CN203420375U - Cast-in-situ composite foam concrete self-heat-preservation wall body - Google Patents
Cast-in-situ composite foam concrete self-heat-preservation wall body Download PDFInfo
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- CN203420375U CN203420375U CN201320402338.0U CN201320402338U CN203420375U CN 203420375 U CN203420375 U CN 203420375U CN 201320402338 U CN201320402338 U CN 201320402338U CN 203420375 U CN203420375 U CN 203420375U
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- hollow brick
- composite foam
- foam concrete
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Abstract
The utility model discloses a cast-in-situ composite foam concrete self-heat-preservation wall body. The cast-in-situ composite foam concrete self-heat-preservation wall body is characterized in that the wall body is formed by bricking hollow brick bodies (1) in a dislocation mode, and inner cavities of the hollow brick bodies (1) are communicated. The inner cavities of the hollow brick bodies (1) are filled with composite foam concrete, and the composite foam concrete forms composite foam concrete heat-preservation layers in the inner cavities of the hollow brick bodies (1). Inorganic heat-preservation boards (2) are stuck to the outer surfaces of beams and pillars, and a plurality of inorganic heat-preservation boards (2) are filled into the gaps between the hollow brick bodies (1) of the uppermost layer and the beams in an inclined bricking mode. In addition, inorganic thermal mortar is entwisted between the adjacent inorganic heat-preservation boards (2), between the inorganic heat-preservation boards (2) and the hollow brick bodies (1) and between the inorganic heat-preservation boards (2) and the beams in an extruded and compact mode. The cast-in-situ composite foam concrete self-heat-preservation wall body is simple in structure, ingenious in design and good in heat-preservation effect.
Description
Technical field
The utility model relates to a kind of heat-preserving wall, particularly a kind of cast-in-place composite foam concrete self heat insulation wall.
Background technology
Heat-preserving wall is a kind of body of wall that utilizes heat insulating material to be made, there is insulation, the advantage such as heat insulation, the structure of tradition heat-preserving wall is: a kind of method is on exterior wall, to paste board-like polyurethane foam, this mode has defect inflammable and that the life-span is short, another kind method is the heat insulation building block that adopts batch production to produce, with mortar, build by laying bricks or stones at the construction field (site), so each puzzle joint can form a cold bridge, on heat-preserving wall, have a plurality of cold bridges; After body of wall group finishes building into, between the body of wall upper end of its formation and crossbeam, tend to exist a gap, utilize traditionally common solid brick to fill this gap, affect equally the integral heat insulation effect of insulated wall.Therefore need now a kind of New-type heat insulating walling that can address the above problem.
Summary of the invention
The utility model is in order to solve the existing above-mentioned deficiency of prior art, propose a kind of simple in structure, design ingenious, the self heat insulation wall of high insulating effect.
Technical solution of the present utility model is: a kind of cast-in-place composite foam concrete self heat insulation wall, it is characterized in that: described body of wall is built by laying bricks or stones and formed by hollow brick 1 dislocation, the inner chamber of all hollow bricks 1 is interconnected, and filled composite foam concrete in its inner chamber, these composite foam concretes form composite foam concrete insulation layer in chamber within it, at beam, on the external surface of post, be pasted with inorganic heat-insulation board 2, between the space between the superiors' hollow brick 1 and beam, there are a plurality of inorganic heat-insulation boards 2 to tilt to build by laying bricks or stones filling, and between adjacent inorganic heat-insulation board 2, between inorganic heat-insulation board 2 and hollow brick 1, between inorganic heat-insulation board 2 and beam, also use inorganic heat insulation mortar dense extrusion.
Described hollow brick 1 is greater than the length of side as limit, the inside and outside surperficial place of body of wall with the length of side on other hollow brick 1 limit, place, junction.
Described hollow brick 1 is the arc concaving with other hollow brick 1 limit, place, junction.
Described hollow brick 1 is the triangle concaving with other hollow brick 1 limit, place, junction.
In described hollow brick 1, be also provided with lacing wire 3.
The cavity rate of described hollow brick 1 is more than 50%.
Compared with the existing technology, tool has the following advantages the utility model:
Self heat insulation wall disclosed in the utility model, it is simple in structure, design ingenious, it is for traditional self heat insulation wall existing defect in structure and technique, design a kind of special structure, a kind of step of preparation process for this kind of structure is also disclosed simultaneously, this self heat insulation wall has been avoided many formed cold bridges of the mortar between every adjacent two layers hollow unit in traditional structure form, with a plurality of, fit tightly simultaneously, and utilizing inorganic heat insulation mortar to be twisted into compacted inorganic heat-insulation board is filled in the gap between body of wall and crossbeam, and at beam, the external surface of post arranges inorganic heat-insulation board, farthest improve the self-heat conserving performance of body of wall.Therefore can say that it has possessed multiple advantage, be particularly suitable for applying in the art, its market prospects are very wide.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model embodiment.
