CN111364726A - Assembled composite ceramic tile - Google Patents

Abstract

The invention provides an assembled composite ceramic tile, which comprises a ceramic tile and a bottom die compounded at the bottom of the ceramic tile, wherein the bottom die comprises: the splicing structure comprises a first splicing edge, a second splicing edge, a third splicing edge and a fourth splicing edge which are sequentially arranged, wherein the first splicing edge and the third splicing edge are respectively positioned at two opposite edges of the template, and the second splicing edge and the fourth splicing edge are respectively positioned at the other two opposite edges of the splicing plate; each splicing edge is provided with a splicing notch and a splicing block; the splicing notches on the two opposite sides are arranged corresponding to the splicing blocks. Compared with the prior art, the invention has the following advantages: the back field is unified to be made, and the scene is directly assembled can, and overall structure is light, simple to operate, swift, and technical requirement is low, not only improves the efficiency of construction, reduces material and cost of labor, accords with green's fitment theory simultaneously.

Description

Assembled composite ceramic tile

Technical Field

The invention relates to a ceramic tile, in particular to an assembled composite ceramic tile.

Background

Assembly decoration is a form of decorative construction emerging in recent years. The assembled decoration is as the name implies, namely, each part required to be used for decoration is produced and completed in a factory and then is transported to a decoration site for combined installation, so that the operations of measurement, cutting and the like of each part in the traditional decoration site are omitted, the construction is simpler and more convenient, the construction efficiency of the decoration site can be greatly improved, the construction site is cleaner and more beautiful, excessive decorative material garbage cannot be generated, and the assembled decoration is a more environment-friendly decoration construction form.

Traditionally, when paving ceramic tiles on the ground, a wet operation mode needs to be adopted, cement mortar needs to be paved on the ground in advance, then special ceramic tile mortar is adopted to pave the ceramic tiles, and the paving mode has the following defects: the cement mortar increases the load bearing of the building, and cannot be recycled, so that the resource waste is increased; the requirements on the proficiency of ceramic tile installation workers are high, the professional skill is strong, and the labor cost is high; in addition, the paving process is complicated, so that the construction time is long.

Disclosure of Invention

In view of the above, the invention provides the assembled composite ceramic tile which is manufactured uniformly on the back field, can be directly assembled on the field, is light in whole structure, convenient and quick to install, has low technical requirement, improves the construction efficiency, reduces the material and labor cost, and accords with the decoration concept of green and environmental protection.

Therefore, the invention provides an assembly type composite ceramic tile, which comprises a ceramic tile and a bottom die, wherein the bottom die is compounded at the bottom of the ceramic tile, and the bottom die comprises:

template:

the splicing structure is arranged around the template and comprises a first splicing edge, a second splicing edge, a third splicing edge and a fourth splicing edge which are sequentially arranged, wherein the first splicing edge and the third splicing edge are respectively positioned at two opposite edges of the template, and the second splicing edge and the fourth splicing edge are respectively positioned at the other two opposite edges of the template;

the first splicing edge comprises a first splicing notch and a first splicing block, the second splicing edge comprises a second splicing notch and a second splicing block, and the third splicing edge comprises a third splicing notch and a third splicing block; the fourth splicing edge comprises a fourth splicing notch and a fourth splicing block; the first splicing notch corresponds to the third splicing block in position, the first splicing block corresponds to the third splicing notch in position, the second splicing notch corresponds to the fourth splicing block in position, and the second splicing block corresponds to the fourth splicing notch in position.

Furthermore, the bottom die is of an integrated structure, and the bottom die is made of ABS resin.

Furthermore, the number of the first splicing notches, the first splicing blocks, the second splicing notches, the second splicing blocks, the third splicing notches, the third splicing blocks, the fourth splicing notches and the fourth splicing blocks is at least two.

Further, bottom edges of the first, second, third and fourth splicing recesses correspond to edges of the tile.

