CN214739520U - Large plate brick inlaying structure - Google Patents

Abstract

The utility model provides a large plate brick inlays structure, include: a wall body; an interface agent layer coated on the wall; a square leveling layer attached to the interface agent layer; the first cement-based tile glue layer is coated on the square leveling layer; the adhesive layer is attached to the adhesive layer of the first cement-based ceramic tile; brushing a second cement-based tile glue layer on the bonding layer; and the large plate brick is arranged on the outermost layer of the glue layer of the second cement-based ceramic tile. In this big board brick inlays pastes structure, apply paint with a brush through cover side screed-coat, can rectify the wall body surface, the roughness on the wall body surface after rectifying is less than or equal to 2mm, the straightness that hangs down is less than or equal to 3mm, and when the wall body is for having the wall body of contained angle, after the correction of cover side screed-coat, the squareness of wall body contained angle is less than or equal to 2mm, and the adhesive force of cover side screed-coat can be improved with a brush to interfacial agent layer, prevents hollowing, the fracture of cover side screed-coat.

Description

Large plate brick inlaying structure

Technical Field

The utility model relates to a building decoration field, concretely relates to large plate brick inlays structure.

Background

The ceramic tile with the long edge size exceeding 800mm is commonly called a large-plate brick, and the common large specification of the large-plate brick is as follows: 600X 1200mm, 800X 1600, 1800, 1900mm, 900X 1800mm, 1200X 2400, 2600 mm. Because the area of the large-plate ceramic tile is larger, the texture is closer to the stone, and the house looks more spacious and has higher quality after being laid, so the large-plate ceramic tile is popular with more and more customers.

However, because the large-plate brick has large area, compact structure and inconvenient construction operation, when the large-plate brick is laid by adopting the conventional process, the problems that large-area hollowing, flatness and verticality cannot meet the requirements and the laying quality is far lower than the quality acceptance standard GB50201-2001 of the building decoration project are often caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the technical defects that the large-area hollowing, the flatness and the verticality of a large-plate brick cannot meet the requirements due to the conventional laying technology in the prior art, the large-plate brick inlaying structure is provided.

In order to solve the technical problem, the utility model provides a large plate brick inlays structure, include: a wall body; an interface agent layer coated on the wall; a square leveling layer attached to the interface agent layer; the first cement-based tile glue layer is coated on the square leveling layer; the adhesive layer is attached to the adhesive layer of the first cement-based ceramic tile; brushing a second cement-based tile glue layer on the bonding layer; and the large plate brick is arranged on the outermost layer of the glue layer of the second cement-based ceramic tile.

The utility model provides an in the big plate brick inlaying structure, can also have such characteristic: the large-plate brick inlaying structure further comprises a waterproof layer, and the waterproof layer is attached to the square leveling layer.

The utility model provides an in the big plate brick inlaying structure, can also have such characteristic: the large-plate brick inlaying structure further comprises a waterproof protective layer, and the waterproof protective layer is attached to the waterproof layer.

The utility model provides an in the big plate brick inlaying structure, can also have such characteristic: the waterproof protective layer is a plain cement paste layer or a cement mortar plastering layer.

The utility model provides an in the big plate brick inlaying structure, can also have such characteristic: after the square leveling layer is attached, the flatness of the wall body is less than or equal to 2mm, and the verticality is less than or equal to 3 mm.

The utility model provides an in the big plate brick inlaying structure, can also have such characteristic: when the wall body is a wall body with an included angle, after the square leveling layer is attached, the squareness of the included angle of the wall body is less than or equal to 2 mm.

The utility model provides an in the big plate brick inlaying structure, can also have such characteristic: the square leveling layer is a cement mortar plastering layer.

The utility model provides an in the big plate brick inlaying structure, can also have such characteristic: the thickness of the bonding layer is 3-6 mm.

The utility model provides an in the big plate brick inlaying structure, can also have such characteristic: the bonding layer is embedded in batches through the tooth-shaped scraper, and the stripes are combed through the tooth-shaped scraper, and the direction of the stripes is consistent.

The beneficial effects of the utility model reside in that:

the utility model discloses an among the large plate brick inlaying structure, paint interface agent layer, cover side screed-coat, first cement base ceramic tile glue film, adhesive linkage, second cement base ceramic tile glue film with a brush in proper order on the wall body surface earlier, then inlaying the large plate brick. Through applying paint with a brush of cover side screed-coat, can rectify the wall body surface, the roughness on the wall body surface after the correction is less than or equal to 2mm, the straightness that hangs down is less than or equal to 3mm, and when the wall body is for the wall body that has the contained angle, after the correction of cover side screed-coat, the squareness of wall body contained angle is less than or equal to 2mm, and the adhesive force of cover side screed-coat can be improved to applying paint with a brush on interfacial agent layer, prevents the hollowing of cover side screed-coat, fracture.