Fig. 2 is the structural representation of the utility model hollow brick embodiment mono-.
Fig. 3 is the structural representation of the utility model hollow brick embodiment bis-.
Fig. 4 is the structural representation of the utility model hollow brick embodiment tri-.
The specific embodiment
Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is described.As shown in Figure 1, Figure 2, Figure 3, Figure 4: a kind of cast-in-place composite foam concrete self heat insulation wall, this body of wall is built by laying bricks or stones and is formed by a plurality of hollow bricks 1, and the external surface at beam and column is all pasted with inorganic heat-insulation board 2, between the hollow brick 1 of the superiors and the beam of horizontally set, there is gap, in this gap, oblique cutting has a plurality of inorganic heat-insulation boards 2, and between adjacent inorganic heat-insulation board 2, between inorganic heat-insulation board 2 and beam, between inorganic heat-insulation board 2 and hollow brick 1, all to adopt inorganic heat insulation mortar to be twisted into compacted, to reach heat insulation effect.In order to extend the formed cold bridge of hollow brick 1 own, hollow brick 1 and other hollow brick 1 are greater than the length of side as the limit of the inside and outside surperficial side of body of wall in conjunction with the length of side on the limit of a side, as the dual-side of hollow brick 1 be all set to concave semicircle or the triangle (can be also other form) that concaves, can extend like this length of the cold bridge being formed by hollow brick 1 itself, to reduce radiating rate, improve heat insulation effect; In order to improve the intensity of hollow brick 1, hollow brick 1 is interior can also be provided with lacing wire 3, and the cavity rate of selected hollow brick 1 should be more than 50% simultaneously;
Due to its inner heat insulating material of the self heat insulation wall described in the utility model embodiment (composite foam concrete insulation layer) up/down perforation, formation integrative-structure, therefore need to be between adjacent two-layer hollow brick 1 applying mortar, also just avoided the appearance of the cold bridge that mortar causes, its external surface (external surface that comprises beam, post) is all provided with inorganic heat-insulation board 2 simultaneously, has also improved the self-heat conserving performance of body of wall; And between body of wall and crossbeam, be also closely filled with a plurality of inorganic heat-insulation boards 2, allow whole body of wall without any insulation dead angle.
Claims (6)
1. a cast-in-place composite foam concrete self heat insulation wall, it is characterized in that: described body of wall is built by laying bricks or stones and formed by hollow brick (1) dislocation, the inner chamber of all hollow bricks (1) is interconnected, and filled composite foam concrete in its inner chamber, these composite foam concretes form composite foam concrete insulation layer in chamber within it, at beam, on the external surface of post, be pasted with inorganic heat-insulation board (2), between the space between the superiors' hollow brick (1) and beam, there are a plurality of inorganic heat-insulation boards (2) to tilt to build by laying bricks or stones filling, and between adjacent inorganic heat-insulation board (2), between inorganic heat-insulation board (2) and hollow brick (1), between inorganic heat-insulation board (2) and beam, also use inorganic heat insulation mortar dense extrusion.
2. cast-in-place composite foam concrete self heat insulation wall according to claim 1, is characterized in that: described hollow brick (1) is greater than the length of side as limit, the inside and outside surperficial place of body of wall with the length of side on limit, other hollow brick (1) place, junction.
3. cast-in-place composite foam concrete self heat insulation wall according to claim 2, is characterized in that: described hollow brick (1) is the arc concaving with limit, other hollow brick (1) place, junction.
4. cast-in-place composite foam concrete self heat insulation wall according to claim 2, is characterized in that: described hollow brick (1) is the triangle concaving with limit, other hollow brick (1) place, junction.
5. cast-in-place composite foam concrete self heat insulation wall according to claim 4, is characterized in that: in described hollow brick (1), be also provided with lacing wire (3).
6. cast-in-place composite foam concrete self heat insulation wall according to claim 2, is characterized in that: the cavity rate of described hollow brick (1) is more than 50%.
Priority Applications (1)
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CN201320402338.0U CN203420375U (en) | 2013-07-08 | 2013-07-08 | Cast-in-situ composite foam concrete self-heat-preservation wall body |
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CN201320402338.0U CN203420375U (en) | 2013-07-08 | 2013-07-08 | Cast-in-situ composite foam concrete self-heat-preservation wall body |
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CN201320402338.0U Expired - Lifetime CN203420375U (en) | 2013-07-08 | 2013-07-08 | Cast-in-situ composite foam concrete self-heat-preservation wall body |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103321323A (en) * | 2013-07-08 | 2013-09-25 | 大连正锐建筑节能股份有限公司 | Cast-in-situ composite foam concrete self-insulating wall and manufacturing technology thereof |
-
2013
- 2013-07-08 CN CN201320402338.0U patent/CN203420375U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103321323A (en) * | 2013-07-08 | 2013-09-25 | 大连正锐建筑节能股份有限公司 | Cast-in-situ composite foam concrete self-insulating wall and manufacturing technology thereof |
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