Further, the first, second, third and fourth splice recesses have the same depth and width.

Furthermore, along the plane direction of the ceramic tile, the first splicing block, the second splicing block, the third splicing block and the fourth splicing block all protrude out of the ceramic tile.

Further, the sizes of the first splicing block, the second splicing block, the third splicing block and the fourth splicing block are consistent.

Further, the shape and size of the first splicing notch are matched with those of the third splicing notch, the shape and size of the second splicing notch is matched with those of the fourth splicing notch, and the shape and size of the second splicing notch is matched with those of the fourth splicing notch.

Furthermore, a reinforcing rib is arranged at the bottom of the bottom die.

Further, the ribs are in a mesh shape having projections and depressions.

The invention provides an assembled composite ceramic tile which mainly comprises a ceramic tile and a bottom die, wherein the bottom die is compounded at the bottom of the ceramic tile, and the bottom die comprises a template and a splicing structure arranged around the template and used for splicing and assembling two ceramic tiles; the splicing structure comprises a first splicing edge, a second splicing edge, a third splicing edge and a fourth splicing edge which are positioned on the periphery of the template, wherein the first splicing edge and the third splicing edge are oppositely arranged and positioned on the two opposite edges of the template; the second splicing edge and the fourth splicing edge are positioned at the other two opposite edges of the template; each splicing edge is provided with a splicing notch and a splicing block; during the concatenation, splice the first concatenation limit and the third concatenation limit of two compound ceramic tiles, and second concatenation limit and fourth concatenation limit splice, and the splice is located the concatenation notch, then can splice the edge of compound ceramic tile and fix a position.

When the ceramic tiles are paved, the first splicing notch and the third splicing block of the adjacent spliced composite ceramic tiles are spliced, the first splicing notch and the third splicing notch are spliced, the second splicing notch and the fourth splicing block are spliced, and the second splicing block and the fourth splicing notch are spliced, so that the splicing work of the two adjacent composite ceramic tiles can be completed; and the rest can be done in the same way until the whole ground is paved.

Through the structure, compared with the prior art, the assembly type composite ceramic tile provided by the invention mainly has the following advantages:

the composite ceramic tile is manufactured uniformly on the back site, and a dry construction mode of directly splicing on the site reduces material waste and accords with a green and environment-friendly decoration idea;

the whole structure is light, the weight is reduced, the transportation is convenient, and the labor burden of workers is reduced;

thirdly, the installation is convenient and quick, and the construction efficiency is improved;

fourthly, the technical requirement is low, and the labor cost is reduced.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a top view of a fabricated composite tile according to an embodiment of the present invention;

FIG. 2 is a top view of a tile according to an embodiment of the present invention;

FIG. 3 is a top view of the bottom mold in an embodiment of the present invention;

FIG. 4 is a bottom view of the bottom mold in an embodiment of the present invention;

fig. 5 is a schematic view of splicing an assembled composite tile according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The first embodiment is as follows:

referring to fig. 1 to 3, a composite tile assembly according to an embodiment of the present invention is shown, which includes a tile 1 and a bottom mold 2, wherein the bottom mold 2 is combined with the bottom of the tile 1, and the bottom mold 2 includes: a template 21; the splicing structure is arranged around the template 21 and comprises a first splicing edge 22, a second splicing edge 23, a third splicing edge 24 and a fourth splicing edge 25 which are sequentially arranged, the first splicing edge 22 and the third splicing edge 24 are respectively positioned at two opposite sides of the template 21, and the second splicing edge 23 and the fourth splicing edge 25 are respectively positioned at the other two opposite sides of the template 21; the first splicing edge 22 comprises a first splicing notch 221 and a first splicing block 222, the second splicing edge 23 comprises a second splicing notch 231 and a second splicing block 232, and the third splicing edge 24 comprises a third splicing notch 241 and a third splicing block 242; the fourth splice edge 25 includes a fourth splice notch 251 and a fourth splice block 252; the first splice recess 221 corresponds in position to the third splice recess 242, the first splice recess 222 corresponds in position to the third splice recess 241, the second splice recess 231 corresponds in position to the fourth splice recess 252, and the second splice recess 232 corresponds in position to the fourth splice recess 251.

