CN109435361A - A kind of asbestos wool flyash assembled composite module lining and its mounting process - Google Patents

Abstract

The invention discloses a kind of asbestos wool flyash assembled composite module linings, are related to the field of building materials, mainly solve the problems, such as that traditional wallboard environment is unfriendly and performance is poor；The composite module lining includes several wallboard bodies interconnected；The wallboard body is made of asbestos wool Flyash Layer, calcium silicate board with microporous extexine and finish coat, and asbestos wool Flyash Layer is located at middle part, and the two sides of asbestos wool Flyash Layer are followed successively by calcium silicate board with microporous extexine and finish coat from inside to outside；Asbestos wool Flyash Layer is the preparation method is as follows: foaming agent is added cement-based gelling material, asbestos wool, is gathered materials, in slurry made of admixture, additive and water, it is mixed, is poured, make it make to generate sealed porosity inside slurry in a mold by chemical reaction, through conserving to obtain the final product.

Description

A kind of asbestos wool flyash assembled composite module lining and its mounting process

Technical field

The present invention relates to the field of building materials, specifically a kind of asbestos wool flyash assembled composite module lining and its Mounting process.

Background technique

Application is widelyd popularize with China's assembled architecture, the crucial component material for solving assembled architecture is internal partition wall Plate, China's inner partition plate form and bill of materials one, are difficult meet the needs of assembled architecture at present, even if there is part inner partition plate Also there is wall ununiform shrinkage itself since the performance and mounting process performance of its material are poor in material, produce plate with Crack between plate, plate and beam column influences normally to use, causes a series of quality problems and social contradications, especially exist Earthquake height takes place frequently area, or even some casualty accidents occurs.The wall board material past using organic material, both destroys ring Border, and make a large amount of wastes of resource.

And there is the flyash of bulk deposition Cheng Shan in China in most area at present, traditional practice is added with flyash work One hand tile is fed and is made into, dosage is few, and added value is low, it is difficult to solve the problems, such as its market demand.How its additional properties are improved It exploits market, quality assurance is a Major Scientific Research Projects.

China is built also still using traditional more backward construction material and construction technology all kinds of after liberation simultaneously The way that interior separation wall in building largely uses one hand tile material and scene to build, with the increasing of China's labor cost Add, the raising of environmental requirement and building quality standard it is higher, and the construction of traditional one hand tile is no longer satisfied above-mentioned want It asks.

Therefore invention proposes a kind of lining and its mounting process using flyash as main raw material(s), it is above-mentioned to solve Problem.

Summary of the invention

The purpose of the present invention is to provide a kind of asbestos wool flyash assembled composite module lining and its mounting process, To solve the problems mentioned in the above background technology.

To achieve the above object, the invention provides the following technical scheme:

A kind of asbestos wool flyash assembled composite module lining, including several wallboard bodies interconnected 1；It is described Wallboard body is made of asbestos wool Flyash Layer, calcium silicate board with microporous extexine and finish coat, and asbestos wool Flyash Layer is located at middle part, asbestos The two sides of suede Flyash Layer are followed successively by calcium silicate board with microporous extexine and finish coat from inside to outside；

Asbestos wool Flyash Layer the preparation method is as follows: by foaming agent be added by cement-based gelling material, asbestos wool, gather materials, It in slurry made of admixture, additive and water, is mixed, is poured, it is made to make to starch by chemical reaction in a mold Internal portion generates sealed porosity, through conserving to obtain the final product.

As a further solution of the present invention: the asbestos wool Flyash Layer with a thickness of 80-120mm, calcium silicate board with microporous appearance Layer with a thickness of 5mm, finish coat with a thickness of 3-4mm.

As a further solution of the present invention: asbestos wool volume fraction shared in all raw materials is 0.05%- 0.3%.

As a further solution of the present invention: the two sides of the wallboard body in the width direction are respectively arranged with mutual cooperation Groove and tongue.

As a further solution of the present invention: the depth of the groove is 30mm, and both wings width is 30mm, and tongue protrusion is thick Degree is 28mm, and both wings width is 31mm.

The mounting process of above-mentioned composite module lining, comprising the following steps:

1) installation space, the flatness of ground beam slab and the verticality of beam column for checking lining, carry out floor leveling, Guarantee that error is no more than 3mm；

2) wallboard body of sequence installation from left to right；

3) jewel hole and grooving are carried out at the both ends of wallboard body, is then carried out between adjacent wall board ontology with V-type reinforcing bar It is fixed；

4) using the gap between high-strength structureal adhesives filled-in panel ontology and building body structure and adjacent wall board ontology, so After carry out striking off processing；

5) putty is scraped on the surface of wallboard body, then carries out incrustation.

