CN219622164U - Anti-deformation ceramic tile connecting element and ceramic tile wall surface - Google Patents

Abstract

The utility model relates to the technical field of wall decoration, and provides a deformation-resistant ceramic tile connecting member and a ceramic tile wall surface, which are used for connecting at least two adjacent ceramic tiles and two adjacent base plates on a wall body, wherein the deformation-resistant ceramic tile connecting member comprises: the keel assembly is used for being fixedly connected to the wall body, the keel assembly is provided with a boss, and adjacent base plates are respectively positioned on two sides of the boss and connected to the keel assembly; the bonding adhesive layer is arranged on one surface of the boss, which is away from the wall body, and the adjacent ceramic tiles are arranged on one side of the boss, which is away from the wall body, side by side and fixed through the bonding adhesive layer; and the spacer is positioned between the ceramic tile and the substrate. The ceramic tile is easy to loosen and fall off due to the fact that the substrate is easy to absorb moisture, expand and deform in a humid environment in the prior art.

Description

Anti-deformation ceramic tile connecting element and ceramic tile wall surface

Technical Field

The utility model relates to the technical field of wall decoration, in particular to a deformation-resistant ceramic tile connecting member and a ceramic tile wall surface.

Background

In the process of wall decoration of a kitchen, the wall surfaces of many places in the prior art often adopt the decoration form of wallboard. The wall board for decoration is paved on the surface of the wall body, the front surface of the wall board can be in a pure color, a decorative picture or a surface in a decorative form, and thus, the wall body has high installation efficiency and good wall body decoration effect in a direct installation mode of the wall board.

The existing assembly type kitchen wall surface technology is generally characterized in that a layer of base plate is arranged on a wall surface, and then wall tiles are pasted on the base plate. However, the substrate is easy to absorb moisture, expand and deform in a wet environment, and the tiles attached to the substrate are basically not deformed, so that uneven surfaces of the substrate for attaching the tiles are caused, the tiles on the substrate are not firmly fixed on the uneven surfaces, and the tiles are loose and fall off.

Accordingly, the prior art is still in need of improvement and development.

Disclosure of Invention

The utility model aims to provide a deformation-resistant ceramic tile connecting member and a ceramic tile wall surface, which are used for solving the problems that in the prior art, a substrate is easy to absorb moisture, expand and deform to cause the ceramic tile to be loose and easy to fall off.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

in one aspect, the present utility model provides a deformation resistant tile connecting member for connecting at least two adjacently disposed tiles and two adjacently disposed base plates to a wall, wherein the deformation resistant tile connecting member comprises: the keel assembly is used for being fixedly connected to the wall body, the keel assembly is provided with a boss, and adjacent base plates are respectively positioned on two sides of the boss and connected to the keel assembly;

the bonding adhesive layer is arranged on one surface of the boss, which is away from the wall body, and the adjacent ceramic tiles are arranged on one side of the boss, which is away from the wall body, side by side and fixed through the bonding adhesive layer;

and the spacer is positioned between the ceramic tile and the substrate.

In one embodiment, the keel assembly comprises: the leveling frame is fixedly arranged on the wall body;

the keel frame is arranged on the leveling frame, and the boss is arranged on the keel frame.

In one embodiment, the keel frame further comprises side supports connected to the left side and the right side of the boss, and the side supports are connected to the leveling frame;

the side supports on the two sides respectively form a supporting step with the boss, and the substrate is fixed on the supporting step.

In one embodiment, the boss comprises: the connecting panel is parallel to the wall body and is connected with the tiles arranged side by side;

the two first side support plates are respectively and vertically connected to two sides of the connecting panel and are connected with the side support, and the base plates on the two sides are respectively located on the outer sides of the first side support plates.

In one embodiment, the connecting panel has the same linear expansion coefficient as the tile.

In one embodiment, the side bracket includes: the side cross plates are provided with two first side support plates which are respectively connected to the left side and the right side;

the two second side support plates are respectively and vertically arranged at the outer edges of the side transverse plates at two sides and are connected to the leveling frame;

the bending edge is arranged at one end of the second side support plate, facing the wall body, and bends towards the inner side.

In one embodiment, the base plate is fixedly connected to the side cross plate by a screw.

In one embodiment, the leveling frame has a limit groove, and the keel frame is embedded in the limit groove and connected to the leveling frame.

In one embodiment, a gap is formed between adjacent tiles, and the gap is filled with a joint filling adhesive layer.

