CN114892895A - Heat-preservation anti-cracking integrated roof and construction method thereof - Google Patents

Abstract

The invention discloses a heat-preservation anti-cracking integrated roof and a construction method thereof, wherein the heat-preservation anti-cracking integrated roof comprises more than two concrete structure layers and a waterproof layer above the concrete structure layers, wherein the concrete structure layers comprise a bottom layer and a surface layer which are made of concrete materials, a cross-shaped structural framework layer which is positioned between the bottom layer and the surface layer, and a foam concrete layer which is positioned between the structural framework layers and is made of foam cement; the bottom layer, the surface layer and the structural framework layer of the concrete structure layer are provided with an integrated steel bar net rack; the structural skeleton layers of the adjacent concrete structure layers are staggered with each other, and the cross point is positioned at the center of the lower foam concrete layer. The roof structure has high strength and long service life, avoids using organic gap materials during block pouring, prolongs the maintenance period, fills foam concrete in the concrete structure framework, plays roles in buffering, damping and heat preservation, and realizes light weight and heat preservation and insulation while reducing concrete cracking.

Description

Heat-preservation anti-cracking integrated roof and construction method thereof

Technical Field

The invention belongs to the technical field of concrete material processing, and particularly relates to a heat-insulation anti-cracking integrated roof and a construction method thereof.

Background

The concrete is one of the most important civil engineering materials in the present generation, and is an artificial stone material prepared by mixing a cementing material, granular aggregate (also called aggregate), water, an additive and an admixture which are added if necessary according to a certain proportion, uniformly stirring, densely forming, curing and hardening, and has the characteristics of high strength and high hardness. At present, concrete materials are widely applied to the technical fields of buildings, road construction and the like.

At present, when the construction area is great, adopt integral integration pouring construction, because under the condition of concrete expend with heat and contract with cold, take place deformation and produce fracture and crack easily, influence its service function and life-span, consequently adopt the method of piecemeal pouring usually when construction area is great, leave the space between piece and the piece, be favorable to the dispersion and the buffering of power, avoid producing the crack on the concrete slab, nevertheless because the easy ageing or the insecure reason of combining with the concrete of joint filling material, the easy infiltration phenomenon that takes place in space department, as roof material often takes place the water leakage problem easily, influence service function and life.

Disclosure of Invention

Aiming at the problems that concrete is easy to crack or water seepage easily occurs between blocks in the prior art, the invention provides the heat-insulation and anti-cracking integrated roof and the construction method thereof.

A heat-insulating anti-cracking integrated roof comprises more than two concrete structure layers and a waterproof layer above the concrete structure layers; the concrete structure layer is composed of a bottom layer, a surface layer and a crisscross structural framework layer, wherein the bottom layer and the surface layer are made of concrete materials, the structural framework layer is positioned between the bottom layer and the surface layer and is crossed with the bottom layer and the surface layer, and a foam concrete layer is positioned between the structural framework layers and is made of foam cement; the bottom layer, the surface layer and the structural framework layer of the concrete structure layer are provided with an integrated steel bar net rack; the structural skeleton layers of the adjacent concrete structure layers are staggered with each other, and the cross point is positioned at the center of the lower foam concrete layer.

Further, the surface layer of the lower layer concrete is used as the bottom layer of the upper layer concrete.

Further, the thickness of the bottom layer, the surface layer and the structural framework layer of the concrete structural layer is 20-40mm, the height of the structural framework layer is 80-150mm, and the gap is 500-1000 mm.

Furthermore, the concrete is doped with glass fiber.

The construction method of the heat-insulation anti-cracking integrated roof comprises the following steps:

(1) respectively manufacturing a bottom layer reinforcing steel bar net rack, a surface layer reinforcing steel bar net rack and a structural framework layer reinforcing steel bar net rack according to the sizes of the bottom layer, the surface layer and the structural framework layer of the concrete structural layer;

(2) placing a bottom layer reinforcing steel bar net rack and a structural framework layer reinforcing steel bar net rack and a mould according to the size of the construction area, fixing the bottom layer reinforcing steel bar net rack and the structural framework layer reinforcing steel bar net rack and the mould into a whole, pouring concrete, and curing to form a bottom layer and a structural framework layer of a concrete structural layer;

(3) pouring foamed cement in gaps of the structural framework layers, foaming and curing to form a foamed concrete layer;

(4) placing a surface layer reinforcing steel bar net rack and a mould on the foam concrete layer, fixing the surface layer reinforcing steel bar net rack and the structural framework layer reinforcing steel bar net rack into a whole, pouring concrete, and curing to form a surface layer of a concrete structure layer;

(5) the surface layer of the first concrete structure layer is used as the bottom layer of the second concrete structure layer, the steps are repeated to manufacture the second concrete structure layer, and the cross-shaped intersection of the structural framework layer of the upper layer is positioned at the center of the foamed concrete layer of the lower layer;

(6) and laying a waterproof layer for waterproofing.

