CN215802866U - Indoor composite ceramic tile dry-paving installation structure - Google Patents

Abstract

The utility model discloses an indoor composite ceramic tile dry-paving installation structure which comprises a floor slab base body and a side wall body, wherein a corner installation piece is arranged at the right-angle joint of the floor slab base body and the side wall body, a plurality of fixedly installed composite ceramic tile flat-paving installation pieces are arranged on the floor slab base body at intervals, the corner installation piece is provided with a vertical installation face and a horizontal installation face, an installation groove is arranged on the horizontal installation face, a first composite ceramic tile is vertically inserted in the installation groove and is connected to the vertical installation face through screws in a locking mode, one end of a second composite ceramic tile is laid on the horizontal installation face and abuts against the front face of the first composite ceramic tile, a first screw counter bore is formed in the horizontal installation face, and the corner installation piece is fixedly arranged on the floor slab base body through a screw in a penetrating mode. The utility model can more conveniently install the ceramic tiles at the corners of the wall body, is convenient and quick to install, improves the installation efficiency, has lower technical requirements on workers and can reduce the pollution to the environment during construction.

Description

Indoor composite ceramic tile dry-paving installation structure

Technical Field

The utility model relates to the technical field of building construction and installation, in particular to an indoor composite ceramic tile dry-paving installation structure.

Background

The decoration of indoor and outdoor walls by ceramic tiles is a common practice in the technical field of decoration. The existing method for paving and pasting ceramic tiles on the wall surface comprises the steps of leveling the original wall surface by cement mortar, and paving and pasting the ceramic tiles by using ceramic tile mortar after the mortar is solidified. Because the acceptance requirement of the decorative surface and the flatness and the attractive appearance requirement of the decorative surface are met, the process of paving and pasting the ceramic tiles also needs to be debugged repeatedly, and the method has high technical requirement on installation workers, wastes time and energy and has high labor intensity. In addition, the mortar is stirred on site, the environment is polluted, and the construction efficiency is low.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model aims to provide an indoor composite ceramic tile dry-paving installation structure.

The purpose of the utility model is realized by the following technical scheme: the utility model provides an indoor composite ceramic tile dry-paving mounting structure, includes floor base member and side wall body, the right angle department of floor base member and side wall body is equipped with the corner installed part, the interval is equipped with a plurality of fixed mounting's composite ceramic tile tiling installed part on the floor base member, the corner installed part has vertical installation face and horizontal installation face, be equipped with the mounting groove on the horizontal installation face, lay the perpendicular grafting of first composite ceramic tile at side wall body in the mounting groove, and utilize the triumph of screw to connect on the vertical installation face, lay floor base member's second composite ceramic tile one end is laid on the horizontal installation face, and support the top first composite ceramic tile's front, be equipped with first screw counter bore on the horizontal installation face, the corner installed part is worn to establish through the screw first screw counter bore is fixed on the floor base member.

As an improvement of the indoor composite tile dry-paving installation structure, the middle part of the composite tile paving installation part is provided with a middle convex strip, two sides of the middle convex strip are respectively provided with a tile abutting step, the other end of the second composite tile is laid on the tile abutting step and abuts against the side surface of the middle convex strip, the other tile abutting step is laid with a third composite tile, and the third composite tile and the second composite tile abut against the middle convex strip together.

As an improvement of the indoor composite ceramic tile dry-paving installation structure, a gap is formed between the third composite ceramic tile and the second composite ceramic tile, and the gap is filled with sealant or waterproof glue.

As an improvement of the indoor composite tile dry-paving installation structure, the first composite tile, the second composite tile and the third composite tile respectively comprise a ceramic surface layer and a plastic base layer, the ceramic surface layer and the plastic base layer are bonded through glue, and when the first composite tile, the second composite tile and the third composite tile are paved, the plastic base layer is arranged on the bottom surface, and the ceramic surface layer is arranged on the top surface.

As an improvement of the indoor composite tile dry-laying installation structure, the corner installation piece is in an L shape, and the vertical installation surface of the corner installation piece is locked and connected on the plastic base layer of the first composite tile through screws.

As an improvement of the indoor composite ceramic tile dry-paving installation structure, the thickness of the sealant or waterproof glue filling is the same as that of the ceramic surface layer.

As an improvement of the indoor composite ceramic tile dry-paving installation structure, the two ceramic tile abutting steps of the composite ceramic tile paving installation piece are respectively provided with a second screw counter bore, and the composite ceramic tile paving installation piece is penetrated through the second screw counter bores through screws and is connected to the floor slab base body in a locking mode.