As a further solution of the present invention: the step 2) method particularly includes: by angle steel by first piece of wallboard sheet The both ends of body are fixed in building body structure, and using first piece of wallboard body as reference for installation, sequentially splicing is until last block wall The both ends of all wallboard bodies are fixed on building using angle steel after the splicing of last block wallboard body is completed by plate ontology In body structure, then reinforced using foaming agent.

As a further solution of the present invention: first in the table of wallboard body during Puttying in the step 5) One layer of thin putty is scraped in face, carries out last incrustation after thin putty is done to 80%.

Compared with prior art, the beneficial effects of the present invention are:

(1) thermal coefficient of asbestos wool Flyash Layer is small, and the ability for preventing hot-fluid and temperature wave from penetrating is strong, passes through asbestos wool The heat flow of Flyash Layer enclosed structure is small, and attenuation multiple is big, and delay time is long, compared with traditional materials, in same thickness item Under part, asbestos wool Flyash Layer inner surface mean temperature and fluctuating temperature are smaller；

(2) sound insulation value is good, and asbestos wool Flyash Layer, calcium silicate board with microporous extexine have preferable soundproof effect, can satisfy The sound isolation requirement of house；

(3) asbestos wool foaming coal ash insulating layer is made of inorganic incombustible material, and fire protecting performance is good；

(4) it makes full use of the drawknot of asbestos wool to act on, increases the globality and intensity of foaming coal ash.Make full use of eight The drawknot of font reinforcing bar acts on, and prevents the crack problem between plate and plate, solves the common fault in building structure.Meanwhile it can fit It, can be with the object of one constant load of carry for kitchen and toilet；

(5) waterproof and dampproof, have the function of excellent moistureproof water seepage-preventing using the asbestos wool foaming wall that calcium silicate board with microporous makees facing；

(6) surface smoothness is high, since facing uses calcium silicate board with microporous, solves asbestos wool foaming coal ash and is making and pacifying The non-type problem of out-of-flatness and specification during dress, reduces the plastering screed-coat of the mixed mortar in later period, ensure that work Cheng Zhiliang reduces labor cost, improves work efficiency, reduce the waste to mortar；

(7) and the comparison of traditional wall, wall occupied space is effectively reduced, the use space in room is expanded；Together When also mitigate wall self weight, save a large amount of building resource；

(8) energy-saving low-carbon, present invention employs flyash fixed waste materials, reduce a large amount of carbon emission, also save simultaneously Certain production energy consumption；

(9) installation is convenient and efficient, and the substantially live wet-less operation of this product, fabricated construction greatly shortens the duration It is reduced with material loss, reduces building waste；

(10) composite plate structure is stablized, and plate and plate are connected using lateral tongue and groove, up and down and beam column use fixing piece with Foaming agent is mutually fixed, and solid and reliable effect is played；

(11) simple and efficient in production technology, it is convenient for batch production pipelining, by information-based and automation control, produces Amount is high convenient for mass production and logistics transportation；

(12) the solid waste materials pulverized fuel ash for making full use of local power plant, mine to generate not only solves environmental issue, but also improves Its added value, has reached good economic benefit and social benefit.

Detailed description of the invention

Fig. 1 is the schematic perspective view of asbestos wool flyash assembled composite module lining.

Fig. 2 is the schematic cross-sectional view of asbestos wool flyash assembled composite module lining.

Fig. 3 is the scheme of installation of asbestos wool flyash assembled composite module lining.

In figure: 101- asbestos wool Flyash Layer, 102- calcium silicate board with microporous extexine, 103- finish coat, 201- groove, 202- are inserted Slot.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Embodiment 1

Please refer to Fig. 1~2, in the embodiment of the present invention, a kind of asbestos wool flyash assembled composite module lining, including Several wallboard bodies interconnected 1；The wallboard body 1 is by asbestos wool Flyash Layer 101, calcium silicate board with microporous extexine 102 and decorations Surface layer 103 is constituted, and asbestos wool Flyash Layer 101 is located at middle part, and the two sides of asbestos wool Flyash Layer 101 are followed successively by silicon from inside to outside Calcium plate extexine 102 and finish coat 103；Wherein asbestos wool Flyash Layer with a thickness of 80-120mm, calcium silicate board with microporous extexine 102 With a thickness of 5mm, finish coat 103 with a thickness of 3-4mm.