The principle of the invention is as follows: the bottom layer, the surface layer and the structure framework layer of the concrete structure layer are of an integral structure, and foaming cement is filled between the bottom layer, the surface layer and the structure framework layer of the concrete structure layer, and when the concrete structure layer expands with heat and contracts with cold, because the foaming cement is provided with micropores, the deformation caused by expansion with heat and contraction with cold can be offset, and the bulge and the crack generated when the concrete structure expands with heat and contracts with cold are avoided.

Advantageous effects

(1) According to the roof structure, the bottom layer, the surface layer and the structural framework layer of the concrete structure layer are of an integral structure, and the roof structure has the characteristic of high structural strength;

(2) the materials of the invention are all inorganic materials, have long service life, avoid using organic gap materials when the piecemeal pouring, has lengthened the maintenance cycle of the roof;

(3) the foam concrete is filled in the concrete structure framework, the density of the foam concrete is small, the internal pores play roles in buffering, shock absorption and heat preservation, and the concrete is lightened and insulated while the cracking of the concrete is reduced.

Drawings

FIG. 1 is a schematic sectional view of a heat-insulating and anti-cracking integrated roof in a front view;

FIG. 2 is a schematic sectional view of a top view of the heat-insulating and anti-cracking integrated roof;

wherein, 1 is the bottom, 2 is the foam concrete layer, 3 surface courses, 4 structural framework layers, 5 waterproof layers.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

Fig. 1 is a schematic sectional view of a front view structure of the heat-insulation and anti-cracking integrated roof, and fig. 2 is a schematic sectional view of a top view structure of the heat-insulation and anti-cracking integrated roof; wherein, 1 is the bottom, 2 is the foam concrete layer, 3 is the surface course, 4 is the structural framework layer, 5 is the waterproof layer.

In the invention, the heat-preservation and anti-cracking integrated roof comprises two concrete structure layers and a waterproof layer 5 above the concrete structure layers;

the concrete structure layer is a bottom layer 1 made of concrete materials, a surface layer 3, a cross-shaped structural framework layer 4 positioned between the bottom layer and the surface layer, and a foam concrete layer 2 made of foam cement positioned between the structural framework layers; the bottom layer 1, the surface layer 3 and the structural framework layer 4 of the concrete structural layer are provided with an integrated steel bar net rack;

the structural skeleton layers 4 of the adjacent concrete structure layers are staggered with each other, and the cross point is positioned at the center of the lower foam concrete layer 2.

Reference will now be made to the embodiments illustrated in the drawings.

Example 1

(1) Respectively manufacturing a bottom layer reinforcing steel bar net rack, a surface layer reinforcing steel bar net rack and a structural framework layer reinforcing steel bar net rack according to the sizes of a bottom layer 1, a surface layer 3 and a structural framework layer 4 of a concrete structural layer, wherein the length multiplied by the width of the bottom layer reinforcing steel bar net rack is (12 multiplied by 10 m), the height is 30mm, the surface layer reinforcing steel bar net rack and the bottom layer reinforcing steel bar net rack are the same in structure, the structural framework layer reinforcing steel bar net racks are crossed in a cross shape, the size of the cross section is a square with the size of 30 multiplied by 30mm, the height is 120mm, and the gap is 800 mm;

(2) cleaning and wetting the surface of a roof (12 multiplied by 10 m) of a blank house, placing a bottom layer reinforcing steel bar net rack and a structural skeleton layer reinforcing steel bar net rack, fixing the bottom layer reinforcing steel bar net rack and the structural skeleton layer reinforcing steel bar net rack into a whole, fixing a mold around the bottom layer reinforcing steel bar net rack and the structural skeleton layer reinforcing steel bar net rack, pouring mixed concrete (stones, sand, cement and glass fiber) into the fixed bottom layer reinforcing steel bar net rack and the structural skeleton layer reinforcing steel bar net rack, and curing to form a bottom layer 1 and a structural skeleton layer 4 of a concrete structure layer;