As an improvement of the indoor composite tile dry-paving installation structure, a plurality of overhead supports are arranged on the corner installation part and the composite tile paving installation part at intervals, and a pipeline can be installed in a space channel between every two adjacent overhead supports.

The utility model has the beneficial effects that: the utility model adopts the dry paving mode of the composite ceramic tiles, and utilizes the corner mounting piece and the composite ceramic tile paving mounting piece to lay the ceramic tiles, the corner mounting piece can more conveniently mount the ceramic tiles at the corners of the wall body, the mounting is convenient and quick, the mounting efficiency is improved, meanwhile, the technical requirements on workers are lower, and the pollution to the environment can be reduced during the construction; the decorative tiles on the vertical surface can be quickly laid only by aligning the grooves of the corner mounting pieces for splicing and then fixing with screws. The composite tile tiling mounting piece is favorable for tiling of tiles, and can fill partial tile gaps, reserve partial gaps and be used for filling sealant or waterproof glue. The utility model also adopts a ceramic tile overhead installation mode, and the overhead structure can conveniently arrange lines and pipelines, is beneficial to the installation of water pipes and electric wires, and does not need to carry out complicated steps such as chiseling on the wall body.

Drawings

FIG. 1 is a schematic view of the mounting structure of the present invention;

FIG. 2 is a schematic view of the corner mounting arrangement of the present invention;

the reference signs are: 1. floor base member 2, side wall body 3, corner installed part 4, compound ceramic tile tiling installed part 5, first compound ceramic tile 6, the compound ceramic tile 7 of second, first screw counter bore 8, the compound ceramic tile 9 of third, space 10, gap 11, ceramic surface course 12, plastics basic unit 13, overhead support 31, vertical installation face 32, horizontal installation face 33, mounting groove 41, middle sand grip 42, the ceramic tile is supported and is pushed up step 43, second screw counter bore.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention without any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 and 2, an indoor composite tile dry-paving installation structure comprises a floor base 1 and a side wall 2, wherein a corner installation part 3 is arranged at the right-angle joint of the floor base 1 and the side wall 2, a plurality of composite tile flat-paving installation parts 4 fixedly installed on the floor base 1 are arranged at intervals, the corner installation part 3 is provided with a vertical installation surface 31 and a horizontal installation surface 32, the horizontal installation surface 32 is provided with an installation groove 33, a first composite tile 5 paved on the side wall 2 is vertically inserted in the installation groove 33 and is locked and connected on the vertical installation surface 31 by screws, one end of a second composite tile 6 paved on the floor base 1 is paved on the horizontal installation surface 32, and the corner mounting piece 3 is supported against the front surface of the first composite ceramic tile 5, a first screw counter bore 7 is arranged on the horizontal mounting surface 32, and the corner mounting piece is fixed on the floor slab base body 1 through the first screw counter bore 7 which is penetrated by screws.

Preferably, the middle part of the composite tile tiling mounting part 4 is provided with a middle convex strip 41, two sides of the middle convex strip 41 are respectively provided with a tile abutting step 42, the other end of the second composite tile 6 is paved on the tile abutting step 42 and abuts against the side surface of the middle convex strip 41, the other tile abutting step 42 is paved with a third composite tile 8, and the third composite tile 8 and the second composite tile 6 abut against the middle convex strip 41 together. The height of the middle rib 41 is set to be the same as that of the plastic base layer.

Preferably, a gap 10 is formed between the third composite tile 8 and the second composite tile 6, and the gap 10 is filled with sealant or waterproof glue.

Preferably, the first composite ceramic tile 5, the second composite ceramic tile 6 and the third composite ceramic tile 8 all comprise a ceramic surface layer 11 and a plastic base layer 12, the ceramic surface layer 11 and the plastic base layer 12 are bonded through glue, and when the first composite ceramic tile 5, the second composite ceramic tile 6 and the third composite ceramic tile 8 are laid, the plastic base layer 12 is arranged on the bottom surface and the ceramic surface layer 11 is arranged on the top surface.

Preferably, the corner mounting members 3 are L-shaped and the vertical mounting surfaces 31 of the corner mounting members 3 are screwed to the plastic substrate 12 of the first composite tile 5.

