343U - Composite wall body formed by foam concrete self-insulation modules with built-in cores

Info

Publication number: CN202899343U
Application number: CN 201220517711
Authority: CN
Inventors: 狄昇
Original assignee: XINZHOU RUIKE ENERGY-SAVING BUILDING INSTITUTE
Current assignee: XINZHOU RUIKE ENERGY-SAVING BUILDING INSTITUTE
Priority date: 2012-10-11
Filing date: 2012-10-11
Publication date: 2013-04-24
Anticipated expiration: 2022-10-11

Abstract

The utility model belongs to the technical field of construction, and particularly relates to a composite wall body formed by foam concrete self-insulation modules with built-in cores. The foam concrete self-insulation modules with built-in cores are transported to a construction site and combined and assembled with other structural materials to form a gridding type composite self-insulation masonry wall body with reinforced concrete core columns and straining beams built in the inner cavity of the wall body. The composite wall body uses the heat-preserving and fireproof features of inorganic foam concrete which is heat-preserving, fireproof, waterproof, and high in mechanical strength, and breaks a construction mode that a wall body construction adopts a frame filler wall and an outer wall adopts secondary heat preservation. A whole building has no sectional leakage, is free from formwork, heat-preserving, heat-insulating, fireproof, low in cost, short in construction period, and long in service life. The wall body structure and the heat preservation are completed simultaneously in the construction, the construction mode that the outer wall normally adopts the secondary heat preservation for building energy conservation at present is suppressed fundamentally, and the composite wall body formed by the foam concrete self-insulation modules with the built-in cores is suitable for the space enclosing structures of the inner wall body and the outer wall body of newly-built buildings.

Description

The built-in concrete foaming of core self-heat conserving module combinations body of wall

Technical field

The utility model belongs to technical field of buildings, is specifically related to the built-in concrete foaming of core self-heat conserving module combinations body of wall.

Background technology

China's building field exterior-wall heat insulation generally adopts the secondary Insulation at present, and building wall generally adopts the form of construction work of frame wall filled with masonry.But owing to being handwork, operation is many, long in time limit, integral construction material and difficult quality control, cause surface of wall crackle to occur, the phenomenon such as seep water, come off, body of wall and heat insulation effect and application life have directly been affected, particularly use some organic heat insulating materials to do wall thermal insulating, easily cause fire, cause great infringement to the people's lives and property.

Summary of the invention

The purpose of this utility model is to solve the problem that prior art exists, and provides a kind of and builds the assembling of the built-in concrete foaming of core self-heat conserving module combinations by laying bricks or stones and form the grid assembled self-insulation masonry panel that a kind of reinforced concrete post and binder are embedded in the body of wall inner chamber.

The utility model is to solve the problems of the technologies described above the technical scheme of taking to be:

The built-in concrete foaming of core self-heat conserving module combinations body of wall comprises binder and stem stem, it is characterized in that: comprise that also concrete foaming self-heat conserving module and horizontal binder module, lower floor build the splicing layer by laying bricks or stones, the upper strata is built splicing layer and horizontal binder splicing layer by laying bricks or stones;

Described concrete foaming self-heat conserving module is hexahedron, is provided with vertical through holes at thickness direction, and concrete foaming self-heat conserving module one side is provided with groove, and another side is provided with protuberance; Described protuberance inserts in the groove of another piece concrete foaming self-heat conserving module, consists of the combination through hole; Described lower floor builds the splicing layer by laying bricks or stones and is spliced with the form that protuberance inserts groove by certain orientation by some concrete foaming self-heat conserving modules; Described upper strata is built the splicing layer by laying bricks or stones and is spliced with the form that protuberance inserts groove by building the opposite direction of splicing layer by laying bricks or stones with lower floor by some concrete foaming self-heat conserving modules; Build respectively that through hole in the splicing layer connects by laying bricks or stones, the fissure of displacement up and down of the slit between the module; Described stem stem is made of the steel concrete in the combination through hole of up/down perforation;

The profile of described horizontal binder module is hexahedron, its top is provided with a transverse concave groove that connects along its length dual-side, and horizontal binder module one side is provided with groove, and another side is provided with protuberance, this protuberance inserts in the groove of another horizontal binder module, forms the combined horizontal duct; Form horizontal binder splicing layer by some horizontal binder modules by the form that protuberance inserts groove; Described binder is made of the steel concrete in the horizontal hole on the horizontal binder splicing layer.

The present invention compared with prior art has following beneficial effect:

(1) whole metope leaks without cutting, and improves the building energy conservation effect.

(2) heat preservation module alternate template need not formwork, speeds up the work.

(3) stem stem and binder connect and build, and form concrete grid wall construction, and intensity is high, antidetonation good.

(4) body of wall adopts the lightweight module masonry, greatly alleviates building load, the reduce cost cost.

(5) material all adopts inorganic cement, and fire-protection rating reaches the A1 level.

(6) wall body module adopts inorganic heat insulation material to make, and need not the secondary insulation, and comprehensive cost is low.

Description of drawings

Fig. 1 is the built-in concrete foaming of the utility model core self-heat conserving modular structure schematic diagram;

Fig. 2 is the top view that the utility model lower floor builds the splicing layer by laying bricks or stones;

Fig. 3 is the top view that the splicing layer is built on the utility model upper strata by laying bricks or stones;

Fig. 4 is the horizontal binder module of the utility model front view;

Fig. 5 is the horizontal binder module of the utility model left view;

Fig. 6 is the horizontal binder splicing of the utility model layer top view;

Fig. 7 is the utility model wall body structure schematic diagram.