The bottom die 2 is of an integrated structure, the bottom die 2 is made of ABS resin, and the integrated injection molding is carried out.

The assembly type composite ceramic tile mainly comprises a ceramic tile 1 and a bottom die 2, wherein the bottom die 2 is combined at the bottom of the ceramic tile 1, and the bottom die 2 comprises a template 21 and a splicing structure arranged around the template 21 and used for splicing and assembling two ceramic tiles 1; the splicing structure comprises a first splicing edge 22, a second splicing edge 23, a third splicing edge 24 and a fourth splicing edge 25 which are positioned on the periphery of the template 21, wherein the first splicing edge 22 and the third splicing edge 24 are oppositely arranged and positioned on two opposite sides of the template 21; the second splicing edge 23 and the fourth splicing edge 25 are positioned on the other two opposite sides of the template 21; each splicing edge is provided with a splicing notch and a splicing block; during the concatenation, splice the first concatenation limit 22 and the third concatenation limit 24 of two compound ceramic tiles, splice second concatenation limit 23 and fourth concatenation limit 25, and the splice is located the concatenation notch, then can splice the edge of compound ceramic tile and fix a position.

Referring to fig. 5, when tiles are laid, the first splicing notch 221 and the third splicing block 242 of adjacent composite tiles are spliced, the first splicing block 222 and the third splicing notch 241 are spliced, the second splicing notch 231 and the fourth splicing block 252 are spliced, and the second splicing block 232 and the fourth splicing notch 251 are spliced, so that the splicing work of two adjacent composite tiles can be completed; and the rest can be done in the same way until the whole ground is paved.

Through the structure, compared with the prior art, the assembly type composite ceramic tile provided by the invention mainly has the following advantages:

the composite ceramic tile is manufactured uniformly on the back site, and a dry construction mode of directly splicing on the site reduces material waste and accords with a green and environment-friendly decoration idea;

the whole structure is light, the weight is reduced, the transportation is convenient, and the labor burden of workers is reduced;

thirdly, the installation is convenient and quick, and the construction efficiency is improved;

fourthly, the technical requirement is low, and the labor cost is reduced.

Example two:

referring to fig. 3, a fabricated composite tile according to a second embodiment of the present invention is shown, and on the basis of the above embodiments, the present embodiment further provides the following improvements: the number of the first splicing notches 221, the first splicing blocks 222, the second splicing notches 231, the second splicing blocks 232, the third splicing notches 241, the third splicing blocks 242, the fourth splicing notches 251 and the fourth splicing blocks 252 is set to be at least two; the bottom edges of the first, second, third and fourth splice recesses 221, 231, 241 and 251 coincide with the edges of the tile 1; the first, second, third, and fourth splice notches 221, 231, 241, and 251 are the same in depth and width. Through the arrangement of the structure, two or more groups of splicing notches and splicing block structures are arranged in each splicing edge, so that the splicing effect can be improved; all the notches are consistent with the edges of the ceramic tile 1, and the sizes of all the notches are the same, so that the processing is convenient, and the splicing quality is further improved.

Example three:

referring to fig. 3, a fabricated composite tile according to a third embodiment of the present invention is shown, and on the basis of the above embodiments, the present embodiment further provides the following improvements: along the plane direction of the ceramic tile 1, the first splicing block 222, the second splicing block 232, the third splicing block 242 and the fourth splicing block 252 all protrude out of the ceramic tile 1; the first, second, third, and fourth tiles 222, 232, 242, 252 are of the same size. Through the setting of above-mentioned structure, not only convenient processing can also promote whole concatenation effect, promotes pleasing to the eye degree.