On the other hand, the utility model also provides a ceramic tile wall surface, which comprises a plurality of ceramic tiles arranged side by side, a plurality of substrates arranged at intervals, and the deformation-resistant ceramic tile connecting members, wherein the deformation-resistant ceramic tile connecting members are fixedly connected between a plurality of adjacent wall boards and between a plurality of adjacent substrates.

The anti-deformation ceramic tile connecting member and the ceramic tile wall surface provided by the utility model have the beneficial effects that: through the both sides position fixed base plate at the boss to bond the ceramic tile that sets up side by side on the upper surface of boss, make the ceramic tile of left and right sides cover the boss of left and right sides, and make ceramic tile fixed connection on the boss of fossil fragments subassembly, and fossil fragments subassembly is fixed on the wall body, thereby make base plate and ceramic tile homoenergetic be fixed on the wall body. Through set up the pad between base plate and ceramic tile, not only can play the effect of noise reduction, reduction ceramic tile hollowing sense, make base plate and ceramic tile not directly connect through the pad moreover, even the base plate is wet and warp and also can not directly exert force to the ceramic tile because there is not direct junction, the influence of the base plate of having reduced the deformation greatly to the ceramic tile, in addition, because the pad is flexible pad, also have the cushioning effect to the deformation of base plate, give way after carrying out flexible deformation, the influence of base plate change to the ceramic tile has been reduced greatly, thereby even the base plate is wet also can not lead to the problem that the ceramic tile becomes flexible, breaks away from yet.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a cross-sectional view of a tile connecting member provided with resistance to deformation in accordance with an embodiment of the present utility model;

fig. 2 is a schematic view of a tile connecting member with deformation resistance after being detached according to an embodiment of the present utility model.

Wherein, each reference sign in the figure:

100. a wall body; 200. ceramic tile; 210. a substrate; 220. a screw connection; 230. joint filling glue layers; 300. a keel assembly; 310. leveling rack; 311. a first deployment edge panel; 312. a second riser; 313. a third cross plate; 314. a fourth riser; 315. a second deployment edge panel; 316. a limit groove; 317. a connecting piece; 320. a keel frame; 321. a boss; 3211. a connection panel; 3212. a first side support plate; 322. self-tapping screw; 323. a side bracket; 3231. a side cross plate; 3232. a second side support plate; 3233. bending the edge; 324. a support step; 400. an adhesive layer; 500. and a spacer.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly or indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The directions or positions indicated by the terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. are directions or positions based on the drawings, and are merely for convenience of description and are not to be construed as limiting the present technical solution. The terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "a plurality of" is two or more, unless specifically defined otherwise.

Referring to fig. 1, the present embodiment provides a deformation-resistant tile 200 connecting member for connecting at least two adjacent tiles 200 and two adjacent base plates 210 to a wall 100. For convenience of structural description, taking the side-by-side splicing of the tiles 200 in the left-right direction as an example, taking the side of the wall body 100 as the rear side and the side of the tile 200 as the front side, the base plate 210 is located between the wall body 100 and the tile 200, and the tile 200 and the base plate 210 are arranged in front of the wall body 100 through the deformation-resistant tile 200 connecting member. The present deformation resistant tile 200 connecting elements mainly comprise: keel assembly 300, adhesive layer 400 and spacer 500. The keel assembly 300 is fixedly connected to the front surface of the wall body 100, the keel assembly 300 has a boss 321, the boss 321 protrudes toward the front side of the wall body 100, and the base plates 210 on the left and right sides are respectively located on both sides of the boss 321 and fixedly connected to the keel assembly 300, so that the base plates 210 on the left and right sides are fixed to the front side of the wall body 100 through the keel assembly 300. The adhesive layer 400 is disposed on one side (on the front surface) of the boss 321 facing away from the wall body 100, adjacent tiles 200 are disposed side by side in the left-right direction, and are fixed on the front surface of the boss 321 by the adhesive layer 400, thereby realizing the fixation of the tiles 200 and positioning the tiles 200 in front of the base plate 210; the spacer 500 is located between the tile 200 and the substrate 210, and the front and rear surfaces of the spacer 500 are respectively attached to the tile 200 and the substrate 210, and the spacer 500 may be a flexible pad, such as a mute pad, etc.