In addition, through the construction of first cement base ceramic tile glue film, adhesive linkage, second cement base ceramic tile glue film, can let the bonding of big board brick very firm, can pass through long-time use, moreover, first cement base ceramic tile glue film can improve the adhesive force of adhesive linkage, prevents hollowing and delaminating of big board brick.

Moreover, the large-plate brick inlaying structure also comprises a waterproof layer and a waterproof protective layer, wherein the waterproof layer can prevent water from permeating into the wall body, and the phenomena of dampness, mildew, color change and the like caused by water seepage of the wall body are avoided. The waterproof protective layer can prevent subsequent construction from damaging the waterproof layer and improve the adhesive force of the waterproof layer to the adhesive layer, so that the aim of reducing hollowing or delamination of the large-plate brick is fulfilled.

Drawings

Fig. 1 is a schematic structural view of a large tile mounting structure according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a large tile mounting structure according to an embodiment of the present invention.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In this embodiment, this big board brick inlays structure and is used for realizing that the big board brick inlays, and guarantees roughness, the straightness that hangs down after the big board brick inlays, avoids inlaying the emergence that the big board brick of back large tracts of land hollowing phenomenon appears simultaneously.

< example one >

As shown in fig. 1, the large tile setting structure includes a wall 10, an interface agent layer 11, a square leveling layer 12, a waterproof layer 13, a waterproof protective layer 14, a first cement-based tile glue layer 15, an adhesive layer 16, a second cement-based tile glue layer 17, and a large tile 18.

The wall 10 is disposed on a floor 20.

The interface agent layer 11 is a polymer emulsion with very good permeability, and is coated on the surface of the wall 10. The interface agent layer 11 can penetrate into surface mortar of the wall body 10, so that the surface mortar strength of the wall body 10 is improved, the adhesive force of the square leveling layer 12 attached to the interface agent layer 11 is improved, and hollowing and cracking of the square leveling layer 12 are prevented.

The square leveling layer 12 is a cement mortar plastering layer, is attached to the surface of the interface agent layer 11, and is used for correcting the wall 10. After the square leveling layer 12 is corrected, the surface flatness of the wall 10 is less than or equal to 2mm, the verticality is less than or equal to 3mm, and the wall of the room is corrected.

The waterproof layer 13 is JS waterproof paint. The JS waterproof coating is polymer cement waterproof coating, also called JS composite waterproof coating. Wherein J is the polymer, S cement ("JS" is the Pinyin prefix of "polymer cement"). The JS waterproof paint is a kind of two-component water-based building waterproof paint which is made up by using organic liquid material formed from polymer emulsion of polyacrylate emulsion, ethylene-vinyl acetate copolymer emulsion, etc. and various additives, and inorganic powder material formed from inorganic filler of cement, quartz sand, light and heavy calcium carbonate, etc. and various additives through reasonable proportioning and compounding.

The waterproof layer 13 is attached to the surface of the square leveling layer 12, so that water flowing to the surface of the waterproof layer 13 can be prevented from permeating into the wall 10, and the phenomena of dampness, mildew, color change and the like of the wall 10 are avoided.

The waterproof protective layer 14 is a cement mortar layer or a cement mortar plastering layer, is attached to the surface of the waterproof layer 13, prevents subsequent construction from damaging the waterproof layer 13, and simultaneously improves the adhesive force of the waterproof protective layer to the adhesive layer 16 attached to the surface of the waterproof layer, thereby achieving the purpose of reducing hollowing or delamination of the large plate brick 18.

The first cement-based tile adhesive layer 15 is a polymer emulsion, which is painted on the surface of the waterproof protective layer 14 to improve the surface strength of the waterproof protective layer 14, and also to improve the adhesion of the waterproof protective layer 14 to the adhesive layer 16 to prevent hollowing or delamination of the large tile 18. In this embodiment, the first cement-based tile glue layer 15 is a tile plaster, also known as a tile partner, used in the industry field.

The bonding layer 16 is a special bonding material for polymer cement-based composite ceramic tiles, has super strong bonding force on the ceramic tiles, has certain toughness, and is water-resistant, heat-resistant and aging-resistant. The adhesive layer 16 is attached to the surface of the first cement-based tile adhesive layer 15, and the thickness of the adhesive layer is 3-6 mm.

The second cement-based tile adhesive layer 17 is a polymer emulsion, which is painted on the back of the large tile 18 and then attached to the surface of the adhesive layer 16, so that the second cement-based tile adhesive layer 17 is attached to the surface of the adhesive layer 16 and the back of the large tile 18, respectively. The second cement-based tile glue layer 17 can penetrate into the back of the large tile 18, so that the adhesive force of the back of the large tile 18 to the adhesive layer 16 is improved, the large tile 18 is bonded more firmly, and the large tile cannot fall off. In this embodiment, the second cement-based tile adhesive layer 17 is the same as the first cement tile adhesive layer 15, and is a tile patch, also known as a tile partner, used in the industry field.

