CN209942141U - Floor and stone or ceramic tile splicing structure - Google Patents

Abstract

The utility model discloses a splicing structure of a floor and stone or ceramic tiles, which relates to the field of floor installation, and comprises the stone or the ceramic tiles which are laid on the ground; the adhesive layer is coated on the ground adjacent to the splicing side of the stone or the ceramic tile, and one side of the adhesive layer extends to the upper opening of the stone or the ceramic tile along the splicing side; a moisture-proof pad which is laid on the other side of the adhesive layer and is partially overlapped with the joint of the adhesive layer; the floor is arranged above the moisture-proof pad and the adhesive layer, an expansion joint is reserved between the floor and the stone or the ceramic tile, the splicing side of the floor is provided with a diagonal plane, and the included angle between the diagonal plane and the bottom surface of the floor is an obtuse angle; the oblique cutting surface and the stone or the ceramic tile are filled with adhesive. The utility model discloses a mosaic structure can realize the seamless concatenation of floor and stone material or ceramic tile, plays waterproof, dustproof and the effect of keeping apart to and prevent to wet the deformation with the floor of stone material or ceramic tile concatenation department.

Description

Floor and stone or ceramic tile splicing structure

Technical Field

The utility model relates to a floor installation field, concretely relates to mosaic structure of floor and stone material or ceramic tile.

Background

During the installation of the floor, it is often necessary to splice the floor with stone or ceramic tiles. Due to different materials, different expansion coefficients and different deformation coefficients during splicing, the problems of warping, deformation and the like of the template are easily caused by the hard splicing structure, and therefore a special splicing structure needs to be designed.

The splicing position of the existing floor and stone or ceramic tile must be provided with an expansion joint, and a buckling strip is arranged between the floor and the stone or ceramic tile so as to solve the problems of fixing, closing, connecting, transition and the like of the boundary of the floor. The floor buckling strip is generally simply lapped with the floor isoplanar to cover the expansion joint and the floor boundary. After the buckling strips are installed, the attractive effect of floor pavement is seriously influenced, dust is easily accumulated in installation gaps, cleaning is difficult, and the use experience is poor. After the buckle is used for a few years, the buckle strip is easy to loosen and fall off, and the like, so that the maintenance consumes manpower, material resources and financial resources. In addition, when the floor is wet, the moisture at the joint of the buckling strips can cause the wood floor spliced with the stone or the ceramic tile to be wet and even blacken and deform.

SUMMERY OF THE UTILITY MODEL

To the defect that exists among the prior art, the utility model aims to provide a mosaic structure of floor and stone material or ceramic tile can prevent to wet the deformation with the floor of stone material or ceramic tile concatenation department.

In order to achieve the above purpose, the utility model adopts the technical proposal that: a flooring and stone or tile splice structure, comprising:

stone or ceramic tile, it lays on the ground;

an adhesive layer coated on the ground adjacent to the splicing side of the stone or the ceramic tile, wherein one side of the adhesive layer extends to the upper opening of the stone or the ceramic tile along the splicing side;

a moisture-proof pad which is laid on the other side of the adhesive layer and is partially overlapped with the joint of the adhesive layer;

the floor is arranged above the damp-proof pad and the adhesive layer, an expansion joint is reserved between the floor and the stone or the ceramic tile, a diagonal plane is arranged on the splicing side of the floor, and the included angle between the diagonal plane and the bottom surface of the floor is an obtuse angle; the oblique cutting surface and the stone or the ceramic tile are filled with adhesive.

On the basis of the technical scheme, the chamfer surface is a smooth surface.

On the basis of the technical scheme, the included angle between the inclined cutting plane and the bottom surface of the floor is 120-150 degrees.

On the basis of the technical scheme, the included angle between the inclined cutting plane and the bottom surface of the floor is 135 degrees.

On the basis of the technical scheme, the height of the chamfer plane is the thickness of the floor, and the width of the chamfer plane is 10-30 mm.

On the basis of the technical scheme, the width of the adhesive layer is 100-300mm, and a joint of the moisture-proof pad and the adhesive layer is provided with a superposition belt of 10-20 mm.

On the basis of the technical scheme, the width of the expansion joint is 3-5 mm.

On the basis of the technical scheme, the thickness of the moisture-proof pad is 1-3 mm.

On the basis of the technical scheme, the floor is one of a solid wood floor, a solid wood composite floor and a bamboo floor.

On the basis of the technical scheme, the height fluctuation of the ground on the surface within 2 square meters is not more than 2 mm.

On the basis of the technical scheme, the method comprises the following steps of.

Compared with the prior art, the utility model has the advantages of:

(1) the utility model discloses a mosaic structure of floor and stone material or ceramic tile can realize the seamless concatenation of floor and stone material or ceramic tile, plays waterproof, dustproof and the effect of keeping apart to and prevent to wet the deformation with the floor of stone material or ceramic tile concatenation department.

