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Paint for eliminating and transforming electromagnetic wave into far infrared rays

A far-infrared and far-infrared powder technology, applied in conductive coatings, radiation-absorbing coatings, etc., can solve problems such as high cost, harmful electromagnetic waves, inability to absorb and eliminate electromagnetic waves, and achieve good heat dissipation.

Inactive Publication Date: 2016-07-27
张仁鸿
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, most electronic products will generate harmful electromagnetic waves when they are in use. According to medical reports, people who have been exposed to electromagnetic waves higher than the standard value for a long time are prone to physical fatigue, tired eyes, shoulder pain, headaches, etc. It can also cause immune function decline, leukemia, tumors and other diseases. Therefore, how to block electromagnetic waves to reduce the damage of electromagnetic waves to the human body has become an important issue in modern life
[0003] There are many types of electromagnetic waves, such as: electromagnetic waves of electrostatic radiation, x-rays, gamma rays, base station electromagnetic waves, high-voltage tower electromagnetic waves, etc., will cause varying degrees of damage to human tissue cells, and the most common existing electromagnetic wave protection methods It is mainly used to shield and absorb electromagnetic waves. Its implementation method is to use high-conductivity metal materials to make shells or sheets, and rely on metal reflection properties to shield electromagnetic waves; however, it is expensive and only has the function of shielding electromagnetic waves, but cannot absorb , Eliminate electromagnetic waves, so those skilled in the art have developed a method to absorb and eliminate electromagnetic waves with electromagnetic wave absorbing particulate materials, but electromagnetic wave absorbing particulate materials do not have the effect of shielding electromagnetic wave penetration, so it must be used in the implementation process. Metal shell or The sheet is used together, so there is still the disadvantage of high cost, and the anti-electromagnetic wave products with metal shells or sheets lack flexibility and lightness, which causes restrictions on its implementation and use, and even if it can shield and absorb electromagnetic waves , but it cannot further convert electromagnetic waves into energy forms that are beneficial to the human body

Method used

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  • Paint for eliminating and transforming electromagnetic wave into far infrared rays
  • Paint for eliminating and transforming electromagnetic wave into far infrared rays
  • Paint for eliminating and transforming electromagnetic wave into far infrared rays

Examples

Experimental program
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Embodiment 1

[0040] This embodiment provides a coating that eliminates the conversion of electromagnetic waves into far-infrared rays. The coating is mainly made of coating A by mixing a plurality of irregularly shaped conductors 1, particulate electromagnetic wave absorbers 2, far-infrared powders 3 and adhesives 4. ; When it is coated on the object B, the three-dimensional exploded view, the three-dimensional view, and the partially enlarged cross-sectional view are respectively as follows Figure 1-3 shown, where:

[0041]The above-mentioned plurality of irregular-shaped conductors 1 are mainly in the state of tubular or fibrous, and the plurality of irregular-shaped conductors 1 are connected head to tail with each other, and the plurality of irregular-shaped conductors 1 can be mixed through sufficient oscillation and stirring. Two irregularly shaped conductors 1 are connected head to tail to each other to form an interwoven network structure to increase the conduction path, improve i...

Embodiment 2

[0048] This embodiment provides a coating that eliminates the conversion of electromagnetic waves into far-infrared rays. This embodiment is composed of irregularly shaped conductors 1, particulate electromagnetic wave absorbers 2, far-infrared powders 3 and adhesives 4 in embodiment 1. A plurality of particulate conductors 5 are further added to the paint; a partially enlarged cross-sectional view of it when it is coated on the object B is as follows Figure 4 As shown, the plurality of particulate conductors 5 are particles of different diameters, and the particulate conductors 5 can be made of carbon-based materials, such as: various conductive carbons, graphite, activated carbon, long charcoal, carbon sixty , bamboo charcoal, carbon nanotubes, carbon fibers or carbon nanospheres and other carbon-based materials, or a combination thereof, the preparation method is as follows: the carbon-based materials are reacted at high temperature to make them conductive, and then ground ...

Embodiment 3

[0050] This embodiment provides a coating that eliminates the conversion of electromagnetic waves into far-infrared rays. The coating is mainly composed of a plurality of particulate conductors 5, particulate electromagnetic wave absorbers 2, far-infrared powders 3 and adhesives 4. It is coated on objects. The partially enlarged cross-sectional view of B is as follows Figure 5 As shown; the structure of particles with different diameters of the above-mentioned particulate conductor 5 can shield electromagnetic waves of different wavelengths, so as to effectively block and absorb electromagnetic waves of different wavelengths with the same particulate electromagnetic wave absorber 2. Here, Appropriate changes or modifications made by those skilled in the art to the coating for eliminating electromagnetic waves converted into far-infrared rays of the present invention should be considered as not departing from the scope of protection of the pad body for eliminating electromagnet...

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Abstract

The invention provides paint for eliminating and transforming electromagnetic wave into far infrared rays. The paint is prepared from multiple conductors with irregular shapes, a particle electromagnetic wave absorber, far infrared powder and a binder by uniform mixing. Objects such as an electric appliance product housing, a building metope, a pad and clothes are coated with the paint. The electric conductors with irregular shapes can block and shield electromagnetic wave, the particle electromagnetic wave absorber absorbs electric energy of the blocked electromagnetic wave and transforms the electric energy into heat, the heat stimulates the far infrared powder and the far infrared powder produces far infrared energy beneficial for the human body so that a good heat radiation function is obtained. The paint has a health effect of transforming electromagnetic wave harmful for the human body into far infrared energy conducive to the human body.

Description

technical field [0001] The invention relates to a coating for eliminating the conversion of electromagnetic waves into far-infrared rays, especially a coating that can be conveniently coated on electrical appliance shells, building walls, cushions, clothing and other objects. Electromagnetic waves are effectively converted into far-infrared energy that is helpful to the human body. Background technique [0002] With the vigorous development of science and technology, electronic products such as computers and mobile phones have been widely used in the daily life of modern people, bringing a lot of convenience to people's life. However, most electronic products will generate harmful electromagnetic waves when they are in use. According to medical reports, people who have been exposed to electromagnetic waves higher than the standard value for a long time are prone to physical fatigue, tired eyes, shoulder pain, headaches, etc. It can also cause immune function decline, leukem...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D5/24C09D5/32
Inventor 张仁鸿
Owner 张仁鸿