When the tile 200 on the kitchen wall is mounted, the keel assembly 300 is fixed at the preset position of the wall body 100, the boss 321 is protruded out of the wall body 100, mounting positions are arranged on the left side and the right side of the boss 321, the base plates 210 are respectively fixed at the positions on the left side and the right side of the boss 321, the base plates 210 on the left side and the right side are fixed on the keel assembly 300, the spacers 500 are respectively paved on the base plates 210 on the left side and the right side, the tile 200 is arranged on the upper surface of the boss 321 side by side along the left direction, the tile 200 is adhered and fixed on the boss 321 through the adhesive layer 400, the tile 200 on the left side and the right side covers the boss 321 on the left side and the right side, and the base plates 210 and the tile 200 can be fixed on the wall body 100. By arranging the spacer 500 between the substrate 210 and the tile 200, the spacer 500 not only can play a role in reducing noise and reducing hollowness of the tile 200, but also can prevent the substrate 210 from being directly connected with the tile 200 through the spacer 500, even if the substrate 210 is damped and deformed, the tile 200 cannot be directly forced because no direct connection exists, so that the influence of the deformed substrate 210 on the tile 200 is greatly reduced, in addition, because the spacer 500 is a flexible pad, the deformation of the substrate 210 also has a buffering effect, the spacer 500 is bent after being flexibly deformed, the influence of the substrate 210 change on the tile 200 is greatly reduced, and the deformation of the substrate 210 after being damped and deformed almost cannot cause extrusion on the tile 200.

As shown in fig. 1 and 2, further, the keel assembly 300 in this embodiment specifically includes: leveling frame 310 and keel frame 320. The leveling frame 310 is fixedly installed on the front surface of the wall body 100 through the connection member 317, the keel frame 320 is installed on the leveling frame 310, and the boss 321 is provided on the front surface of the keel frame 320. The front surface of the boss 321 is used as the installation surface for installing the ceramic tile 200 of the whole keel assembly 300, after the leveling frame 310 is fixedly arranged on the wall body 100 through the connecting piece 317, the front surfaces of the bosses 321 in the connecting members of the ceramic tiles 200 are all in the same plane through the position adjustment of the keel frame 320 on the leveling frame 310, and thus the front surface of the flat boss 321 is used as the standard for installing the ceramic tile 200, and a flat and stable installation standard surface is provided for the connection of the ceramic tile 200.

As shown in fig. 1 and 2, further, the keel frame 320 in the present embodiment further includes side supports 323 connected to the left and right sides of the boss 321, and the side supports 323 are connected to the leveling frame 310; the side supports 323 on both sides make the boss 321 protrude from the leveling frame 310, and support steps 324 are formed between the side supports 323 on both sides and the boss 321, respectively, so that the support steps 324 are located at the front side of the leveling frame 310, one side of the substrate 210 is mounted on the support steps 324, and the substrate 210 is limited by the support steps 324. In the process of installing the substrate 210, the alignment is directly performed through the supporting step 324, so that the substrate 210 is ensured to be installed at an accurate position, the substrate 210 is convenient to install, and the installation convenience is improved.

As shown in fig. 1 and 2, further, the boss 321 in this embodiment specifically includes: the connection panel 3211 and two first side support plates 3212. The connection panel 3211 is disposed parallel to the wall 100, and has a front surface coated with an adhesive layer 400 for connecting the tiles 200 disposed side by side; the two first side support plates 3212 are respectively and vertically connected to two sides of the connection panel 3211, the rear ends of the first side support plates 3212 are connected to the side brackets 323, and the substrates 210 on the two sides are respectively located outside the first side support plates 3212. The connection panel 3211 is stably supported by the first side support plates 3212 at the left and right sides, so that the connection panel 3211 has a strong bearing capacity and is enough to bear two tiles 200. In addition, the first side support plate 3212 limits the direction of action of the substrate 210, and does not move the substrate 210 in the lateral direction inward, thereby realizing connection reliability.

As shown in fig. 1 and 2, the connection panel 3211 in the present embodiment has the same linear expansion coefficient as the tile 200. By adopting the same expansion coefficient or a similar expansion coefficient, when the connecting panel 3211 and the tile 200 expand in the same environment, the deformation amount generated is the same or the deformation amount is not greatly different, so when the tile 200 is fixed on the connecting panel 3211, even if the tile is deformed in the same environment with temperature change or humidity change, the deformation amount is not changed, thus ensuring the stability of the fixation of the tile 200 and ensuring the tile 200 not to fall off easily.