(2) The utility model discloses a mosaic structure of floor and stone material or ceramic tile, stable in structure, generous pleasing to the eye, and difficult dirty dirt receives the dirt, and the knot strip of having avoided using the knot strip process to produce easily drops, floor wearing and tearing fall lacquer scheduling problem.

Drawings

Fig. 1 is the embodiment of the present invention provides a schematic structural diagram of a splicing structure.

In the figure: 1-stone or ceramic tile, 2-adhesive layer, 3-damp-proof pad, 4-floor, 41-inclined plane, 5-ground and 6-expansion joint.

Detailed Description

The embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, an embodiment of the present invention provides a splicing structure of a floor and a stone or a ceramic tile, including a stone or a ceramic tile 1, an adhesive layer 2, a moisture-proof pad 3, and a floor 4. The stone or tile 1 is laid and fixed on the ground 5. The ground 5 is flat without foreign objects, convex, concave and other phenomena, and the fluctuation of the height of the ground 5 within 2 square meters does not exceed 2 mm.

The adhesive layer 2 is applied to the ground 5 adjacent to the splice side of the stone or tile 1, one side of which extends along the splice side to the upper mouth of the stone or tile 1. During the concrete construction, a certain distance of adhesive is scraped on the ground 5 from the splicing side of the stone or the ceramic tile 1, and then the adhesive is continuously scraped upwards from the connecting part of the splicing side of the stone or the ceramic tile 1 and the ground 5 until the upper opening of the splicing side of the stone or the ceramic tile 1, so that the adhesive layer 2 can cover the connecting part of the splicing side of the stone or the ceramic tile 1 and the ground 5 by 100 percent.

The moisture-proof pad 3 is laid on the other side of the adhesive layer 2 and partially overlaps where the adhesive layer 2 is joined. Optionally, the thickness of the moisture-proof pad 3 is 1-3 mm.

Floor 4 sets up in the top of dampproofing pad 3 and adhesive layer 2 to leave expansion joint 6 between with stone material or ceramic tile 1, the concatenation side on floor 4 is equipped with scarf 41, and the contained angle of scarf 41 and floor 4 bottom surface is the obtuse angle. In this embodiment, the width of the expansion joint 6 is 3-5mm, and the adhesive is filled between the inclined plane 41 and the stone or the tile 1 and the expansion joint 6.

In this embodiment, the mosaic structure of floor and stone material or ceramic tile is stable, has avoided using the easy problem such as the strip that drops, floor wearing and tearing fall lacquer of the strip that the strip process produced. The adhesive layer 2 can cover 100% of the joint of the splicing side of the stone or the ceramic tile 1 and the ground 5 and partially overlaps with the moisture-proof pad 3; the chamfer surface 41 and the stone or the ceramic tile 1 are filled with adhesive, so that the functions of water resistance, dust resistance and isolation can be achieved.

The utility model discloses in, floor 4 except splice with stone material or ceramic tile 1 and mat formation, can also splice the construction with metal sheet, threshold stone or stair floor etc..

Preferably, the chamfer 41 has a height of the thickness of the floor 4 and a width of 10-30 mm. In this embodiment, the chamfered surface 41 is a smooth surface, and the smooth chamfered surface 41 facilitates the adhesive to smoothly move upward along the chamfered surface 41 to fill up the entire expansion joint 6. Preferably, the angle between the chamfer 41 and the bottom surface of the floor 4 is 120-. In this embodiment, the angle between the chamfer 41 and the bottom surface of the floor 4 is 135 °.

The adhesive with a width of at least 10mm is arranged on the bottom surface adjacent to the chamfer surface 41, and the adhesive scraped on the bottom surface is utilized to be connected with the adhesive layer 2 of the ground 5, so that the floor 4 is better fixed on the ground 5 without warping or deformation.

Preferably, the adhesive layer 2 can be coated with a coating with a width of 100-300mm and a thickness of 10-30mm, and a joint of the adhesive layer 2 and the moisture-proof pad 3 is provided with a superposition tape with a thickness of 10-20mm, so that the superposed part of the moisture-proof pad 3 and the adhesive layer 2 is adhered to the ground 5 and kept fixed.

In this embodiment, the floor 4 is any one of a solid wood floor, a solid wood composite floor, and a bamboo floor.

Preferably, the adhesive is a specialized polyurethane adhesive. The polyurethane adhesive is divided into two categories of polyisocyanate and polyurethane, has high activity and polarity, and has excellent chemical adhesive force with base materials containing active hydrogen, such as porous materials of foam, plastic, wood, leather, fabric, paper, ceramic and the like, and materials with smooth surfaces such as metal, glass, rubber, plastic and the like.

