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Heating antistatic ceramic brick, preparation method of heating antistatic ceramic brick and paving application method of heating antistatic ceramic brick

An anti-static, ceramic tile technology, applied in the field of building materials, can solve the problems of high production cost, complex process and high paving cost of anti-static ceramic tiles, and achieve the requirements of reducing paving conditions, reducing production costs and saving usage. Effect

Pending Publication Date: 2018-02-02
佛山中科产业技术研究院
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the paving of whole body anti-static polished tiles is simpler than anti-static glazed tiles, it still needs to lay metal frames. The cost of paving is high and the process is complicated, and the technical requirements for paving workers are high.
Therefore, the high production cost of anti-static ceramic tiles, the high cost of laying and the complicated process are the two major problems that limit the popularization and application of anti-static ceramic tiles.

Method used

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  • Heating antistatic ceramic brick, preparation method of heating antistatic ceramic brick and paving application method of heating antistatic ceramic brick
  • Heating antistatic ceramic brick, preparation method of heating antistatic ceramic brick and paving application method of heating antistatic ceramic brick
  • Heating antistatic ceramic brick, preparation method of heating antistatic ceramic brick and paving application method of heating antistatic ceramic brick

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0043] as attached figure 1 As shown, a heating anti-static ceramic tile includes a common brick part 1, an anti-static layer 2, a conductive layer 3, an electric heating layer 4, an insulating and waterproof layer 5, an insulating, heat-insulating and waterproofing material 6, and a conductive component 7; An antistatic layer 2 is arranged on the front of the ordinary brick part 1, and an electric heating layer 4 is arranged on the bottom surface of the ordinary brick part 1; one or more conductive layers are arranged between the antistatic layer 2 and the electric heating layer 4 3; the upper end of the conductive layer 3 is connected to the antistatic layer 2, and the lower end is connected to the electric heating layer 4;

[0044] The conductive assembly 7 includes an electrode 70 and an electric wire 71; the two ends of the electric heating layer 4 are provided with electrodes 70; the surfaces of the electric heating layer 4 and the electrode 70 are all provided with an i...

Embodiment 2

[0071] The structure of the antistatic ceramic tile 9 capable of heating is the same as that of Embodiment 1.

[0072] To further illustrate, the antistatic ceramic tiles 9 include antistatic ceramic polished tiles and antistatic ceramic glazed tiles; the conductive layer includes conductive columns or conductive strips.

[0073] The preparation method of this heating antistatic ceramic tile 9 comprises the following steps:

[0074] First, add 12% tin oxide conductive powder to the blank of ordinary ceramic polished tiles to prepare an antistatic blank.

[0075] To further explain, the antistatic blank and the ordinary blank are filled in the forming mold through the grid cloth process, so that the thickness direction of the antistatic blank in the blank in the mold is distributed in the shape of an island column to form a conductive column, and then the fine cloth process is used. Apply the antistatic blank very thinly and evenly on the surface of the blank of the mold (thic...

Embodiment 3

[0086] The antistatic ceramic tile 9 that can be heated has the same structure as in Example 1, and the preparation method of the antistatic ceramic tile 9 that can be heated comprises the following steps:

[0087] Firstly, 17% tin oxide conductive powder is added to common ceramic glaze to prepare antistatic ceramic glaze. Add 12% tin oxide conductive powder into the blank of common ceramic tile to prepare antistatic blank.

[0088] To further explain, the anti-static blank and the ordinary blank are filled in the forming mold through the grid cloth process, so that the thickness direction of the anti-static blank in the blank in the mold is distributed in a columnar shape to form a conductive column, which is pressed and formed to obtain flat surfaces on both sides. body of ceramic tiles.

[0089] To further illustrate, apply a layer of antistatic glaze (thickness below 0.5mm) on the ceramic tiles by using the glaze pouring process. After drying, they are sent to the kiln a...

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Abstract

The invention discloses a heating antistatic ceramic brick, a preparation method of the heating antistatic ceramic brick and a paving application method of the heating antistatic ceramic brick. The antistatic ceramic brick includes an ordinary brick part, an antistatic layer, a conductive layer, an electrical heating layer, an insulating and waterproof layer, an insulating and heat protecting waterproof material and a conductive assembly. The upper end of the conductive layer is connected with the antistatic layer. The lower end of the conductive layer is connected with the electrical heatinglayer. The preparation method includes the steps of billet preparation, ceramic tile burning, electrical heating layer arranging, electrode and conductive wire arranging, insulating and waterproof layer arranging, insulating and heat protecting waterproof material arranging and testing. The paving method comprises the steps of conductive wire arranging, paving preparation, paving, controller arranging and functional testing. The heating antistatic ceramic brick has the antistatic function and electrical heating function; the preparation method reduces the dosage of conductive powder and reduces the production cost; and the paving application method, on the one hand, simplifies the paving project, saves paving materials, and guarantees the effective charge discharge, and on the other hand,realizes free conversion of the anti-static function and the electrical heating function.

Description

technical field [0001] The invention relates to a building material, in particular to a heating antistatic ceramic tile and a preparation method and a paving application method thereof. Background technique [0002] At present, there are two types of anti-static ceramic tiles: anti-static glazed tiles and anti-static polished tiles. Their anti-static principle is to make ceramics have the ability to dissipate charges by mixing inorganic conductive powder into ceramic glazes or ceramic blanks. Anti-static function. Since the price of the inorganic conductive powder used is much higher than that of ordinary ceramic raw materials, reducing the amount of inorganic conductive powder is an effective way to reduce the production cost of antistatic ceramic tiles. [0003] For anti-static glazed tiles, since conductive powder is added to the ceramic glaze, and the glaze layer of each ceramic tile is very thin, the amount of glaze used is very small, so the cost increase caused by co...

Claims

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Application Information

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IPC IPC(8): E04F15/02E04F15/08E04F15/18F24D13/00
CPCF24D13/00E04F15/02E04F15/082E04F15/181
Inventor 蔡晓峰
Owner 佛山中科产业技术研究院
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