CN105667005A - Production method of light composite board for floor separation and roof - Google Patents

Abstract

The invention discloses a production method of a light composite board for floor separation and a roof. The upper surface of a reinforced concrete bottom plate is coated with a structural adhesive, galvanized steel wire netting is laid on the reinforced concrete bottom plate, an SIP core board is arranged on the galvanized steel wire netting, and the reinforced concrete bottom plate, the galvanized steel wire netting and the SIP core board are aligned in the longitudinal direction; the upper surface of the SIP core board is coated with the structural adhesive, galvanized steel wire netting is laid on the SIP core board, a reinforced concrete roof board is stacked on the galvanized steel wire netting, and the SIP core board, the galvanized steel wire netting and the reinforced concrete roof board are aligned in the longitudinal direction; compaction is performed under self-weight, and all the parts are bonded and composited to form a whole after the structural adhesive is naturally solidified. According to the produced light composite board, the structure self-weight is reduced under the condition that the bearing capacity of the structure is guaranteed, and impact load which is probably caused to a lower structure under a collapse work condition is reduced.

Description

Production method for floor separation and the light composite board of roofing

Technical field

The present invention relates to building structure, particularly relate to floor and roof boarding.

Background technology

Floor is a kind of supporting member separated for floor, and building vertical direction is divided into some layers by it, and the vertical load such as people and furniture and floor deadweight are passed to basis by body of wall, beam or post. Several forms such as the floor that can be divided into wood floor, brick arch floor, reinforced concrete floor and steel liner plate load-bearing by its material used. Reinforced concrete floor can be divided into in-situ reinforced concrete slab and the big class of assembled steel bar concrete floor two by construction method. Assembled steel bar concrete floor, adopts concrete and rebar jointly to make, firm, and durable, rigidity is big, and intensity is high, and fire protecting performance is good, and current application is commonplace. Depolarization minority is beyond solid floor, and the overwhelming majority adopts cassette ceiling, has square hole, elliptical aperture and circular hole etc. by the shape in its hole. Although reinforced concrete hollow floor is hollow, but quality is still relatively big, and when phenomenon occurs locally to collapse structure, the impact load caused is huge, it is possible to cause the generation of continuous collapse.

Traditional roof structure, is generally made up of armoured concrete slab, screed-coat, vapor barrier layer, heat-insulation layer, screed-coat, waterproof layer etc., and its deficiency is, each layer gradation is constructed, and working procedure is fairly cumbersome, and coefficient of heat insulation is low, poor thermal insulation property, and roof system is from great etc. In order to overcome traditional roof system not enough, occur in that energy-saving roof boarding, the such as patent No. 91233355.3 energy-saving roof boarding, it is made up of three-decker, the heat-insulation layer composition of armored concrete bottom plate, armored concrete surface layer and centre, connecting with framework of steel reinforcement between armored concrete bottom plate, armored concrete surface layer, heat-insulation layer is rock cotton board or cement expanded perlite material. Although the advantage with heat-insulating and energy-saving, but connect fairly cumbersome with framework of steel reinforcement when producing, add that rock cotton board or cement expanded perlite are Conventional insulation decades ago, have that making molding weak effect, efficiency is low, contaminated environment, a deficiency such as less light. Along with the development of scientific and technological progress, some novel and portable heat preservation plate materials constantly occur, some structural adhesives are developed application, are therefore the environmental protection and energy saving building materials of development of new, it is provided that new thinking.

Along with the continuous propelling of China's reform and opening-up, the contradiction between economic development and environment protection, resource consumption is further prominent, and this seriously constrains the paces that China develops further. Reduce energy resource consumption, reduce greenhouse gas emission, preserve the ecological environment, develop a circular economy, walk sustainable development path, also increasingly become the common recognition of people. Therefore, development of new environmental protection and energy saving building materials, become the inexorable trend of construction industry development.

Summary of the invention

The technical problem to be solved, is to provide the production method of a kind of light composite board separated with roofing for floor.

A kind of production method of the light composite board separated for floor with roofing, it is characterized in that: described light composite board is to be bondd by Reinforced Concrete Top Floor, SIP sandwich layer and armored concrete bottom to be composited, wherein, the tack coat in the tack coat between Reinforced Concrete Top Floor and SIP sandwich layer and between SIP sandwich layer and armored concrete bottom is equipped with zinc-coated wire mesh sheet; Described SIP sandwich layer is structural heat preservation board.