As shown in fig. 1 and 2, further, the side bracket 323 in the present embodiment specifically includes: a side cross plate 3231, two second side support plates 3232, and a bent edge 3233. The side cross plates 3231 are provided with two first side support plates 3212 connected to the left and right sides, respectively, and support steps 324 are formed between the side cross plates 3231 on both sides and the corresponding first side support plates 3212, and support the substrate 210 by the side cross plates 3231. Two second side support plates 3232 are vertically disposed at outer edges of the side cross plates 3231 at both sides, respectively, and the two second side support plates 3232 are connected to the leveling frame 310; after the second side support plate 3232 is connected to the leveling frame 310, the side cross plate 3231 is supported, and the support strength of the side cross plate 3231 is enhanced, so that the side cross plate 3231 supports the substrate 210 without being deformed. The bent edge 3233 is provided on one end of the second side support plate 3232 facing the wall body 100, and is bent toward the inside. The bending edge 3233 extends towards the inner side to form an inner curled edge, which can prevent the edge of the second side supporting plate 3232 from scratching a user, and the bending edge 3233 of the inner curled edge can be abutted against the leveling frame 310 to stably support the whole keel frame 320.

As shown in fig. 1 and 2, further, the base plate 210 in the present embodiment is fixedly connected to the side transverse plate 3231 by a screw member 220. The screw connection piece 220 can enhance the connection stability of the base plate 210 and the lateral transverse plate 3231, the screw connection piece 220 adopts self-tapping screws, the self-tapping screws are used for fixing, the operation is simple, and the assembly efficiency is high.

Further, as shown in fig. 1 and 2, the leveling frame 310 in this embodiment has a limit groove 316, and the keel frame 320 is embedded in the limit groove 316 and connected to the leveling frame 310. The leveling frame 310 has a first unfolding edge plate 311, a second vertical plate 312, a third horizontal plate 313, a fourth vertical plate 314 and a second unfolding edge plate 315 connected in sequence. The first expansion side plate 311 and the second expansion side plate 315 are in mirror symmetry and are obliquely arranged, the second vertical plate 312 and the fourth vertical plate 314 are in mirror symmetry and extend along the front-back direction, the front end of the second vertical plate 312 is connected with the first expansion side plate 311, the front end of the fourth vertical plate 314 is connected with the second expansion side plate 315, and the left end and the right end of the third transverse plate 313 are respectively connected with the rear end of the second vertical plate 312 and the rear end of the fourth vertical plate 314. A limiting groove 316 is formed among the second vertical plate 312, the third transverse plate 313 and the fourth vertical plate 314, a connecting piece 317 is penetrated in the limiting groove 316, the connecting piece 317 can be a nail, an expansion screw or the like, and the expansion screw penetrates through the third transverse plate 313 and is connected to the wall body 100, so that the leveling frame 310 is connected to the wall body 100. The keel frame 320 is embedded in the limit groove 316 and is connected to the leveling frame 310 body by threading tapping screws 322 on the left and right sides. Two self-tapping screws 322 penetrate through the side surfaces of the second vertical plate 312 and the fourth vertical plate 314 respectively and are connected to the left side and the right side of the keel frame 320, so that the keel frame 320 and the leveling frame 310 body are fixedly connected. The connection mode is fixed and stable, and the keel frame 320 is not easy to loosen left and right through limiting the limiting grooves 316, so that the connection is firmer.

Further, there is a gap between adjacent tiles 200, and the gap is filled with a joint compound layer 230. The joint is filled by the joint filling glue layer 230, so that the joint gaps between the tiles 200 are covered, and the wall surface after the tiles 200 are pasted is more beautiful.

The concrete use steps of the deformation-resistant tile 200 connecting member include:

step S100, fixing the leveling frame 310 on the wall body 100 through the connecting piece 317 (expansion screw). The fixing of the leveling frame 310 ensures that each mounting keel forms a flat surface.

Step 200, fixing the keel frame 320 on the leveling frame 310 by self-tapping screws. Wherein the keel frame 320 is embedded in the limit groove 316 of the leveling frame 310.

In step S300, the base plate 210 is fixed on two sides of the boss 321 of the keel frame 320 by the screw connection 220.

Step S400, spacer 500 is laid on the front surface of substrate 210.

Step S500, the tile 200 is bonded to the front surface of the boss 321 by the adhesive layer 400 for connection and leveling.

Step S600, filling joint compound is injected into the gap between two adjacent tiles 200, and the joint compound layer 230 is formed after curing.

Example two

The present embodiment proposes a tile 200 wall, which includes a plurality of tiles 200 arranged side by side, a plurality of substrates 210 arranged at intervals, and the above-mentioned deformation-resistant tile 200 connecting members, wherein the plurality of adjacent wall boards and the plurality of adjacent substrates 210 are fixedly connected by the deformation-resistant tile 200 connecting members.

