Wear-resistant glazed tile

By introducing high-hardness wear-resistant particles, nano-hardening coatings, and reinforcing meshes into glazed tiles, the problem of easy wear of glazed tiles has been solved, achieving high wear resistance and structural stability, making them suitable for high-intensity use environments.

CN224413022UActive Publication Date: 2026-06-26ENPING XINJINCHENG CERAMICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ENPING XINJINCHENG CERAMICS CO LTD
Filing Date
2025-08-01
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing glazed tiles are easily scratched by hard objects such as shoe soles and metal legs in high-frequency traffic areas or furniture movement areas, which leads to accelerated glaze wear, affects the decorative effect and service life, and makes it difficult to meet the hardness and wear resistance requirements of high-intensity application scenarios.

Method used

The design features a wear-resistant glazed tile, including the glazed tile body, bonding layer, base glaze layer, top glaze layer, nano-hardening coating, and reinforcing mesh. High-hardness wear-resistant particles and nano-hardening coating are introduced into the top glaze layer, combined with the reinforcing mesh to improve structural strength. Far-infrared particles are added to the base glaze layer, and anti-slip texture is set on the outside to improve wear resistance and safety.

Benefits of technology

It significantly improves the Mohs hardness and wear resistance of glazed tiles, extends their service life, enhances structural stability, and has the advantages of high safety, health and environmental protection, and ease of construction, making it suitable for high-intensity use environments.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the technical field of glazed tile, disclose a kind of wear-resistant glazed tile, including glazed tile body, the glazed tile body inside is provided with brick body, the top of the brick body is fixedly connected with combination layer, the top of the combination layer is fixedly connected with bottom glaze layer, the top of the bottom glaze layer is fixedly connected with face glaze layer, the top of the face glaze layer is fixedly connected with nano hardening coating, the top of the glazed tile body is provided with antiskid texture, the inside of the brick body is fixedly connected with reinforcing grid, and the reinforcing grid is used to improve structural strength. In the utility model, high-hardness wear-resistant particles are innovatively introduced into the face glaze layer, and a nano hardening coating is additionally provided on the surface, so that the surface mohs hardness and wear resistance of the brick are doubled, and the brick can effectively resist wear and tear and scratches caused by daily walking and moving furniture. The product is not only durable, but also has the advantages of high safety, health and environmental protection, and easy construction, and the comprehensive performance is better than traditional glazed tile.
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Description

Technical Field

[0001] This utility model relates to the field of glazed tile technology, and in particular to a wear-resistant glazed tile. Background Technology

[0002] With the development of the building decoration industry, glazed tiles have been widely used as floor and wall decoration materials in residential, commercial, and public buildings. Due to their excellent decorative properties, ease of cleaning, and certain durability, they occupy an important position in interior decoration. To meet the comprehensive requirements of different usage scenarios regarding wear resistance, aesthetics, and environmental performance, improving the performance of glazed tiles has become a key technological focus in related fields.

[0003] In existing technologies, common glazed tiles typically consist of a body, a glaze layer, and a decorative layer. The surface glaze layer is generally formed by firing ordinary inorganic glass powder, and its hardness and wear resistance mainly depend on the physical sintering density and microstructure arrangement of the glaze. In some improved designs, to enhance the wear resistance of the tile surface, trace amounts of reinforcing fillers can be added to the glaze layer, or a high-temperature rapid firing process can be used to optimize its density, thereby increasing the service life of the tile to some extent.

[0004] However, existing glazed tiles still have certain shortcomings in practical use, especially in high-traffic areas or places where furniture is frequently moved. The tile surface is easily scratched by hard objects such as shoe soles and metal legs, leading to accelerated glaze wear, affecting the decorative effect and service life, and making it difficult to meet the dual requirements of glaze hardness and wear resistance in high-intensity application scenarios. Therefore, how to introduce innovative materials and structures into the glaze layer to further improve the Mohs hardness and wear resistance of glazed tile surfaces has become an urgent technical problem to be solved. Utility Model Content

[0005] To overcome the above shortcomings, this utility model provides a wear-resistant glazed tile, which aims to improve the problem that the tile surface is easily scratched by hard objects such as shoe sole particles and metal brackets, which leads to accelerated wear of the glaze and affects the decorative effect and service life.

