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How to make luminous fire signs

A production method and marking technology, applied to illuminated signs, instruments, display devices, etc., can solve the problems of not being able to protect people's lives and safety, and achieve the effect of protecting people's lives and strong decoration

Active Publication Date: 2016-08-17
爱瑞科新材料(淄博)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In a fire, it will soon lose the role of guiding the correct escape route and cannot protect people's lives.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0013] A method for making a luminous fire-fighting sign, comprising the following steps: 1. The main body of the sign is made of 15% potassium feldspar, 25% albite feldspar, 3% porcelain stone, 3% pyrophyllite and 3% diopside for the main body of the sign , 20% of kaolin, 10% of high alumina, 3% of Xinyang soil, 10% of black mud and 8% of potassium albite feldspar are ball-milled into mud, and water in the same proportion as the total weight of the above-mentioned raw materials is added during the ball-milling process, accounting for the total weight of the above-mentioned raw materials. 1% water-reducing agent by weight (excluding water) and 0.5% cellulose accounting for the total weight of the above raw materials (excluding water) enhance its plasticity, and the fineness of the mud is 250 mesh; More than 7% is made into powder, and the powder is pressed into a billet by a press; 3. The billet is fired at a high temperature of 1200 ℃ ~ 1250 ℃, and the firing time is ≥ 45 minu...

Embodiment 2

[0015] A method for making a luminous fire-fighting sign, comprising the following steps: 1. The main body of the sign is made of 17% potassium feldspar, 23% albite feldspar, 4% porcelain stone, 2% pyrophyllite and 4% diopside for the main body of the sign , 18% of kaolin, 12% of high alumina, 2% of Xinyang soil, 11% of black mud and 7% of potassium albite feldspar are ball-milled into mud, and water in the same proportion as the total weight of the above-mentioned raw materials is added during the ball-milling process, accounting for the total weight of the above-mentioned raw materials. 1.1% water reducing agent by weight (excluding water) and 0.4% cellulose accounting for the total weight of the above raw materials (excluding water) enhance its plasticity, and the mud fineness is 280 mesh; More than 7.5% is made into powder, and the powder is pressed into a billet by a press; 3. The billet is fired at a high temperature of 1200 ℃ ~ 1250 ℃, and the firing time is ≥ 45 minutes...

Embodiment 3

[0017] A method for making a luminous fire-fighting sign, comprising the following steps: 1. The main body of the sign is made of 13% potassium feldspar, 27% albite feldspar, 2% porcelain stone, 4% pyrophyllite, and 2% diopside for the main body of the sign , 22% of kaolin, 8% of high alumina, 4% of Xinyang soil, 9% of black mud and 9% of potassium albite feldspar are ball-milled into mud, and water in the same proportion as the total weight of the above-mentioned raw materials is added during the ball-milling process, accounting for the total weight of the above-mentioned raw materials. 0.9% water-reducing agent by weight (excluding water) and 0.6% cellulose accounting for the total weight of the above raw materials (excluding water) enhance its plasticity, and the mud fineness is 230 mesh; More than 6.5% is made into powder, and the powder is pressed into a billet by a press; 3. The billet is fired at a high temperature of 1200 ℃ ~ 1250 ℃, and the firing time is ≥ 45 minutes....

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Abstract

The invention provides a making method of a luminous fire label, and the making method is as follows: performing ball milling on raw materials potash feldspar, soda feldspar, chinastone, pyrophyllite, diopside, kaolin, alumina ore, Xinyang soil, black clay and sodium potassium feldspar to obtain slurry, using a drying tower to dry until the moisture is less than 6.5% to obtain powder, using a press to press the powder into a blank mold; burning the blank mold at the high temperature of 1200-1250 DEG C to obtain a ceramic tile with the moisture absorption rate of 1%+ / -0.5; printing patterns with different labels on the ceramic tile surface by a screen printing plate screen printing way, and then entering into a roller kiln at 1200 DEG C for firing. The luminous fire label prepared by the method can resist the high temperature of 1200 DEG C without damage to the label, and the luminous fire label can really play the effects of protecting people's life and guiding correct escape routes.

Description

technical field [0001] The invention relates to a method for making a luminous fire-fighting sign, and belongs to the technical field of making methods for a fire-fighting sign. Background technique [0002] Ordinary fire signs will be deformed or turned into ashes in an instant after being burned by an open flame in a fire. In a fire, the effect of directing the correct escape route will soon be lost, and the effect of protecting people's lives and safety cannot be played. Contents of the invention [0003] The purpose of the present invention is to solve the problems in the above-mentioned prior art, that is, the common fire protection signs will be deformed or turned into ashes in an instant after being burned by an open flame in a fire. In a fire, the effect of directing the correct escape route will soon be lost, and the effect of protecting people's lives and safety cannot be played. Furthermore, a method for making a luminous fire-fighting sign is provided. [00...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B41/85C04B35/00C04B35/622G09F13/20
Inventor 高建
Owner 爱瑞科新材料(淄博)有限公司
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