Among the figure: 1-groove; The 2-through hole; 3-protuberance; 4-lower floor builds the splicing layer by laying bricks or stones; 5-combination through hole; 6-builds on the upper strata splicing layer by laying bricks or stones; 7-stem stem; 8-binder; 9-door opening; 10-window hole; 11-transverse concave groove; 12-horizontal binder splicing layer.

The specific embodiment

Such as Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and shown in Figure 7, the built-in concrete foaming of core self-heat conserving module combinations body of wall, comprise binder 8 and stem stem 7, be characterized in: comprise that also concrete foaming self-heat conserving module and horizontal binder module, lower floor build splicing layer 4 by laying bricks or stones, the upper strata is built splicing layer 6 and horizontal binder splicing layer 12 by laying bricks or stones;

As shown in Figure 1, described concrete foaming self-heat conserving module is hexahedron, is provided with vertical through holes 2 at thickness direction, and concrete foaming self-heat conserving module one side is provided with groove 1, and another side is provided with protuberance 3; Described protuberance 3 inserts in the groove 1 of another piece concrete foaming self-heat conserving module, consists of combination through hole 5; As shown in Figure 2, described lower floor builds splicing layer 4 by laying bricks or stones and is spliced with the form that protuberance 3 inserts grooves 1 by certain orientation by some concretes foaming self-heat conserving modules; As shown in Figure 3, described upper strata is built splicing layer 6 by laying bricks or stones and is spliced with the form that protuberance 3 inserts grooves 1 by building the opposite direction of splicing layer 4 by laying bricks or stones with lower floor by some concretes foaming self-heat conserving modules; Build respectively that through hole 2 in the splicing layer connects by laying bricks or stones, the fissure of displacement up and down of the slit between the module; Described stem stem 7 is made of the steel concrete in the combination through hole 5 of up/down perforation;

Such as Fig. 4, Fig. 5 and shown in Figure 6, the profile of described horizontal binder module is hexahedron, its top is provided with a transverse concave groove 11 that connects along its length dual-side, horizontal binder module one side is provided with groove, another side is provided with protuberance, this protuberance inserts in the groove of another horizontal binder module, forms the combined horizontal duct; Form horizontal binder splicing layer 12 by some horizontal binder modules by the form that protuberance inserts groove; Described binder 8 is made of the steel concrete in the horizontal hole on the horizontal binder splicing layer 12.。Job practices

As shown in Figure 7, the utility model should be first at the pre-buried column muscle in stem stem 7 positions according to drawing requirement when construction, and when building by laying bricks or stones, concrete foaming self-heat conserving module opening one end packs into the reinforcing bar of the stem stem 7 of reservation.The second layer packs into stem stem 7 reserved steel bars equally by first floor way self-heat conserving module opening one end that in the other direction concrete foamed, repeat above order and build by laying bricks or stones, form every layer of nib of masonry panel and module opening part intersect build mutually and concrete foaming self-heat conserving module up and down the fissure of displacement, to the wall masonry structure in hole.

When the body of wall facade is built by laying bricks or stones, door opening 9, window hole bead about in the of 10, and adopt horizontal binder modules without the horizontal horizontally-arranged of door and window hole body of wall position every some layers, the horizontal groove of left and right sides adjacent block is aimed at, form horizontal hole, configuration reinforcement in this duct treats that wall pouring concrete back wall inner chamber forms a kind of stem stem 7 and connects the grid wall steel concrete masonry construction that is connected with binder 8.

Claims

1. the built-in concrete of core foaming self-heat conserving module combinations body of wall, comprise binder (8) and stem stem (7), it is characterized in that: comprise that also concrete foaming self-heat conserving module and horizontal binder module, lower floor build splicing layer (4) by laying bricks or stones, the upper strata is built splicing layer (6) and horizontal binder splicing layer (12) by laying bricks or stones;

Described concrete foaming self-heat conserving module is hexahedron, is provided with vertical through holes (2) at thickness direction, and concrete foaming self-heat conserving module one side is provided with groove (1), and another side is provided with protuberance (3); Described protuberance (3) inserts in the groove (1) of another piece concrete foaming self-heat conserving module, consists of combination through hole (5); Described lower floor builds splicing layer (4) by laying bricks or stones and is spliced with the form that protuberance (3) inserts groove (1) by certain orientation by some concrete foaming self-heat conserving modules; Described upper strata is built splicing layer (6) by laying bricks or stones and is spliced with the form that protuberance (3) inserts groove (1) by building the opposite direction of splicing layer (4) by laying bricks or stones with lower floor by some concrete foaming self-heat conserving modules; Build respectively that through hole 2 in the splicing layer connects by laying bricks or stones, the fissure of displacement up and down of the slit between the module; Described stem stem (7) is made of the steel concrete in the combination through hole (5) of up/down perforation;

The profile of described horizontal binder module is hexahedron, its top is provided with a transverse concave groove (11) that connects along its length dual-side, and horizontal binder module one side is provided with groove, and another side is provided with protuberance, this protuberance inserts in the groove of another horizontal binder module, forms the combined horizontal duct; Form horizontal binder splicing layer (12) by some horizontal binder modules by the form that protuberance inserts groove; Described binder (8) is made of the steel concrete in the horizontal hole on the horizontal binder splicing layer (12).