CN103031903A - Cast-in-place reinforced concrete thermal insulation wall - Google Patents

Abstract

The invention relates to a cast-in-place reinforced concrete thermal insulation wall which is characterized by comprising reinforced warm masonries (1), wherein the reinforced warm masonries (1) are alternately arranged; each reinforced warm masonry (1) comprises two wall surface hard boards (2) which are correspondingly arranged, and a thermal insulation component (3); each thermal insulation component (3) is arranged between the two corresponding wall surface hard boards (2); each thermal insulation component (3) is clamped by the two corresponding wall surface hard boards (2) to form one reinforced warm masonry (1); the thermal insulation components (3) are integral components; a sound insulation cavity (4) is formed in each thermal insulation component (3); and cast-in-place reinforced concrete rib beams (5) or rib columns (6) are arranged among the reinforced warm masonries (1). The cast-in-place reinforced concrete thermal insulation wall has the advantages of simplicity for construction, low cost, high construction speed, light dead weight, good integrity, high stability, good heat preservation and heat insulation performances and good fireproof performance.

Description

A kind of cast-in-situ reinforced concrete insulated wall

(1) technical field

The present invention relates to a kind of cast-in-situ reinforced concrete insulated wall.

(2) background technology

At present, along with people to the comfortable for living requirement, building safety, energy-conservation, improving constantly of insulation and heat-insulating, fire-preventing performance, traditional body of wall mainly contains clay tile wall, solid reinforced concrete wall, hollow concrete block wall and light-weight precast slab spliced wall, clay tile wall need to consume a large amount of clays, ecological environment and land resources are caused irreversible breaking, therefore, for progressively banning use of, solid reinforced concrete wall has the good advantage of high-strength fire-retardant performance, but exist cost high, the problem that energy consumption is high, need to consume a large amount of reinforced concretes, and speed of application is slow, inefficient problem, the body of wall of hollow blocks built then thermal and insulating performance is poor, and can only use as separating, can not be as bearing wall, the crack appearred in amalgamation seam easily after then there was use in the light-weight precast slab spliced wall, can't be as defectives such as bearing walls.And for example the patent No. is ZL02118775.4, name is called " a kind of cast in situs reinforced concrete assebled walls " patent of invention, it has solved the shearing resistance problem, but its shear wall module structure is too complicated, after particularly being filled with part or all of light material in the cavity of its module, although solved part sound-insulating and heat-insulating problem, but because of the easily breakage in work progress of its module outer wall, thereby the light material outflow that causes filling is blended in the Cast-in-place concrete, reduced the intensity of Cast-in-place concrete, and, when module was the cavity module, then in the construction application process, its edge-on wallboard is strain cracking very easily outwards, thereby cause Cast-in-place concrete to pour in the cavity, cause simultaneously surface of wall out-of-flatness and extremely difficult reparation smooth, therefore, develop a kind of novel cast-in-situ reinforced concrete insulated wall for being badly in need of.

(3) summary of the invention

The object of the present invention is to provide a kind of cast-in-situ reinforced concrete insulated wall, it is simple to have construction, cost is low, speed of application is fast, from heavy and light, globality, stability, thermal and insulating performance and fireproof performance are good, simultaneously, because in the body of wall being the dark beam sleeper of Cast-in-place concrete structure, thereby so that the shock resistance of body of wall is good, strength of wall body and rigidity are large, but modularization production and assembling construction, need not or the little template of using, wall beam and wall limb can form the good cuff combined column of shearing resistance compressive property, the characteristics such as beam support, particularly can be with ardealite, flyash etc. are made heat preservation structural component as main material, solve the ardealite of knowing clearly and needing to be resolved hurrily at present, the problem that flyash is processed.

