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Superconducting material for negative ion, reaction film and negative ion generating device

A technology of negative ion generation and superconducting materials, applied in the field of negative ions, can solve the problems of limited migration distance and easy sinking of negative ions, and achieve the effects of limited migration distance, long-lasting conductivity and large specific surface area

Pending Publication Date: 2019-03-19
张桂林
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The present invention proposes a superconducting material for negative ions, a reaction membrane and a negative ion generating device, which can generate a large amount of negative ions without generating formaldehyde, and solve the problem of limited migration distance of negative ions and easy sinking in the prior art

Method used

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  • Superconducting material for negative ion, reaction film and negative ion generating device
  • Superconducting material for negative ion, reaction film and negative ion generating device
  • Superconducting material for negative ion, reaction film and negative ion generating device

Examples

Experimental program
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Effect test

Embodiment 1

[0032] A superconducting material for anion, comprising the following parts by weight of raw materials: conductive powder 5, tourmaline powder 10, anion powder 10, nano zinc oxide 5, nano alumina 5, nano titanium dioxide 5, graphene 2, far infrared powder 20, Carbon crystal powder 10.

[0033] Mix the raw materials and the binder to make a slurry. The binder is nylon pulp, chemical fiber pulp and bentonite in any proportion. The amount of binder added is 8% of the total amount of raw materials. The slurry is sprayed on the non-woven fabric After coating, knead for 3-5 minutes to obtain a superconducting material reaction film.

Embodiment 2

[0035] A superconducting material for anion, comprising the following parts by weight of raw materials: conductive powder 8, tourmaline powder 15, anion powder 15, nano zinc oxide 8, nano alumina 8, nano titanium dioxide 8, graphene 5, far infrared powder 25, Carbon crystal powder 15.

[0036] Mix the raw materials and the binder to make a slurry. The binder is nylon pulp, chemical fiber pulp and bentonite in any ratio. The amount of binder added is 9% of the total raw materials. The slurry is sprayed on the non-woven fabric After coating, knead for 3-5 minutes to obtain a superconducting material reaction film.

Embodiment 3

[0038] A superconducting material for anion, comprising the following parts by weight of raw materials: conductive powder 10, tourmaline powder 20, anion powder 20, nano zinc oxide 10, nano alumina 10, nano titanium dioxide 10, graphene 10, far infrared powder 30, Carbon crystal powder 20.

[0039] Mix the raw materials and the binder to make a slurry. The binder is nylon pulp, chemical fiber pulp and bentonite in any proportion. The amount of binder added is 10% of the total amount of raw materials. The slurry is sprayed on the non-woven fabric After coating, knead for 3-5 minutes to obtain a superconducting material reaction film.

[0040] A negative ion generating device made of superconducting material reaction film, including an ion generating rack 1 with a groove on the ion generating rack 1, a glass fiber cloth layer 3 in the groove, and a superconducting material on the glass fiber cloth layer 3 The reaction membrane 4, the ion generating frame 1 is also provided with an i...

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Abstract

The invention discloses a superconducting material for a negative ion, a reaction film and a negative ion generating device. The superconducting material comprises the following raw materials, by weight: 5 to 10 parts of conductive powder, 10 to 20 parts of electric powder, 10 to 20 parts of negative ion powder, 37 to 70 parts of nano materials, and 10 to 20 parts of carbon crystal powder. According to the invention, the superconducting-material-based reaction film has constant far-infrared absorption and reflection functions and the typical semiconductor characteristic and the absorption bandis mainly located in the far infrared region; the dipole moment changes due to the thermoelectric and piezoelectric effects, so that the powerful reflection capability is realized and the occurrenceof negative ions is also caused. When the external conditions like the temperature, humidity, far-infrared radiation, friction and the like change, an electric field is induced to ionize the air and the knocked electrons are attached to adjacent oxygen molecules, so that the electrons are transformed into small-size negative ions.

Description

Technical field [0001] The invention relates to the field of negative ions, in particular to a superconducting material for negative ions, a reaction membrane and a negative ion generating device. Background technique [0002] Air is composed of countless molecules and atoms. When molecules or atoms in the air lose or gain electrons, they form charged particles called ions; those with positive charges are called positive ions, and those with negative charges are called negative ions. Anion is a negatively charged gas ion in the air. Anion not only promotes the synthesis and storage of vitamins in the human body, but also strengthens and activates the physiological activities of the human body. It has a very important impact on the life activities of the human body and other organisms, so it is also called As the "air vitamin". It is believed that it is like a food vitamin, which has a very important impact on the life activities of the human body and other organisms. Some even ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01B12/00H01T23/00
CPCH01T23/00H01B12/00Y02E40/60
Inventor 张桂林
Owner 张桂林
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