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Terahertz technology, and manufacturing method and formula of graphene far-infrared heating plate

A far-infrared heating and production method technology, applied in the field of heating plates, can solve the problems of complex formula components, inability to purify water, and low heating efficiency of heating plates, and achieve the effect of benefiting human health and stable wavelength

Pending Publication Date: 2021-02-26
广东烯陶控股有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The current heating plate formula is complex and the heating efficiency is low. It can only provide heating and cannot purify water.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] A preparation method of terahertz technology and graphene far-infrared heating plate, comprising the steps of:

[0026] Step 1, prepare graphene solution;

[0027] Step 2, select a suitable substrate;

[0028] Step 3, heating the substrate, and spraying the graphene solution prepared in step 1 on the heated substrate;

[0029] Step 4, setting a terahertz emission source on the substrate sprayed in step 3 to obtain a heating plate;

[0030] Step 5, heating the heating plate, the heating plate generates far infrared, and the terahertz generating source generates terahertz waves.

[0031] The substrate is a ceramic substrate.

[0032] A honeycomb quartz glass layer is arranged on the surface of the heating plate obtained in step 4.

[0033] A kind of formula of terahertz technology and graphene far-infrared heating plate, the formula of described graphene solution comprises main solution and additive, and described main solution comprises 30 parts of graphene, 2 parts ...

Embodiment 2

[0039] A preparation method of terahertz technology and graphene far-infrared heating plate, comprising the steps of:

[0040] Step 1, prepare graphene solution;

[0041] Step 2, select a suitable substrate;

[0042] Step 3, heating the substrate, and spraying the graphene solution prepared in step 1 on the heated substrate;

[0043] Step 4, setting a terahertz emission source on the substrate sprayed in step 3 to obtain a heating plate;

[0044] Step 5, heating the heating plate, the heating plate generates far infrared, and the terahertz generating source generates terahertz waves.

[0045] The substrate is a ceramic substrate.

[0046] A honeycomb glass-ceramic layer is arranged on the surface of the heating plate obtained in the step 4.

[0047] A kind of terahertz technology and the formula of graphene far-infrared heating plate, the formula of described graphene solution comprises main solution and additive, and described main solution comprises 55 parts of graphene,...

Embodiment 3

[0053] A preparation method of terahertz technology and graphene far-infrared heating plate, comprising the steps of:

[0054] Step 1, prepare graphene solution;

[0055] Step 2, select a suitable substrate;

[0056] Step 3, heating the substrate, and spraying the graphene solution prepared in step 1 on the heated substrate;

[0057] Step 4, setting a terahertz emission source on the substrate sprayed in step 3 to obtain a heating plate;

[0058] Step 5, heating the heating plate, the heating plate generates far infrared, and the terahertz generating source generates terahertz waves.

[0059] The substrate is a glass substrate.

[0060] A high temperature resistant honeycomb ceramic layer is arranged on the surface of the heating plate obtained in step 4.

[0061] A kind of formula of terahertz technology and graphene far-infrared heating plate, the formula of described graphene solution comprises main solution and additive, and described main solution comprises 80 parts o...

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Abstract

The invention provides a terahertz technology, a manufacturing method of a graphene far-infrared heating plate and a formula of the graphene far-infrared heating plate. The manufacturing method comprises a step of preparing a graphene solution. The formula of the graphene solution comprises a main solution and an additive, wherein the main solution comprises, by weight, 30-80 parts of graphene, 2-5 parts of indium trichloride, 2-5 parts of antimony trichloride and 2-8 parts of ammonium fluoride; and the additive comprises, by weight, 2-5 parts of titanous chloride, 3-8 parts of stannic chloride, 3-8 parts of ferric trichloride, 5-10 parts of bismuth trichloride and 1-15 parts of ammonium chloride. According to the invention, a far infrared spectrum is matched with terahertz waves to form aresonance effect with water, large water clusters which are not easily absorbed by people generate resonance to be depolymerized and recombined into small water clusters; and in the process, dirt adsorbed to the surfaces of the water clusters is removed, and the irradiated water is more beneficial to human health.

Description

technical field [0001] The invention relates to the technical field of heating plates, in particular to a terahertz technology, a method for making a graphene far-infrared heating plate and a formula thereof. Background technique [0002] The heating plate is a safe and reliable electric heating plate with a round or square shape that generates heat without electricity and no open flame after being energized. Because it mainly relies on heat conduction during use, the thermal efficiency is high. [0003] Far infrared is also known as long-wave infrared, and its wavelength ranges from 5.6 microns to 1000 microns. The far-infrared heating technology uses the far-infrared rays emitted by the hot object source to irradiate the material to be heated, so that the internal molecules and atoms of the material "resonate" after absorbing the far-infrared rays to generate heat energy to achieve the purpose of heating. It is a radiation heat transfer process. Utilizing this technology...

Claims

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Application Information

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IPC IPC(8): C03C17/22C04B41/85H05B3/20
CPCC03C17/22C04B41/5001C04B41/85H05B3/20
Inventor 陈日和魏玉和
Owner 广东烯陶控股有限公司
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