A kind of cast-in-situ reinforced concrete insulated wall of the present invention includes heat preservation module, heat preservation module alternately, heat preservation module comprises two corresponding metope hardboard and heat preservation structural components that arrange, heat preservation structural component is arranged between two metope hardboards, clamp heat preservation structural component by two metope hardboards and form heat preservation module, wherein, heat preservation structural component is integrated member, the sound insulation cavity is arranged in heat preservation structural component, is cast-in-situ reinforced concrete girt strip or rib post between the heat preservation module.Like this, after in body of wall, being provided with heat preservation module, the thermal and insulating performance of body of wall is good, adopt this in-situ deposited prefabricated mode that combines to build construction wall, reduced in a large number the use of loam brick, and thermal and insulating performance is better than hollow brick wall body, and, be provided with therein the sound insulation cavity after so that the sound insulation value of body of wall has obtained increasing substantially, and, because its inner heat preservation structural component that arranges is the integral body that light material is made, so that the deadweight decrease of body of wall makes it when opposing earthquake disaster stress, be actually in trussed construction load mode and resist earthquake stress, its anti-seismic performance is better than traditional body of wall greatly, and this body of wall is easy to assembly, construction is simple, is fit to various load bearing walls or nonbearing wall.

Feature of the present invention is that also the metope hardboard is rectangle or square.Like this, can satisfy the needs of various different bodies of wall.

Feature of the present invention also is to be provided with at least one drawknot pier between two corresponding metope hardboards that arrange.Like this, can be firmly fixing by two metope hardboards that the drawknot pier will be oppositely arranged, the heat preservation structural component of its middle sandwiched can not become flexible.

Feature of the present invention is that also described drawknot pier is arranged on the center of metope hardboard.Like this, when stating the drawknot pier and be arranged on the center of metope hardboard, can in fixing metope hardboard, also heat preservation structural component and metope hardboard be fixed.

Feature of the present invention also is to be provided with four drawknot piers between two corresponding metope hardboards that arrange, and is arranged on axisymmetricly respectively the corner centre all around of metope hardboard.Like this, four drawknot piers be arranged on axisymmetricly respectively the metope hardboard around the corner centre can in fixing metope hardboard, also heat preservation structural component and metope hardboard be fixed.

Feature of the present invention also is to be provided with at least four drawknot piers between two corresponding metope hardboards that arrange, and is separately positioned on four rotation angle positions of metope hardboard.Like this, the drawknot pier is separately positioned on four rotation angle positions of metope hardboard and two metope hardboards that are oppositely arranged firmly can be fixed, and simultaneously, the heat preservation structural component between the metope hardboard is tightly waled, and it can be shifted in transportation and use procedure.

Feature of the present invention is that also described center at the metope hardboard is provided with the drawknot pier.Like this, can in fixing metope hardboard, also heat preservation structural component and metope hardboard be fixed, a drawknot pier only is set more saves material.

Feature of the present invention is that also described heat preservation structural component is the integrated poured integrated member that forms of gypsum.Like this, the heat preservation structural component good integrity is difficult for fragmentation, thereby can cause the heat insulating material particle to be sneaked in the Cast-in-place concrete in transportation and use procedure, can not reduce the intensity of girt strip or rib post.

Feature of the present invention is that also described heat preservation structural component is the integrated poured integrated member that forms of ardealite.Like this, adopt ardealite as the making material of heat preservation structural component, can consume in a large number industrial residue phosphogypsum, solved waste residue and processed problem, be conducive to protection of the environment.

Feature of the present invention is that also described heat preservation structural component and cast-in-situ reinforced concrete beam or the contacted face of cast-in-situ reinforced concrete post are provided with waterproof film.Like this, when heat preservation module is applied in the Cast-in-place concrete body of wall, in the process of cast-in-place girt strip rib post, the water in the Cast-in-place concrete can not penetrate in the heat preservation structural component and go, thereby can not cause the damage of heat preservation structural component, also can not cause the dehydration of Cast-in-place concrete and the situation that causes Cast-in-place concrete girt strip, rib post to burn out occurs.

Feature of the present invention is that also described waterproof film is adhesive tape.Like this, when adopting adhesive tape as waterproof film, adhesive tape can stick on the heat preservation module very easily, has made things convenient for and has manufactured.

Feature of the present invention is that also the metope hardboard is the concrete plate.Like this, when the metope hardboard was the concrete plate, the metope hardboard can also can be used as wall face directly as metope, can directly do at the metope hardboard and decorate or rendering layer.

Feature of the present invention is that also the metope hardboard is reinforced concrete slab.Like this, when the metope hardboard was reinforced concrete slab, the metope hardboard can also can be used as wall face directly as metope, can directly do at the metope hardboard and decorate or rendering layer, and simultaneously, the metope hardboard also can the participation structure load.