[0006] To achieve the above objectives, the present invention adopts the following technical solution: a wear-resistant glazed tile, comprising a glazed tile body, wherein a tile body is provided inside the glazed tile body, a bonding layer is fixedly connected to the top of the tile body, a base glaze layer is fixedly connected to the top of the bonding layer, a top glaze layer is fixedly connected to the top of the base glaze layer, a nano-hardening coating is fixedly connected to the top of the top glaze layer, and an anti-slip texture is provided on the top of the glazed tile body.

[0007] As a further description of the above technical solution:

[0008] The brick body is internally fixedly connected with a reinforcing mesh, which is used to improve the structural strength. The reinforcing mesh is a glass fiber mesh or a high-strength metal wire mesh.

[0009] As a further description of the above technical solution:

[0010] The nano-hardening coating is used to further improve surface hardness and stain resistance.

[0011] As a further description of the above technical solution:

[0012] The base glaze layer contains far-infrared particles.

[0013] As a further description of the above technical solution:

[0014] The surface glaze layer contains wear-resistant particles.

[0015] As a further description of the above technical solution:

[0016] The edges of the glazed tile body are integrally formed with chamfered corners that facilitate installation and reduce edge chipping.

[0017] This utility model has the following beneficial effects:

[0018] In this invention, high-hardness wear-resistant particles are innovatively introduced into the glaze layer, and supplemented by a nano-hardening coating on the surface, which doubles the surface Mohs hardness and wear resistance of the brick. It can effectively resist wear and scratches caused by daily walking and furniture moving, greatly extending the aesthetics and service life. The reinforcing grid set inside the brick body makes its overall structure more stable and has excellent crack resistance. This product is not only durable, but also has the advantages of high safety, health and environmental protection and easy construction. Its comprehensive performance surpasses that of traditional glazed tiles. Attached Figure Description

[0019] Figure 1 This is a perspective view of a wear-resistant glazed tile proposed in this utility model;

[0020] Figure 2 This is a schematic diagram of the brick structure of a wear-resistant glazed tile proposed in this utility model;

[0021] Figure 3 This is an exploded view of the glazed tile body of a wear-resistant glazed tile proposed in this utility model.

[0022] Legend:

[0023] 1. Brick body; 2. Reinforcing grid; 3. Bonding layer; 4. Base glaze layer; 5. Top glaze layer; 6. Wear-resistant particles; 7. Nano-hardening coating; 8. Anti-slip texture; 9. Far-infrared particles; 10. Chamfered corners; 11. Glazed tile body. Detailed Implementation