In this embodiment, the concrete process of splicing the floor and the stone is as follows:

a1, treating the floor and the stone, i.e. the floor and the stone surface need to be cleaned, kept flat and dried.

a2, pasting 40mm wide color separation paper on the upper surfaces of the stone and the floor adjacent to the splicing side.

a3, coating adhesive on the ground adjacent to the spliced side of the stone, wherein one side of the adhesive extends to the upper opening of the stone, and the other side of the adhesive is coated with adhesive with the width of 100mm and the thickness of 20mm from the spliced side of the stone.

a4, paving a 2mm thick moisture-proof pad on the other side of the adhesive, namely 80mm away from the spliced side of the stone, wherein a 20mm overlapping band is arranged at the joint of the moisture-proof pad and the adhesive layer on the ground.

a5, beveling a chamfer on the splicing side of the floor, and polishing the chamfer, wherein the included angle between the chamfer and the bottom surface of the floor is 135 degrees; then coating adhesive on the oblique cutting surface and the bottom surface of the floor on the adjacent side of the oblique cutting surface; the underside of the floor was coated with a 10mm wide adhesive adjacent the chamfer side.

a6, paving the floor on the adhesive and the damp-proof pad on the ground, and leaving an expansion joint with a width of 5mm between the floor and the stone, slowly pressing the floor, so that the adhesive gradually moves upwards along the oblique section to fill the whole expansion joint in the process of slowly pressing the floor.

a7, after the floor is paved and the adhesive at the expansion joint is dried, tearing off the color separation paper on the upper surfaces of the stone and the floor, and finishing the surfaces of the stone and the floor by a blade.

a8, after paving, checking the splicing part of the whole house to see whether omission exists or not, and cleaning the site.

The splicing structure of the embodiment is stable, elegant and beautiful, the splicing part is not easy to be polluted and dirty, and the cleaning are easy; meanwhile, by adopting the structure, the floor spliced with the stone or the ceramic tile can be prevented from being damped and deformed, and a series of problems caused by damping and deformation of the edge of the floor can be avoided.

The present invention is not limited to the above preferred embodiments, and any person can obtain other products in various forms without departing from the scope of the present invention, but any change in shape or structure is within the scope of protection.

Claims (10)

1. The utility model provides a mosaic structure of floor and stone material or ceramic tile which characterized in that, it includes:

a stone or tile (1) laid on a floor (5);

the adhesive layer (2) is coated on the ground (5) adjacent to the splicing side of the stone or the ceramic tile (1), and one side of the adhesive layer extends to the upper opening of the stone or the ceramic tile (1) along the splicing side;

a moisture-proof pad (3) which is laid on the other side of the adhesive layer (2) and is partially overlapped with the joint of the adhesive layer (2);

the floor (4) is arranged above the moisture-proof pad (3) and the adhesive layer (2), an expansion joint (6) is reserved between the floor and the stone or the ceramic tile (1), a diagonal plane (41) is arranged on the splicing side of the floor (4), and an included angle between the diagonal plane (41) and the bottom surface of the floor (4) is an obtuse angle; and adhesive is filled between the inclined plane (41) and the stone or the ceramic tile (1).

2. -mosaic structure of floor and stone or ceramic tiles according to claim 1, wherein: the chamfer surface (41) is a smooth surface.

3. -mosaic structure of floor and stone or ceramic tiles according to claim 1, wherein: the included angle between the inclined cutting surface (41) and the bottom surface of the floor (4) is 120-150 degrees.

4. -floor and stone or tile splicing structure according to claim 3, wherein: the included angle between the inclined cutting surface (41) and the bottom surface of the floor (4) is 135 degrees.

5. -mosaic structure of floor and stone or ceramic tiles according to claim 1, wherein: the height of the chamfer surface (41) is the thickness of the floor (4), and the width of the chamfer surface is 10-30 mm.

6. -mosaic structure of floor and stone or ceramic tiles according to claim 1, wherein: the width of the adhesive layer (2) is 100-300mm, and a joint of the moisture-proof pad (3) and the adhesive layer (2) is provided with a superposition band of 10-20 mm.

7. -mosaic structure of floor and stone or ceramic tiles according to claim 1, wherein: the width of the expansion joint (6) is 3-5 mm.

8. -mosaic structure of floor and stone or ceramic tiles according to claim 1, wherein: the thickness of the moisture-proof pad (3) is 1-3 mm.

9. -mosaic structure of floor and stone or ceramic tiles according to claim 1, wherein: the floor (4) is one of a solid wood floor, a solid wood composite floor and a bamboo floor.

10. -mosaic structure of floor and stone or ceramic tiles according to claim 1, wherein: the height of the ground (5) does not fluctuate more than 2mm over a surface of 2 square meters.

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