Feature of the present invention is that also the metope hardboard forms integral body by drawknot pier drawknot.Like this, the metope hardboard can not relatively move between the metope hardboard after forming integral body by drawknot pier drawknot, simultaneously, heat preservation structural component can be clamped between the two securely.

Feature of the present invention also is the integrated member that described heat preservation structural component forms for the cast of foaming ardealite.Like this, adopt ardealite as the making material of heat preservation structural component, can consume in a large number industrial residue phosphogypsum, solved waste residue and processed problem, be conducive to protection of the environment, simultaneously, after the ardealite foaming, greatly reduce the weight of heat preservation module, make it lighter.

Feature of the present invention also is to be provided with between metope hardboard and the heat preservation structural component obvolvent tooth.Like this, the obvolvent tooth is firmly embraced heat preservation structural component fixing, makes it be difficult for loosening the damage in transportation and use procedure.

Feature of the present invention is that also metope hardboard edge is provided with girt strip or rib column holder.Like this, in the heat-preserving wall casting process, by installing of girt strip or rib column holder, can guarantee fully that the size of girt strip or rib post is accurate, can fully guarantee pouring quality.

Feature of the present invention is that also girt strip or rib column holder are that metope hardboard body protrusion forms.Like this, protrude to consist of support by metope hardboard itself, conveniently manufacture, because itself and metope hardboard are integrated itself, so that its intensity is high, be not easy damage.

Feature of the present invention is that also girt strip or rib column holder are the steel support.Like this, when girt strip or rib column holder were the steel support, the steel support was easy to install, made simply, and the Support Position can be adjusted, and is conducive to reduce the difficulty of construction of heat-preserving wall, improves efficiency of construction.

Feature of the present invention is that also the area of metope hardboard Area Ratio heat preservation structural component is large, and the metope hardboard is chosen the shaping mould that consists of girt strip or rib post outward.Like this, in the heat-preserving wall casting process, do not need that girt strip rib column template is installed and the metope template can be built Cast-in-place concrete, saved a large amount of construction formworks, in a large number reducing construction cost.

(4) description of drawings

Fig. 1 is the structural representation of embodiments of the invention 1.

Fig. 2 is the structural representation of embodiments of the invention 2.

Fig. 3 is the structural representation of embodiments of the invention 3.

Fig. 4 is the structural representation of embodiments of the invention 4.

Fig. 5 is the structural representation of embodiments of the invention 5.

Fig. 6 is the structural representation of embodiments of the invention 6.

Fig. 7 is the structural representation of embodiments of the invention 7.

Fig. 8 is the structural representation of embodiments of the invention 8.

Fig. 9 is the structural representation of embodiments of the invention 9.

Figure 10 is the structural representation of embodiments of the invention 10.

(5) embodiment

The invention will be further described below in conjunction with drawings and Examples.

The present invention as shown in drawings, the cast-in-situ reinforced concrete insulated wall includes heat preservation module 1, heat preservation module 1 alternately, heat preservation module 1 comprises two corresponding metope hardboard 2 and heat preservation structural components 3 that arrange, and heat preservation structural component 3 is arranged between two metope hardboards 2, clamps heat preservation structural component 3 by two metope hardboards 2 and forms heat preservation module 1, wherein, heat preservation structural component 3 is integrated member, and sound insulation cavity 4 is arranged in heat preservation structural component 3, is cast-in-situ reinforced concrete girt strip 5 or rib post 6 between the heat preservation module 1.Fig. 1 is the structural representation of embodiments of the invention 1, and 1 is heat preservation module, and 2 is the metope hardboard, and 3 is heat preservation structural component, and 4 for the sound insulation cavity, and 5 is the cast-in-situ reinforced concrete girt strip, and 6 is cast-in-situ reinforced concrete rib post, below in each accompanying drawing, number identically, its explanation is identical.Shown in Figure 1, the cast-in-situ reinforced concrete insulated wall includes heat preservation module 1, a plurality of heat preservation modules 1 alternately, heat preservation module 1 comprises two corresponding metope hardboard 2 and heat preservation structural components 3 that arrange, heat preservation structural component 3 is arranged between two metope hardboards 2, clamp heat preservation structural component 3 by two metope hardboards 2 and form heat preservation module 1, wherein, heat preservation structural component 3 is integrated member, sound insulation cavity 4 is arranged in heat preservation structural component 3, be cast-in-situ reinforced concrete girt strip 5 and cast-in-situ reinforced concrete rib post 6 between the heat preservation module 1, wherein, sound insulation cavity 4 is horizontal circular hole.