In summary, the present utility model provides a deformation-resistant tile 200 connecting member and a wall surface of the tile 200, wherein the base plate 210 is fixed at two sides of the boss 321, and the tile 200 arranged side by side is adhered on the upper surface of the boss 321, so that the tile 200 at the left and right sides covers the boss 321 at the left and right sides, and the tile 200 is fixedly connected to the boss 321 of the keel assembly 300, and the keel assembly 300 is fixed to the wall 100, thereby fixing both the base plate 210 and the tile 200 to the wall 100. By arranging the spacer 500 between the substrate 210 and the tile 200, noise and hollowness of the tile 200 can be reduced, the substrate 210 and the tile 200 are not directly connected through the spacer 500, even if the substrate 210 is damped and deformed, the tile 200 cannot be directly forced because no direct connection exists, so that the influence of the deformed substrate 210 on the tile 200 is greatly reduced, in addition, the spacer 500 is a flexible pad, the deformation of the substrate 210 also has a buffering effect, and the spacer is bent after flexible deformation, so that the influence of the substrate 210 change on the tile 200 is greatly reduced. Since the linear expansion coefficient of the connection panel 3211 is the same as that of the tile 200, deformation is less likely to occur after installation. Support steps 324 are formed on the left side and the right side of the boss 321, and the support steps 324 provide mounting positions for the substrate 210, so that the substrate 210 is on the same plane with the front surface of the boss 321 after being mounted, and the mounting of the ceramic tile 200 is not affected; the side bracket 323 has a second side support plate 3232, and the second side support plate 3232 can be used in combination with the leveling frame 310 to achieve leveling and adjustment of the keel structure on the entire wall 100, thereby providing a flat mounting datum for tile 200 installation.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. A deformation-resistant tile connecting member for connecting at least two adjacently disposed tiles and two adjacently disposed base plates to a wall, the deformation-resistant tile connecting member comprising: the keel assembly is used for being fixedly connected to the wall body, the keel assembly is provided with a boss, and adjacent base plates are respectively positioned on two sides of the boss and connected to the keel assembly;

the bonding adhesive layer is arranged on one surface of the boss, which is away from the wall body, and the adjacent ceramic tiles are arranged on one side of the boss, which is away from the wall body, side by side and fixed through the bonding adhesive layer;

and the spacer is positioned between the ceramic tile and the substrate.

2. The deformation-resistant tile connecting member of claim 1, wherein said keel assembly comprises: the leveling frame is fixedly arranged on the wall body;

the keel frame is arranged on the leveling frame, and the boss is arranged on the keel frame.

3. The deformation resistant tile connecting structure of claim 2, wherein said keel frame further comprises side brackets attached to the left and right sides of said boss, said side brackets being attached to said leveling frame;

the side supports on the two sides respectively form supporting steps with the boss, and the substrate is fixed on the supporting steps.

4. A deformation-resistant tile connecting member according to claim 3, wherein said boss comprises: the connecting panel is parallel to the wall body and is connected with the tiles arranged side by side;

the two first side support plates are respectively and vertically connected to two sides of the connecting panel and connected with the side supports, and the base plates on two sides are respectively located on the outer sides of the first side support plates.

5. The deformation-resistant tile connecting member of claim 4, wherein the connecting panel has the same coefficient of linear expansion as the tile.

6. The deformation-resistant tile connecting member of claim 4, wherein said side bracket comprises: the side cross plates are provided with two first side support plates which are respectively connected to the left side and the right side;

the two second side support plates are respectively and vertically arranged at the outer edges of the side transverse plates at two sides and are connected to the leveling frame;

the bending edge is arranged at one end of the second side face supporting plate, which faces the wall body, and bends towards the inner side.

7. The deformation-resistant tile connecting member of claim 6, wherein the base plate is fixedly attached to the side rails by screws.

8. The deformation-resistant tile connecting member of claim 2, wherein the leveling frame has a limit groove, and wherein the keel frame is embedded in the limit groove and connects the leveling frame.

9. A deformation resistant tile connecting element according to any one of claims 1 to 8, wherein adjacent tiles have a gap therebetween, said gap being filled with a joint compound layer.

10. A tile wall surface, comprising a plurality of tiles arranged side by side, a plurality of substrates arranged at intervals, and the deformation-resistant tile connecting members according to any one of claims 1 to 9, wherein a plurality of adjacent wall boards and a plurality of adjacent substrates are fixedly connected through the tile connecting members.