(3) mixing cement and a foaming material to form a foaming cement material, pouring foaming cement (consisting of the foaming material and the cement and mixed at present when in use) into a gap formed by the bottom layer 1 of the cured concrete structure layer and the structural framework layer 4, foaming and curing to form a foam concrete layer 2, wherein the foam concrete has low heat conductivity coefficient and obvious heat insulation effect;

(4) placing a surface layer reinforcing steel bar net rack and a mould on the foamed and cured foam concrete layer 2, fixing the foamed and cured foam concrete layer and the mould together, pouring mixed concrete (stones, sand, cement and glass fiber), curing and curing to form a surface layer 3 of a concrete structure layer;

(5) the surface layer 3 of the first layer of concrete structure layer is used as the bottom layer 1 of the second layer of concrete structure layer, the steps are repeated to manufacture the second layer of concrete structure layer, and the cross-shaped intersection of the upper layer of structure framework layer 4 is positioned at the center position of the lower layer of foam concrete layer 2;

(6) and paving the polyethylene polypropylene fabric before the surface layer 3 of the second concrete structure layer is not cured for water resistance.

The roof constructed by the construction method is integrally processed, no crack appears within 2 years after the roof is constructed, no water leakage and water seepage occur, and the structural integrity is good. The problem of adopt the piecemeal to pour when having overcome the construction area great is overcome, has prolonged service function and life-span, is favorable to popularizing and applying.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. A heat-preservation anti-cracking integrated roof is characterized by comprising more than two concrete structure layers and a waterproof layer above the concrete structure layers;

the concrete structure layer is composed of a bottom layer, a surface layer and a crisscross structural framework layer, wherein the bottom layer and the surface layer are made of concrete materials, the structural framework layer is positioned between the bottom layer and the surface layer and is crossed with the bottom layer and the surface layer, and a foam concrete layer is positioned between the structural framework layers and is made of foam cement; the bottom layer, the surface layer and the structural framework layer of the concrete structure layer are provided with an integrated steel bar net rack;

the structural skeleton layers of the adjacent concrete structure layers are staggered with each other, and the cross point is positioned at the center of the lower foam concrete layer.

2. The thermal insulating and crack preventing integral roof as recited in claim 1, wherein the lower layer concrete surface layer is used as the bottom layer of the upper layer concrete.

3. The heat-insulating and anti-cracking integrated roof as claimed in claim 1, wherein the thickness of the bottom layer, the surface layer and the structural framework layer of the concrete structural layer is 20-40mm, the height of the structural framework layer is 80-150mm, and the gap is 500-1000 mm.

4. The insulating and crack-preventing integral roof as recited in claim 1, wherein said concrete is doped with glass fiber.

5. The construction method of the heat-insulation and anti-cracking integrated roof as claimed in any one of claims 1 to 4, characterized by comprising the following steps:

(1) respectively manufacturing a bottom layer reinforcing steel bar net rack, a surface layer reinforcing steel bar net rack and a structural framework layer reinforcing steel bar net rack according to the sizes of the bottom layer, the surface layer and the structural framework layer of the concrete structural layer;

(2) placing a bottom layer reinforcing steel bar net rack and a structural framework layer reinforcing steel bar net rack and a mould according to the size of the construction area, fixing the bottom layer reinforcing steel bar net rack and the structural framework layer reinforcing steel bar net rack and the mould into a whole, pouring concrete, and curing to form a bottom layer and a structural framework layer of a concrete structural layer;

(3) pouring foamed cement in gaps of the structural framework layers, foaming and curing to form a foamed concrete layer;

(4) placing a surface layer reinforcing steel bar net rack and a mould on the foam concrete layer, fixing the surface layer reinforcing steel bar net rack and the structural framework layer reinforcing steel bar net rack into a whole, pouring concrete, and curing to form a surface layer of a concrete structure layer;

(5) the surface layer of the first concrete structure layer is used as the bottom layer of the second concrete structure layer, the steps are repeated to manufacture the second concrete structure layer, and the cross-shaped intersection of the structural framework layer of the upper layer is positioned at the center of the foamed concrete layer of the lower layer;

(6) and laying a waterproof layer.

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