Feature of the present invention is that also metope hardboard 2 is rectangle or square.As shown in Figure 2, its metope hardboard 2 is square, and described sound insulation cavity 4 is horizontal square hole.

Feature of the present invention also is to be provided with at least one drawknot pier 7 between two corresponding metope hardboards 2 that arrange.As shown in Figure 2, be provided with the square drawknot pier 7 of a level between the metope hardboard 2 of two corresponding settings.

Feature of the present invention is that also described drawknot pier 7 is arranged on the center of metope hardboard 2.As shown in Figure 2, drawknot pier 7 is arranged on the center of metope hardboard 2.

Feature of the present invention also is to be provided with four drawknot piers 7 between two corresponding metope hardboards 2 that arrange, and is arranged on axisymmetricly respectively the corner centre all around of metope hardboard 2.As shown in Figure 3, be provided with five drawknot piers 7 between two corresponding metope hardboards 2 that arrange, four corner centres all around that are arranged on axisymmetricly respectively metope hardboard 2 are wherein arranged.

Feature of the present invention also is to be provided with at least four drawknot piers 7 between two corresponding metope hardboards 2 that arrange, and is separately positioned on four rotation angle positions of metope hardboard 2.As shown in Figure 4, be provided with four drawknot piers 7 between two corresponding metope hardboards 2 that arrange, be separately positioned on four rotation angle positions of metope hardboard 2.

Feature of the present invention is that also described center at metope hardboard 2 is provided with drawknot pier 7.As shown in Figure 5, the center of metope hardboard 2 is provided with drawknot pier 7.

Feature of the present invention is that also described heat preservation structural component 3 is the integrated poured integrated member that forms of gypsum.Such as Fig. 1, Fig. 2, Fig. 3, shown in Figure 4, described heat preservation structural component 3 is the integrated poured integrated member that forms of gypsum.

Feature of the present invention is that also described heat preservation structural component 3 is the integrated poured integrated member that forms of ardealite.As shown in Figure 5, heat preservation structural component 3 is the integrated poured integrated member that forms of ardealite.Similarly, heat preservation structural component 3 also can form for foaming plaster or foaming ardealite monobloc cast.

Feature of the present invention is that also described heat preservation structural component 3 and cast-in-situ reinforced concrete beam 5 or cast-in-situ reinforced concrete post 6 contacted faces are provided with waterproof film 8.As shown in Figure 6, described heat preservation structural component 3 is provided with waterproof film 8 with cast-in-situ reinforced concrete beam 5 and cast-in-situ reinforced concrete post 6 contacted faces.

Feature of the present invention is that also described waterproof film 8 is adhesive tape.As shown in Figure 6, described heat preservation structural component 3 is provided with waterproof film 8 with cast-in-situ reinforced concrete beam 5 and cast-in-situ reinforced concrete post 6 contacted faces.Described waterproof film 8 is adhesive tape, and wherein the metope hardboard is reinforced concrete slab.

Feature of the present invention also metope hardboard 2 is the concrete plate.Such as Fig. 1, Fig. 2, Fig. 3, shown in Figure 4, the metope hardboard is the concrete plate.

Feature of the present invention is that also metope hardboard 2 is reinforced concrete slab.As shown in Figure 6, metope hardboard 2 is reinforced concrete slab.

Feature of the present invention is that also metope hardboard 2 forms integral body by drawknot pier 7 drawknots.Such as Fig. 2, Fig. 3, shown in Figure 4, metope hardboard 2 forms integral body by drawknot pier 7 drawknots.

Feature of the present invention also is the integrated member that described heat preservation structural component 3 forms for the cast of foaming ardealite.As shown in Figure 7, heat preservation structural component 3 is poured into a mould the integrated member that forms for the foaming ardealite.