The production method of asbestos wool Flyash Layer 101 can be divided into physical blowing and chemistry hair according to the difference of foam pattern Bubble.

Wherein physical blowing the preparation method is as follows: foaming agent is prepared into foam by mechanical equipment, then foam is added Enter to cement-based gelling material, asbestos wool, gather materials, in slurry made of admixture, additive and water, be mixed, poured Injection forming conserves to obtain the final product；

Chemical blowing the preparation method is as follows: foaming agent is added by cement-based gelling material, asbestos wool, gathers materials, blend It in slurry made of material, additive and water, is mixed, is poured, make it in slurry by chemical reaction in a mold Portion generates sealed porosity, through conserving to obtain the final product.

And learnt through test, foam concrete bubble diameter made from chemical blowing process generally between 1-3 mm, is far longer than object It gets a haircut the aperture of bubble foam concrete, ensure that good thermal insulation property, therefore chemical blowing is better than physical blowing, in the present embodiment Asbestos wool Flyash Layer 101 is prepared by the way of chemical blowing, wherein asbestos wool volume fraction shared in all raw materials is 0.05%-0.3%.

Further, the two sides of the wallboard body 1 in the width direction are respectively arranged with mutually matched groove 201 and convex Slot 202, the depth of further groove 201 are 30mm, and both wings width is 30mm, and tongue 202 protrudes with a thickness of 28mm, and both wings width is 31mm can thus carry out the installation of adjacent wall board ontology, more traditional masonry construction by the way of tongue and groove occlusion Get up more efficient and convenient, can effectively improve working efficiency.

Embodiment 2

Referring to Fig. 3, the embodiment of the present invention provides a kind of mounting process of above-mentioned lining, comprising the following steps:

1) installation space, the flatness of ground beam slab and the verticality of beam column for checking lining, carry out floor leveling, Guarantee that error is no more than 3mm；

2) wallboard body of sequence installation from left to right；

In specific implementation process, the both ends of first piece of wallboard body will be fixed in building body structure by angle steel, with One piece of wallboard body is as reference for installation, and sequentially splicing is until last block wallboard body, splices to last block wallboard body After completion, the both ends of all wallboard bodies are fixed in building body structure using angle steel, are then added using foaming agent Gu；

3) jewel hole and grooving are carried out at the both ends of wallboard body, is then carried out between adjacent wall board ontology with V-type reinforcing bar It is fixed；

By setting V-type reinforcing bar, the contraction bring crack between wallboard body due to the different coefficients of expansion can be controlled, It avoids influencing beauty, while also improving globality and shock resistance, use safer；

4) using the gap between high-strength structureal adhesives filled-in panel ontology and building body structure and adjacent wall board ontology, so After carry out striking off processing；

5) putty is scraped on the surface of wallboard body, then carries out incrustation；

One layer of thin putty is scraped on the surface of wallboard body first during Puttying, after thin putty is done to 80% Carry out last incrustation.

Beneficial effects of the present invention and the mechanism of action:

(1) thermal coefficient of asbestos wool Flyash Layer is small, and the ability for preventing hot-fluid and temperature wave from penetrating is strong, passes through asbestos wool The heat flow of Flyash Layer enclosed structure is small, and attenuation multiple is big, and delay time is long, compared with traditional materials, in same thickness item Under part, asbestos wool Flyash Layer inner surface mean temperature and fluctuating temperature are smaller；

(2) sound insulation value is good, and asbestos wool Flyash Layer, calcium silicate board with microporous extexine have preferable soundproof effect, can satisfy The sound isolation requirement of house；

(3) asbestos wool foaming coal ash insulating layer is made of inorganic incombustible material, and fire protecting performance is good；

(4) drawknot of asbestos wool is made full use of to act on, the globality and intensity for increasing foaming coal ash make full use of eight The drawknot of font reinforcing bar acts on, and prevents the crack problem between plate and plate, solves the common fault in building structure.Meanwhile it can fit It, can be with the object of one constant load of carry for kitchen and toilet；

(5) waterproof and dampproof, have the function of excellent moistureproof water seepage-preventing using the asbestos wool foaming wall that calcium silicate board with microporous makees facing；