[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0025] Reference Figures 1-3 This utility model provides an embodiment of a wear-resistant glazed tile, comprising a glazed tile body 11, with a brick body 1 disposed inside the glazed tile body 11. The brick body 1 is used to bear the overall structural load and provide basic support strength. A bonding layer 3 is fixedly connected to the top of the brick body 1. The bonding layer 3 is used to achieve a high-strength bond between the brick body 1 and the glaze structure, preventing interlayer peeling caused by stress concentration during use. A base glaze layer 4 is fixedly connected to the top of the bonding layer 3. The base glaze layer 4 serves to cover surface defects of the brick body 1 and enhance the color saturation of the pattern. The top glaze layer 5 provides a smooth adhesion base for the base glaze layer 4. The top glaze layer 5 is fixedly connected to the top of the base glaze layer 4. The top glaze layer 5 undertakes the main decorative function. Its internal filling particles can effectively improve the surface wear resistance and gloss. The top of the top glaze layer 5 is fixedly connected to a nano-hardening coating 7. The nano-hardening coating 7 is used to further improve the surface hardness and stain resistance. Its nanostructure can form a dense coverage at the microscopic level, improving scratch resistance and easy cleaning performance. The top of the glazed tile body 11 is provided with anti-slip texture 8. The anti-slip texture 8 is used to increase the friction of the tile surface and improve the performance during use. The brick body 1 features excellent safety performance, making it particularly suitable for damp or high-frequency foot traffic areas. A reinforcing mesh 2 is fixedly connected inside the brick body 1 to enhance structural strength. The reinforcing mesh 2 is made of glass fiber or high-strength metal wire, effectively dispersing stress under external impact or temperature and humidity changes, preventing cracking and warping of the brick body 1. A nano-hardening coating 7 further enhances surface hardness and stain resistance; its high-performance coating exhibits excellent chemical stability and mechanical durability. Far-infrared particles 9 are embedded inside the base glaze layer 4 to enhance the far-infrared radiation capability of the brick body 1 surface, improving surface thermal comfort and providing certain therapeutic and health benefits. Wear-resistant particles 6 are embedded inside the surface glaze layer 5, significantly enhancing the wear resistance and impact resistance of the brick surface, adapting to high-intensity use environments, and extending the brick's service life. The edges of the glazed brick body 11 are integrally formed with chamfered corners 10 for easy installation and reduced edge chipping. The chamfered corners 10 allow for quick connection of the brick body 1 during construction, reducing waste and preventing edge damage due to right-angle collisions, thus improving construction efficiency and finished product quality.

[0026] Working Principle: When using this wear-resistant glazed tile, firstly, the tile body 1, with its internally embedded reinforcing mesh 2, serves as the basic load-bearing structure. This reinforcing mesh 2 significantly improves the tile's impact resistance and bending resistance, effectively preventing cracking caused by uneven stress or thermal expansion and contraction during use. Above the tile body 1, a bonding layer 3 firmly adheres the entire glaze structure to the tile body, preventing delamination. The core wear resistance is achieved by the surface glaze layer 5 and its uniformly dispersed high-hardness wear-resistant particles 6. When the surface is scratched by a sharp object or subjected to high-frequency friction, the wear-resistant particles 6, with a hardness far exceeding that of the glaze matrix, directly bear and disperse the stress, thus protecting the underlying surface glaze layer 5 from damage. The outermost nano-hardening coating 7 provides a second layer of hardness protection for the surface and utilizes its density to achieve stain resistance and easy cleaning. Through the synergistic effect of its components, the overall structure achieves comprehensive performance characterized by high strength, high wear resistance, and high safety.

[0027] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A wear-resistant glazed tile, comprising a glazed tile body (11), characterized in that: The glazed tile body (11) has a tile body (1) inside, a bonding layer (3) is fixedly connected to the top of the tile body (1), a base glaze layer (4) is fixedly connected to the top of the bonding layer (3), a top glaze layer (5) is fixedly connected to the top of the base glaze layer (4), a nano-hardening coating (7) is fixedly connected to the top of the top glaze layer (5), and an anti-slip texture (8) is provided on the top of the glazed tile body (11).

2. The wear-resistant glazed tile according to claim 1, characterized in that: The brick body (1) is internally fixedly connected with a reinforcing mesh (2), which is used to improve the structural strength. The reinforcing mesh (2) is a glass fiber mesh or a high-strength metal wire mesh.

3. The wear-resistant glazed tile according to claim 1, characterized in that: The nano-hardening coating (7) is used to further improve surface hardness and stain resistance.

4. The wear-resistant glazed tile according to claim 1, characterized in that: The base glaze layer (4) contains far-infrared particles (9).

5. The wear-resistant glazed tile according to claim 1, characterized in that: The surface glaze layer (5) contains wear-resistant particles (6).

6. The wear-resistant glazed tile according to claim 1, characterized in that: The edge of the glazed tile body (11) is integrally formed with chamfered corners (10) to facilitate installation and reduce edge chipping.