Preferably, the sealant or waterproof gel fill is the same thickness as the ceramic facing 11. The thickness of the sealant or the waterproof glue filling is just the thickness of the ceramic surface layer 11, so that water or other liquid can be effectively prevented from flowing into the floor slab base body 1 from gaps, and the problems of mildew and the like of the plastic base layer 12 can be prevented.

Preferably, the two tile abutting steps 42 of the composite tile tiling installation member 4 are both provided with second screw counter bores 43, and the composite tile tiling installation member 4 is penetrated through the second screw counter bores 43 by screws and is locked on the floor slab base body 1.

Preferably, a plurality of overhead supports 13 are arranged on the corner mounting part 3 and the composite tile tiling mounting part 4 at intervals, and pipelines can be installed in the space 9 between two adjacent overhead supports 13.

The utility model adopts the dry paving mode of the composite ceramic tiles, the corner mounting pieces 3 and the composite ceramic tile paving mounting pieces 3 are utilized to pave the ceramic tiles, the corner mounting pieces 3 can more conveniently mount the ceramic tiles at the corners of the wall body, the mounting is convenient and quick, the mounting efficiency is improved, meanwhile, the technical requirements on workers are lower, and the pollution to the environment can be reduced during the construction; the decorative tiles on the vertical surface can be quickly laid only by aligning the grooves of the corner mounting pieces for splicing and then fixing with screws. The composite tile tiling mounting piece is favorable for tiling of tiles, and can fill partial tile gaps, reserve partial gaps and be used for filling sealant or waterproof glue. The utility model also adopts a ceramic tile overhead installation mode, and the overhead structure can conveniently arrange lines and pipelines, is beneficial to the installation of water pipes and electric wires, and does not need to carry out complicated steps such as chiseling on the wall body.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and arrangements of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An indoor composite ceramic tile dry-paving installation structure comprises a floor slab base body and a side wall body, and is characterized in that, a corner mounting piece is arranged at the right-angle joint of the floor slab base body and the side wall body, a plurality of fixedly mounted composite ceramic tile tiled mounting pieces are arranged on the floor slab base body at intervals, the corner mounting piece is provided with a vertical mounting surface and a horizontal mounting surface, the horizontal mounting surface is provided with a mounting groove, a first composite ceramic tile laid on the side wall body is vertically inserted in the mounting groove and is connected on the vertical mounting surface by screws, one end of a second composite ceramic tile laid on the floor slab base body is laid on the horizontal mounting surface and is abutted against the front surface of the first composite ceramic tile, the horizontal mounting surface is provided with a first screw counter bore, and the corner mounting piece is fixed on the floor base body through the first screw counter bore in a penetrating mode through screws.

2. The indoor composite tile dry-laying installation structure of claim 1, wherein a middle convex strip is arranged in the middle of the composite tile laying installation part, tile abutting steps are respectively arranged on two sides of the middle convex strip, the other end of the second composite tile is laid on the tile abutting steps and abuts against the side face of the middle convex strip, a third composite tile is laid on the other tile abutting step, and the third composite tile and the second composite tile abut against the middle convex strip together.

3. The indoor composite tile dry-laying installation structure according to claim 1, wherein a gap is provided between the third composite tile and the second composite tile, and the gap is filled with a sealant or a waterproof sealant.

4. The indoor composite tile dry-laid mounting structure as claimed in claim 3, wherein the first composite tile, the second composite tile and the third composite tile each comprise a ceramic facing and a plastic base, the ceramic facing and the plastic base are bonded by glue, and when the first composite tile, the second composite tile and the third composite tile are laid, the plastic base is on the bottom surface and the ceramic facing is on the top surface.

5. An indoor composite tile dry-laid mounting structure as claimed in claim 4, wherein said corner mounting member is L-shaped, and a vertical mounting surface of said corner mounting member is screwed onto the plastic substrate of said first composite tile.

6. The indoor composite tile dry-laid mounting structure as claimed in claim 4, wherein the sealant or waterproof glue is filled to the same thickness as the ceramic facing layer.

7. The indoor composite tile dry-laid mounting structure as claimed in claim 2, wherein the two tile abutting steps of the composite tile laying mounting member are respectively provided with a second screw counter bore, and the composite tile laying mounting member is inserted through the second screw counter bores by screws and is locked on the floor base.

8. The indoor composite tile dry-laid installation structure according to claim 1, wherein a plurality of overhead supports are arranged on each of the corner installation part and the composite tile laying installation part at intervals, and a pipeline can be installed in a space channel between two adjacent overhead supports.

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