The production method of above-mentioned light composite board is as follows:

The first step, requirement by conventional production methods and design size, making armored concrete solid slab, wherein the thickness of armored concrete solid slab should meet Reinforced Concrete Top Floor plate and the thickness of armored concrete two kinds of specifications of bottom plate, it is desirable to the surfacing of armored concrete solid slab; And by the requirement of conventional production methods and design size, make SIP middle layer plate;

Second step, at armored concrete bottom plate upper surface coated structure adhesive, the upper SIP middle layer plate of the then upper zinc-coated wire mesh sheet of tiling, then pile, it is desirable to consistency from top to bottom;

3rd step, at SIP middle layer plate upper surface coated structure adhesive, the then upper zinc-coated wire mesh sheet of tiling, Reinforced Concrete Top Floor plate in pile again, it is desirable to consistency from top to bottom; Compacting under deadweight, treats structural adhesive natural coagulation, and namely bonding is combined into entirety.

Further, in the said method first step, make Reinforced Concrete Top Floor plate, armored concrete bottom plate and during SIP middle layer plate prefabricated corresponding some holes, or making some holes corresponding on Reinforced Concrete Top Floor plate, armored concrete bottom plate and SIP middle layer plate post-treatment; After the 3rd step bonding is combined into entirety, then in hole, insert connector, and build cement mortar. The arrangement pitch 400-600mm of above described holes. Above-mentioned connector is diameter 16mm spiral.

Further, in the said method first step, after armored concrete bottom plate completes, it is coated with structural adhesive, fibre reinforced composites FRP enhancement Layer in bonding in its bottom surface. The preferred carbon fiber CFRP of FRP enhancement Layer material, glass fibre GFRP or aramid fiber AFRP. The binding agent of described bonding FRP enhancement Layer is one-component polyurethane or bi-component polyurethane ester gum.

Further, in the said method first step, make prefabricated upper pipeline passway during SIP middle layer plate.

Compared with prior art, present invention have the advantage that

1, the light composite board of the present invention, top and the bottom all use armored concrete, meet structure tension performance, it is ensured that the reasonability of its stress; Meanwhile, anti-bending strength and the ductility of floor can be improved at composite plate lower adhesive FRP enhancement Layer, improve composite floor plate with this and collapse drag.

2, the light composite board of the present invention, adopting SIP sandwich layer is a kind of light composite board, and intensity is high and light weight, good heat insulating, has good anti-seismic performance; And achieve standard specifications, install simple and direct, it is easy to accomplish produce industrialization, standardization and mechanization of building operation, ensure that construction quality. Meanwhile, SIP plate without toxic gas, adopt capable of circulation reproduce, material free from environmental pollution is made, be conducive to preserving the ecological environment.

3, the light composite board of the present invention, the technology way adopting more than two kinds different materials to be formed by stacking, be conducive to giving full play to the thermal resistance performance of different materials and mechanical property, make to make the best use of everything. Floor can also play sound insulation effect, to keep levels not interfere with each other.

4, the light composite board of the present invention, lays galvanized steel wire netting in tack coat as stress dispersion layer, ensures integrally-built stability with this, helps floor bending resistance to reduce external force simultaneously and is applied to the load in unit are, plays the effect of protection SIP core;

5, the light composite board of the present invention, when ensureing structural-load-carrying capacity, alleviates dead load, reduces the impact load under operating mode of collapsing, substructure being likely to result in.

6, the light composite board of the present invention, production can realize standardization, industrialization, it is simple to on-site consolidation, the reduction of erection time, it is ensured that construction quality.

7, the light composite board of the present invention is easy to roof construction, removes the operations such as screed-coat, vapor barrier layer, heat-insulation layer from, carries out waterproof only again, shortens the construction period, it is ensured that construction quality.

Accompanying drawing explanation

Fig. 1 is present configuration schematic diagram.

Marginal data, 1-Reinforced Concrete Top Floor plate, 2-upper strata zinc-coated wire mesh sheet, 3-SIP sandwich layer, 4-lower floor zinc-coated wire mesh sheet, 5-armored concrete bottom plate, 6-FRP enhancement Layer, 7-connector, 8-hole, 9-pipeline passway.

Detailed description of the invention

Below in conjunction with accompanying drawing, the invention will be further described:

Light composite board as shown in Figure 1, it is to be composited by structural adhesive bonding by Reinforced Concrete Top Floor plate 1, SIP sandwich layer 3, armored concrete bottom plate 5, in tack coat, wherein it is provided with zinc-coated wire mesh sheet, including upper strata zinc-coated wire mesh sheet 2 and lower floor's zinc-coated wire mesh sheet 4.

The production method of above-mentioned light composite board is as follows:

The first step, requirement by conventional production methods and design size, making armored concrete solid slab, wherein the thickness of armored concrete solid slab should meet Reinforced Concrete Top Floor plate 1 and the thickness of armored concrete 5 two kinds of specifications of bottom plate, it is desirable to the surfacing of armored concrete solid slab; And by the requirement of conventional production methods and design size, make SIP middle layer plate 3;

Described SIP sandwich layer 3 is polyurethane or foamed polystyrene layer;

Described Reinforced Concrete Top Floor plate 1 thickness is 50mm, and armored concrete bottom thickness of slab 5 is 30mm.