Example four:

referring to fig. 3 and 5, a fabricated composite tile according to a fourth embodiment of the present invention is shown, and on the basis of the above embodiments, the present embodiment further provides the following improvements: the first splice recess 221 and the third splice recess 242 match in shape and size, the first splice recess 222 and the third splice recess 241 match in shape and size, the second splice recess 231 and the fourth splice recess 252 match in shape and size, and the second splice recess 232 and the fourth splice recess 251 match in shape and size. Through the arrangement of the structure, the notch is matched with the structure of the splicing block, the splicing effect is further improved, and the production of splicing seams is reduced.

Example five:

referring to fig. 4, a fabricated composite tile according to a fifth embodiment of the present invention is shown, and on the basis of the above embodiments, the present embodiment further provides the following improvements: the bottom of the bottom die 2 is provided with a reinforcing rib 26; the ribs 26 are in a concave-convex grid shape. Through the setting of above-mentioned structure, can improve the frictional force of compound ceramic tile bottom and ground, compound ceramic tile is difficult for taking place displacement or gliding phenomenon, improves holistic shop and pastes the effect.

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

Claims (10)

1. The utility model provides a compound ceramic tile of assembled, its characterized in that, includes ceramic tile (1) and die block (2), die block (2) compound in the bottom of ceramic tile (1), die block (2) include:

a template (21);

the splicing structure is arranged on the periphery of the template (21) and comprises a first splicing edge (22), a second splicing edge (23), a third splicing edge (24) and a fourth splicing edge (25) which are sequentially arranged, the first splicing edge (22) and the third splicing edge (24) are respectively positioned on two opposite sides of the template (21), and the second splicing edge (23) and the fourth splicing edge (25) are respectively positioned on the other two opposite sides of the template (21);

the first splicing edge (22) comprises a first splicing notch (221) and a first splicing block (222), the second splicing edge (23) comprises a second splicing notch (231) and a second splicing block (232), and the third splicing edge (24) comprises a third splicing notch (241) and a third splicing block (242); the fourth splice edge (25) comprises a fourth splice recess (251) and a fourth splice block (252); the first and third splicing notches (221, 242) correspond in position, the first and third splicing notches (222, 241) correspond in position, the second and fourth splicing notches (231, 252) correspond in position, and the second and fourth splicing notches (232, 251) correspond in position.

2. The fabricated composite tile according to claim 1, wherein the bottom mold (2) is of an integrated structure, and the bottom mold (2) is made of ABS resin.

3. An assembled composite tile according to claim 1 or 2, wherein the number of said first splicing recess (221), said first splicing block (222), said second splicing recess (231), said second splicing block (232), said third splicing recess (241), said third splicing block (242), said fourth splicing recess (251) and said fourth splicing block (252) is provided in at least two.

4. A fabricated composite tile according to claim 3, wherein the bottom edges of the first (221), second (231), third (241) and fourth (251) splice recesses coincide with the edges of the tile.

5. A fabricated composite tile according to claim 4, wherein the first (221), second (231), third (241) and fourth (251) splice recesses are of the same depth and width.

6. A fabricated composite tile according to claim 5, wherein the first, second, third and fourth tiles (222, 232, 242, 252) are all arranged to protrude from the tile (1) in a direction along the plane of the tile (1).

7. A fabricated composite tile according to claim 6, wherein said first, second, third and fourth tiles (222, 232, 242, 252) are of uniform size.

8. An assembled composite tile according to claim 7, wherein the first (221) and third (242) splice recesses match in shape and size, the first (222) and third (241) splice recesses match in shape and size, the second (231) and fourth (252) splice recesses match in shape and size, and the second (232) and fourth (251) splice recesses match in shape and size.

9. A fabricated composite tile according to claim 1 or 8, wherein the bottom of the bottom mold (2) is provided with reinforcing ribs (26).

10. A fabricated composite tile according to claim 9, wherein said reinforcing ribs (26) are in the form of a concavo-convex grid.

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