CN215948559U - Three-dimensional reinforced composite material mounting type wall - Google Patents

Abstract

The utility model relates to the technical field of building materials, in particular to a three-dimensional reinforced composite material mounting type wall body, which solves the problems of large construction difficulty, poor safety, heavy beam bearing capacity and large foundation load caused by heavy weight of the existing mounting type wall body, and adopts the following scheme: the wall panel comprises two side face wall panels, the two spaced wall panels are connected through a steel structural member, a first mixture containing cement is filled between the two wall panels, the wall panels are integrated plates formed by combining and solidifying a second mixture containing cement and a three-dimensional grid fabric, the three-dimensional grid fabric comprises an outer layer fabric tissue, an inner layer fabric tissue and supporting fabric tissues for spacing and supporting the outer layer fabric tissue and the inner layer fabric tissue, the thickness of the wall panel is 10-20 mm, the first mixture is a mixture containing cement and polyphenyl granules, the second mixture is a mixture containing cement, sand and water, and the weight of the wall body can be reduced by about 100 kilograms per square meter.

Description

Three-dimensional reinforced composite material mounting type wall

Technical Field

The utility model relates to the technical field of building materials, in particular to a three-dimensional reinforced composite material mounting type wall.

Background

The existing installation type wall body generally comprises an inner cement plate and an outer cement plate which are parallel, the cement plates are connected by a steel structural member between the cement plates, a mixture of cement, polyphenyl granules and water is filled between the cement plates, the mixture is solidified to form the wall body, and the internal steel structural member is also used for connecting the wall body with other building components and building bodies.

The cement boards on two sides of the existing installation type wall body are formed by mixing and prefabricating cement and short fibers, and in order to meet the basic strength requirements of subsequent filling and ensuring the installation and use of the wall body, the thickness of the cement boards generally needs to reach 40mm, so that only the cement boards on two sides of the wall body on each flat side reach about 176 kg, and the overweight wall body increases the construction difficulty and increases the bearing of a beam body and the load of a foundation.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the three-dimensional reinforced composite material mounting type wall body solves the problems that the existing mounting type wall body is large in construction difficulty and poor in safety due to large weight, large in beam bearing weight and large in foundation load.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a three-dimensional reinforced composite material installation formula wall body, has the shingle nail of both sides face, and two shingle nails of spaced are connected by steel structure, and it has the first mixture that contains cement to fill between two shingle nails, the shingle nail is the integral type plate body that second mixture and the three-dimensional net fabric that contains cement combine to solidify and form.

Particularly, the three-dimensional grid fabric has the anti-corrosion performance and is the glass fiber three-dimensional grid fabric.

Specifically, the three-dimensional grid fabric comprises an outer layer fabric weave, an inner layer fabric weave and a supporting fabric weave for supporting the outer layer fabric weave and the inner layer fabric weave at intervals, and planes of the outer layer fabric weave and the inner layer fabric weave are respectively parallel to the wall surfaces close to the planes.

The three-dimensional fabric has the performance far higher than that of short fibers, so that the thickness of the wall panel can be 10-20 mm in design.

Specifically, the first mixture is a mixture comprising cement and polyphenyl particles.

Specifically, the second mixture is a mixture comprising cement, sand, and water.

Specifically, the steel structural part comprises a channel steel with a C-shaped cross section and connecting rods which are positioned on two sides of the channel steel and are used for connecting the channel steel with the wall panel.

The utility model has the beneficial effects that: the wall panel of the wall body is formed by combining the three-dimensional grid fabric and the cement mixture, the thicknesses of the wall panels on two sides are only about 15mm respectively, the weight of each square meter of the wall body is reduced by about 100 kg compared with the original wall panel with the thickness of 40mm, and the reduced thickness is replaced by lighter polyphenyl particles and cement fillers between the wall panels, so that the wall body is convenient and safe to construct, and the building load is reduced.

Drawings

FIG. 1 is a schematic structural view of a three-dimensional mesh fabric according to the present invention;

fig. 2 is a schematic cross-sectional view of the present invention.

In the figure: 1. the wall panel comprises 2 parts of a wall panel body, a steel structural part, 3 parts of a first mixture, 4 parts of a second mixture, 5 parts of a three-dimensional grid fabric, 5-1 parts of an outer layer fabric tissue, 5-2 parts of an inner layer fabric tissue, 5-3 parts of a supporting fabric tissue.

Detailed Description

The following describes technical solutions in embodiments of the present invention in detail with reference to the accompanying drawings of the present specification.

Fig. 1 is a schematic view showing a three-dimensional mesh fabric alone, the three-dimensional mesh fabric may be like a fabric structure disclosed in chinese patent publication No. CN102797334B, the three-dimensional mesh fabric 5 has an outer layer fabric 5-1, an inner layer fabric 5-2 and a supporting fabric 5-3 for supporting the outer and inner layer fabrics at intervals, and the structures of the outer layer fabric 5-1 and the inner layer fabric 5-2 may be the same or different.

Fig. 2 shows a three-dimensional reinforced composite material mounting type wall, which comprises two side wall panels 1, wherein the two wall panels 1 are connected by a steel structural member 2 at intervals, a first mixture 3 containing cement and polyphenyl particles is filled between the two wall panels 1, and the wall panels 1 are integrated plates formed by combining and solidifying a second mixture 4 containing cement, sand and water with a three-dimensional grid fabric 5; the three-dimensional grid fabric 5 is a glass fiber three-dimensional grid fabric; the thickness B of the wall panel 1 is about 15 mm; the steel structure member 2 comprises a channel steel with a C-shaped cross section and connecting rods which are positioned at two sides of the channel steel and are used for connecting the channel steel with the wall panel.

The processing process of the wall body of the utility model can be as follows: firstly, manufacturing a wall panel 1, placing a three-dimensional grid fabric 5 with the size similar to that of a mold cavity into the mold cavity, placing a second mixture 4 of cement, sand and water into the mold cavity, immersing the three-dimensional grid fabric 5 in the mixture, solidifying and demolding to form the wall panel 1, and adding an embedded part in a steel structural member 2 into the wall panel 1 as required according to the design requirement of the steel structural member 2; and then manufacturing a wall body, connecting the two wall panels 1 by using a plurality of steel structural members 2, pouring a mixture containing cement, polyphenyl granules and water between the two wall panels 1 by combining a mould, and demoulding after solidification to manufacture the wall body for the building.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the utility model.

Claims (4)

1. The utility model provides a three-dimensional reinforced composite material installation formula wall body, has shingle nail (1) of both sides face, and two shingle nails (1) of spaced are connected by steel construction spare (2), and it has first mixture (3), characterized by to fill between two shingle nails (1): the wall panel (1) is an integrated plate body formed by combining and solidifying a second mixture (4) and a three-dimensional grid fabric (5); the three-dimensional grid fabric (5) is provided with an outer layer fabric weave (5-1), an inner layer fabric weave (5-2) and a supporting fabric weave (5-3) for spacing and supporting the outer layer fabric weave and the inner layer fabric weave.

2. The three-dimensional reinforced composite installation wall of claim 1, wherein: the three-dimensional grid fabric (5) is a glass fiber three-dimensional grid fabric.

3. The three-dimensional reinforced composite installation wall of claim 1, wherein: the thickness of the wall panel (1) is 10-20 mm.

4. The three-dimensional reinforced composite installation wall of claim 1, wherein: the steel structural member (2) comprises channel steel with a C-shaped cross section and connecting rods which are positioned on two sides of the channel steel and are used for connecting the channel steel with the wall panel.

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