Feature of the present invention also is to be provided with obvolvent tooth 9 between metope hardboard 2 and the heat preservation structural component 3.As shown in Figure 7, be provided with obvolvent tooth 9 between metope hardboard 2 and the heat preservation structural component 3.

Feature of the present invention also is to be provided with at metope hardboard 2 edges girt strip 5 or rib post 6 supports 10.As shown in Figure 8, be provided with girt strip 5 and rib post 6 supports 10 at metope hardboard 2 edges.

Feature of the present invention is that also girt strip 5 or rib post 6 supports 10 form for metope hardboard 2 bodies protrude.As shown in Figure 9, girt strip 5 and rib post 6 supports 10 form for metope hardboard 2 bodies protrude.

Another technical scheme of the present invention is that on the basis of technique scheme the metope hardboard 2 that is oppositely arranged is bolted to connection, and as shown in figure 10, the metope hardboard 2 that is oppositely arranged is bolted to connection.

Claims (10)

1. cast-in-situ reinforced concrete insulated wall, it is characterized in that including heat preservation module (1), heat preservation module (1) alternately, heat preservation module (1) comprises two corresponding metope hardboard (2) and heat preservation structural components (3) that arrange, heat preservation structural component (3) is arranged between two metope hardboards (2), clamp heat preservation structural component (3) by two metope hardboards (2) and form heat preservation module (1), wherein, heat preservation structural component (3) is integrated member, sound insulation cavity (4) is arranged in heat preservation structural component (3), is cast-in-situ reinforced concrete girt strip (5) or rib post (6) between the heat preservation module (1).

2. a kind of cast-in-situ reinforced concrete insulated wall according to claim 1 is characterized in that metope hardboard (2) is rectangle or square.

3. a kind of cast-in-situ reinforced concrete insulated wall according to claim 1 is characterized in that being provided with at least one drawknot pier (7) between two corresponding metope hardboards (2) that arrange.

4. a kind of cast-in-situ reinforced concrete insulated wall according to claim 3 is characterized in that described drawknot pier (7) is arranged on the center of metope hardboard (2).

5. a kind of cast-in-situ reinforced concrete insulated wall according to claim 3, it is characterized in that being provided with four drawknot piers (7) between two corresponding metope hardboards (2) that arrange, be arranged on axisymmetricly respectively the corner centre all around of metope hardboard (2).

6. a kind of cast-in-situ reinforced concrete insulated wall according to claim 3 is characterized in that being provided with at least four drawknot piers (7) between two corresponding metope hardboards (2) that arrange, and is separately positioned on four rotation angle positions of metope hardboard (2).

7. a kind of cast-in-situ reinforced concrete insulated wall according to claim 6 is characterized in that described center at metope hardboard (2) is provided with drawknot pier (7).

8. the described a kind of cast-in-situ reinforced concrete insulated wall of arbitrary claim in 7 according to claim 1 is characterized in that described heat preservation structural component (3) is the integrated poured integrated member that forms of gypsum.

9. a kind of cast-in-situ reinforced concrete insulated wall according to claim 8 is characterized in that described heat preservation structural component (3) is the integrated poured integrated member that forms of ardealite.

10. the described a kind of cast-in-situ reinforced concrete insulated wall of arbitrary claim in 7 according to claim 1 is characterized in that described heat preservation structural component (3) and cast-in-situ reinforced concrete beam (5) or the contacted face of cast-in-situ reinforced concrete post (6) are provided with waterproof film (8); Perhaps described waterproof film (8) is adhesive tape; Perhaps metope hardboard (2) is the concrete plate; Perhaps metope hardboard (2) is reinforced concrete slab; Perhaps metope hardboard (2) forms integral body by drawknot pier (7) drawknot; Perhaps described heat preservation structural component (3) is poured into a mould the integrated member that forms for the foaming ardealite; Perhaps be provided with obvolvent tooth (9) between metope hardboard (2) and the heat preservation structural component (3); Perhaps metope hardboard (2) edge is provided with girt strip (5) or rib post (6) support (10); Perhaps girt strip (5) or rib post (6) support (10) form for metope hardboard (2) body protrudes; Perhaps girt strip (5) or rib post (6) support (10) are the steel support; The metope hardboard (2) that perhaps is oppositely arranged is bolted.

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