Second step, at armored concrete bottom plate 5 upper surface coated structure adhesive, the upper SIP middle layer plate 3 of the then upper galvanized steel wire netting 4 of tiling, then pile, it is desirable to consistency from top to bottom;

3rd step, at SIP middle layer plate 3 upper surface coated structure adhesive, the then upper zinc-coated wire mesh sheet 2 of tiling, Reinforced Concrete Top Floor plate 1 in pile again, it is desirable to consistency from top to bottom; Compacting under deadweight, treats structural adhesive natural coagulation, and namely bonding is combined into entirety.

Further, in the said method first step, make Reinforced Concrete Top Floor plate 1, armored concrete bottom plate 5 and during SIP middle layer plate 3 prefabricated corresponding some holes 8, the arrangement pitch 400-600mm in hole, or making some holes corresponding on Reinforced Concrete Top Floor plate 1, armored concrete bottom plate 5 and SIP middle layer plate 3 post-treatment; After the 3rd step bonding is combined into entirety, then inserting connector 7 in hole 8, and build cement mortar, connector 7 is diameter 16mm spiral.

Further, in the said method first step, at its bottom surface adhesive coating after armored concrete bottom 5 completes, FRP enhancement Layer 6 in bonding.FRP enhancement Layer 6 material is carbon fiber CFRP, glass fibre GFRP or aramid fiber AFRP. The binding agent of described FRP enhancement Layer is one-component polyurethane or bi-component polyurethane ester gum.

Further, in the said method first step, make prefabricated upper pipeline passway 8 during SIP middle layer plate 3.

These are only presently preferred embodiments of the present invention, be not intended to limit protection scope of the present invention, therefore, all make within the spirit and principles in the present invention any amendment, equivalent replacement, improvement etc., should be included within protection scope of the present invention.

Claims (10)

1. the production method for floor separation and the light composite board of roofing, it is characterized in that, described light composite board is to be bondd by Reinforced Concrete Top Floor, SIP sandwich layer and armored concrete bottom to be composited, wherein, the tack coat in the tack coat between Reinforced Concrete Top Floor and SIP sandwich layer and between SIP sandwich layer and armored concrete bottom is equipped with zinc-coated wire mesh sheet; Described SIP sandwich layer is structural heat preservation board;

The production method of above-mentioned light composite board is as follows:

The first step, requirement by conventional production methods and design size, making armored concrete solid slab, wherein the thickness of armored concrete solid slab should meet Reinforced Concrete Top Floor plate and the thickness of armored concrete two kinds of specifications of bottom plate, it is desirable to the surfacing of armored concrete solid slab; And by the requirement of conventional production methods and design size, make SIP middle layer plate;

Second step, at armored concrete bottom plate upper surface coated structure adhesive, the upper SIP middle layer plate of the then upper zinc-coated wire mesh sheet of tiling, then pile, it is desirable to consistency from top to bottom;

3rd step, at SIP middle layer plate upper surface coated structure adhesive, the upper Reinforced Concrete Top Floor plate of the then upper zinc-coated wire mesh sheet of tiling, then pile, it is desirable to consistency from top to bottom; Compacting under deadweight, treats structural adhesive natural coagulation, and namely bonding is combined into entirety.

2. production method as claimed in claim 1, it is characterised in that be bonded with fibre reinforced composites FRP enhancement Layer in the bottom surface of armored concrete bottom.

3. production method as claimed in claim 2, it is characterised in that described FRP enhancement Layer is carbon fiber CFRP enhancement Layer, glass fibre GFRP enhancement Layer or aramid fiber AFRP enhancement Layer.

4. production method as claimed in claim 2, it is characterised in that the binding agent of described bonding FRP enhancement Layer is one-component polyurethane or bi-component polyurethane ester gum.

5. production method according to claim 1, it is characterized in that, multiple holes corresponding the first step is prefabricated when making Reinforced Concrete Top Floor plate, armored concrete bottom plate and SIP middle layer plate, or making multiple holes corresponding on Reinforced Concrete Top Floor plate, armored concrete bottom plate and SIP middle layer plate post-treatment; After the 3rd step bonding is combined into entirety, then in hole, insert connector, and build cement mortar.

6. production method according to claim 5, it is characterised in that: the arrangement pitch 400-600mm in described hole.

7. composite roof board according to claim 5, it is characterised in that: described connector is diameter 12-18mm spiral.

8. production method according to claim 1, it is characterised in that: described Reinforced Concrete Top Floor thickness is 50mm, and armored concrete bottom thickness is 30mm.

9. production method according to claim 1, it is characterised in that: described SIP sandwich layer is polyurethane or foamed polystyrene layer.

10. composite roof board according to claim 3, it is characterised in that: described SIP sandwich layer is provided with the passage for arranging pipeline.