When the large plate brick 18 is finally inlaid, the mixed bonding layer 16 is embedded on the surface of the first cement-based tile adhesive layer 15 and the back surface of the large plate brick 18 coated with the second cement-based tile adhesive layer 17 in batches by using a toothed scraper, and the bonding layer 16 is combed into stripes, and the stripes are consistent in direction, so that air can be discharged conveniently, bubbles can not be generated in the bonding layer 16, and the defect of the bonding layer 16 caused by the generation of the bubbles in the bonding layer 16 is avoided.

< example two >

As shown in fig. 2, the wall body is a wall body with an included angle, and includes a first wall body 31 and a second wall body 32, the two wall bodies are respectively inlaid according to the large tile inlaying framework, and after the alignment of the square leveling layer 33 on the first wall body 31 and the square leveling layer 34 on the second wall body, the squareness of the included angle between the first wall body 31 and the second wall body 32 is less than or equal to 2 mm. In addition, the same parts in the second embodiment as those in the first embodiment have the same reference numerals, and are not described again in this embodiment.

According to the large-plate brick inlaying structure in the embodiment, the interface agent layer, the square leveling layer, the first cement-based tile adhesive layer, the bonding layer and the second cement-based tile adhesive layer are sequentially coated on the surface of the wall body, and then the large-plate brick is inlaid. The surface of the wall body can be corrected by brushing the square leveling layer, the flatness of the corrected surface of the wall body is less than or equal to 2mm, the verticality is less than or equal to 3mm, the adhesive force of the square leveling layer can be improved by brushing the interface agent layer, and hollowing and cracking of the square leveling layer are prevented.

In addition, through the construction of first cement base ceramic tile glue film, adhesive linkage, second cement base ceramic tile glue film, can let the bonding of big board brick very firm, can pass through long-time use, moreover, first cement base ceramic tile glue film can improve the adhesive force of adhesive linkage, prevents hollowing and delaminating of big board brick.

Moreover, the large-plate brick inlaying structure also comprises a waterproof layer and a waterproof protective layer, wherein the waterproof layer can prevent water from permeating into the wall body, and the phenomena of dampness, mildew, color change and the like caused by water seepage of the wall body are avoided. The waterproof protective layer can prevent subsequent construction from damaging the waterproof layer and improve the adhesive force of the waterproof layer to the adhesive layer, so that the aim of reducing hollowing or delamination of the large-plate brick is fulfilled.

In addition, in other embodiments, if the wall body is a wall body in areas such as a living room, a dining room, a study room, a closed type sun and the like, when the large-plate brick is inlaid, a waterproof layer and a waterproof protective layer can be omitted because the wall and the ground do not need to be drained, and after the waterproof layer and the waterproof protective layer are omitted, the first cement-based tile adhesive layer is directly coated on the surface of the square leveling layer.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their full equivalents, the present application is intended to include such modifications and variations.

Claims (9)

1. A large tile inlaying structure is characterized by comprising:

a wall body;

the interface agent layer is coated on the wall body;

a square leveling layer attached to the interface agent layer;

the first cement-based tile glue layer is coated on the square leveling layer;

the adhesive layer is attached to the first cement-based tile adhesive layer;

brushing a second cement-based tile glue layer on the bonding layer; and

and the large plate brick is arranged on the outermost layer of the glue layer of the second cement-based ceramic tile.

2. The tile setting structure according to claim 1, wherein:

the large plate brick inlaying structure also comprises a waterproof layer,

the waterproof layer is attached to the square leveling layer.

3. The tile setting structure according to claim 2, wherein:

the large tile inlaying structure also comprises a waterproof protective layer,

the waterproof protective layer is attached to the waterproof layer.

4. The tile setting structure according to claim 3, wherein:

the waterproof protective layer is a plain cement slurry layer or a cement mortar plastering layer.

5. The tile setting structure according to claim 1, wherein:

after the square leveling layer is attached, the flatness of the wall body is less than or equal to 2mm, and the verticality is less than or equal to 3 mm.

6. The tile setting structure according to claim 1, wherein:

when the wall body is a wall body with an included angle, after the square leveling layer is attached, the squareness of the included angle of the wall body is less than or equal to 2 mm.

7. The tile setting structure according to claim 1, wherein:

the square leveling layer is a cement mortar plastering layer.

8. The tile setting structure according to claim 1, wherein:

the thickness of the bonding layer is 3-6 mm.

9. The tile setting structure according to claim 1, wherein:

the bonding layer is embedded in batches through the tooth-shaped scraper, and stripes are combed through the tooth-shaped scraper, and the direction of the stripes is consistent.

Images