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An antiskid tile and a preparing method thereof

A ceramic tile and anti-slip technology, applied in the field of ceramics, can solve the problems of single product color, easy to breed bacteria, and difficult to clean tile oil stains, etc., to achieve the effect of improving friction, reducing bacterial growth, and easy cleaning

Active Publication Date: 2016-12-21
佛山市凯撒大道陶瓷有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Most of the anti-slip tiles in the prior art are provided with various shapes of convex lines on the surface of the tiles to increase friction. However, the setting of the convex lines makes it difficult to clean the oil stains on the tiles, and it is easy to breed bacteria
In addition, some existing non-slip tiles no longer use the convex structure, but spray fine particles on the surface of the tiles to make the surface of the tiles have a frosted effect, but this type of product will disperse the pattern of the printing layer when spraying the particles, so this Such products can only change the color of the tiles without patterns, and the product color samples are single

Method used

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Examples

Experimental program
Comparison scheme
Effect test

preparation example Construction

[0048] Correspondingly, the present invention also provides a kind of preparation method of non-slip ceramic tile, comprises the following steps:

[0049] Step 1: Print on the tile body by an automatic inkjet machine, and set aside;

[0050] Step 2: Mix the quartz powder, potassium feldspar and alumina in proportion first, melt to obtain a frit, then crush into transparent particles, and sieve, so that the particle size of the transparent particles is within the range of 50-100 mesh;

[0051] Step 3: Put the transparent particles, black corundum sand, suspending agent, zinc silicate and copper oxide into a ball mill after mixing, and perform ball milling to obtain a non-slip slurry after passing through a sieve;

[0052] Step 4: Apply the anti-slip slurry on the printed ceramic tile body, transport it to a roller kiln for firing, and obtain an anti-slip ceramic tile.

[0053] Preferably, the melting temperature in the step 2 is 1500-1600° C., and the melting time is 5-10 hour...

Embodiment 1

[0057] Print on the ceramic tile body by an automatic inkjet machine, and set aside; mix 22 parts of quartz powder, 30 parts of potassium feldspar and 10 parts of alumina in proportion by weight, melt to obtain a frit, and then crush it into transparent particles. Sieve, so that the particle size of the transparent particles is within the range of 50-100 mesh; mix the transparent particles, 8 parts of black corundum sand, 12 parts of suspending agent, 1 part of zinc silicate and 2 parts of copper oxide and put them into a ball mill for ball milling After sieving, the anti-slip slurry is obtained; the anti-slip slurry is applied to the printed ceramic tile body, and transported to the roller kiln for firing to obtain the anti-slip ceramic tile.

[0058] By testing the surface, the anti-slip coefficient of the anti-slip tiles prepared in Example 1 of the present invention reaches 10, meeting the corresponding requirements for anti-slip tiles.

Embodiment 2

[0060] Print on the ceramic tile body by an automatic inkjet machine, and set aside; mix 25 parts of quartz powder, 32 parts of potassium feldspar and 11 parts of alumina in proportion by weight, melt to obtain a frit, and then crush it into transparent particles. Sieve, so that the particle size of the transparent particles is within the range of 50-100 mesh; mix the transparent particles, 5 parts of black corundum sand, 13 parts of suspending agent, 2 parts of zinc silicate and 3 parts of copper oxide and put them into a ball mill for ball milling. After sieving, the anti-slip slurry is obtained; the anti-slip slurry is applied to the printed ceramic tile body, and then sent to a roller kiln for firing to obtain an anti-slip tile.

[0061] By testing the surface, the anti-slip coefficient of the anti-slip tiles prepared in Example 2 of the present invention reaches 10, meeting the corresponding requirements for anti-slip tiles.

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Abstract

An antiskid tile is disclosed. The antiskid tile comprises a bottom layer, a printing layer and a glaze layer from bottom to top. The glaze layer is prepared from, by weight, 18-27 parts of quartz powder, 25-45 parts of potassium feldspar, 8-12 parts of aluminium oxide, 5-10 parts of black fused alumina sand, 10-15 parts of a suspending aid, 1-2 parts of zinc silicate and 2-3 parts of copper oxide. A preparing method of the antiskid tile is also disclosed. The antiskid tile has advantages of skid resistance, easy cleaning and an antibacterial property.

Description

technical field [0001] The invention relates to the field of ceramics, in particular to an anti-slip ceramic tile. Background technique [0002] Corrosion-resistant, waterproof, and anti-fouling tiles are generally used as interior decoration materials for kitchens, bathrooms, and balconies. Since kitchens, bathrooms, and balconies are often wet and slippery, non-slip tiles with high surface friction are commonly used. The non-slip tiles of the prior art are mostly provided with various shapes of convex lines on the surface of the tiles to increase friction, but the setting of the convex lines makes it difficult to clean the oil stains on the tiles, and it is easy to breed bacteria. In addition, some existing non-slip tiles no longer use the convex structure, but spray fine particles on the surface of the tiles to make the surface of the tiles have a frosted effect, but this type of product will disperse the pattern of the printing layer when spraying the particles, so this ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C8/16C04B41/89
CPCC03C8/16C03C2204/02C04B41/52C04B41/89C04B41/4543C04B41/5022
Inventor 王智君
Owner 佛山市凯撒大道陶瓷有限公司
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