(6) surface smoothness is high, since facing uses calcium silicate board with microporous, solves asbestos wool foaming coal ash and is making and pacifying The non-type problem of out-of-flatness and specification during dress, reduces the plastering screed-coat of the mixed mortar in later period, ensure that work Cheng Zhiliang reduces labor cost, improves work efficiency, reduce the waste to mortar；

(7) and the comparison of traditional wall, wall occupied space is effectively reduced, the use space in room is expanded；Together When also mitigate wall self weight, save a large amount of building resource；

(8) energy-saving low-carbon, present invention employs flyash fixed waste materials, reduce a large amount of carbon emission, also save simultaneously Certain production energy consumption；

(9) installation is convenient and efficient, and the substantially live wet-less operation of this product, fabricated construction greatly shortens the duration It is reduced with material loss, reduces building waste；

(10) composite plate structure is stablized, and plate and plate are connected using lateral tongue and groove, up and down and beam column use fixing piece with Foaming agent is mutually fixed, and solid and reliable effect is played；

(11) simple and efficient in production technology, it is convenient for batch production pipelining, by information-based and automation control, produces Amount is high convenient for mass production and logistics transportation；

(12) the solid waste materials pulverized fuel ash for making full use of local power plant, mine to generate not only solves environmental issue, but also improves Its added value, has reached good economic benefit and social benefit.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention any reference signs in the claims should not be construed as limiting the involved claims

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (8)

1. a kind of asbestos wool flyash assembled composite module lining, which is characterized in that including several wallboards interconnected Ontology (1)；The wallboard body (1) is by asbestos wool Flyash Layer (101), calcium silicate board with microporous extexine (102) and finish coat (103) structure At wherein asbestos wool Flyash Layer (101) is located at middle part, and the two sides of asbestos wool Flyash Layer (101) are followed successively by silicon from inside to outside Calcium plate extexine (102) and finish coat (103)；

The asbestos wool Flyash Layer (101) the preparation method is as follows: by foaming agent be added by cement-based gelling material, asbestos wool, Gather materials, in slurry made of admixture, additive and water, be mixed, be poured, makes it in a mold by chemical reaction Make to generate sealed porosity inside slurry, through conserving to obtain the final product.

2. asbestos wool flyash assembled composite module lining according to claim 1, which is characterized in that the asbestos Suede Flyash Layer (101) with a thickness of 80-120mm, calcium silicate board with microporous extexine (102) with a thickness of 5mm, the thickness of finish coat (103) Degree is 3-4mm.

3. asbestos wool flyash assembled composite module lining according to claim 2, which is characterized in that the asbestos Suede volume fraction shared in all raw materials is 0.05%-0.3%.

4. asbestos wool flyash assembled composite module lining according to claim 1 to 3, which is characterized in that institute It states the two sides of wallboard body (1) in the width direction and is respectively arranged with mutually matched groove (201) and tongue (202).

5. asbestos wool flyash assembled composite module lining according to claim 4, which is characterized in that the groove (201) depth is 30mm, and both wings width is 30mm, and for tongue (202) protrusion with a thickness of 28mm, both wings width is 31mm.

6. the mounting process of asbestos wool flyash assembled composite module lining as claimed in claim 5, which is characterized in that The following steps are included:

1) installation space, the flatness of ground beam slab and the verticality of beam column for checking lining, carry out floor leveling, guarantee Error is no more than 3mm；

2) wallboard body of sequence installation from left to right；

3) jewel hole and grooving are carried out at the both ends of wallboard body, the fixation between adjacent wall board ontology is then carried out with V-type reinforcing bar；

4) using gap between high-strength structureal adhesives filled-in panel ontology and building body structure and adjacent wall board ontology, then into Row strikes off processing；

5) putty is scraped on the surface of wallboard body, then carries out incrustation.

7. the mounting process of asbestos wool flyash assembled composite module lining according to claim 6, feature exist In the step 2) method particularly includes: the both ends of first piece of wallboard body are fixed in building body structure by angle steel, with One piece of wallboard body is as reference for installation, and sequentially splicing is until last block wallboard body, splices to last block wallboard body After completion, the both ends of all wallboard bodies are fixed in building body structure using angle steel, are then added using foaming agent Gu.

8. the mounting process of asbestos wool flyash assembled composite module lining according to claim 6, feature exist In scraping one layer of thin putty on the surface of wallboard body first during Puttying in the step 5), arrive to thin putty is dry Last incrustation is carried out after 80%.