Far infrared negative ion high energy polymer for human rehabilitation treatment

A far-infrared negative ion, rehabilitation therapy technology, applied in the field of science, can solve the problems of inability to wear for a long time, difficult to combine for a long time, low content of ingredients, etc., and achieve the effect of maintaining high energy for a long time, dredging the meridians and collaterals, and taking effect quickly.

Inactive Publication Date: 2010-06-16
彭勃
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The biggest disadvantage of conventional far-infrared and far-infrared negative ion fabrics is that the components of far-infrared and far-infrared negative ions are difficult to combine with the fabric itself for a long time, and the content of far-infrared and far-infrared negative ions is low, and the effect on the human body is slow. For fabric cleaning, the far-infrared and far-infrared negative ion components will gradually peel off the fabric itself until the fabric itself does not contain far-infrared and far-infrared negative ion therapeutic components. The fabric is cleaned once and the components are reduced a little, and the far-infrared ceramic sheet is uncomfortable to the human body. , can not be worn for a long time, less energy

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0012] This embodiment provides a far-infrared anion high-energy polymer for human rehabilitation, characterized in that: the far-infrared anion high-energy polymer for human rehabilitation contains the following components: far-infrared ceramic powder 15% of the total mass, tourmaline accounts for 10% of the total mass, and the balance is a mixed matrix of polyvinyl chloride paste resin and dioctyl phthalate, wherein the polyvinyl chloride paste resin and dioctyl phthalate The mass ratio is 1:2.5;

[0013] The above-mentioned substances are mixed and left for 20 hours, heated to 150 degrees Celsius while stirring, poured into a mold, cooled to form a film with a thickness of 1-3 mm, and perforations with a diameter of 1 mm are punched on the film. It is the above-mentioned far-infrared anion high-energy polymer used for human body rehabilitation.

[0014] The far-infrared negative ion high-energy polymer film used for human rehabilitation treatment is formed and then sewn in...

Embodiment 2

[0016] This embodiment provides a far-infrared anion high-energy polymer for human rehabilitation, characterized in that: the far-infrared anion high-energy polymer for human rehabilitation contains the following components: far-infrared ceramic powder 18% of the total mass, tourmaline accounts for 12% of the total mass, and the balance is a matrix mixed with polyvinyl chloride paste resin and dioctyl phthalate, wherein the polyvinyl chloride paste resin and dioctyl phthalate The mass ratio is 1:3;

[0017] The above-mentioned substances are mixed and left for 22 hours, heated to 160 degrees Celsius while stirring, poured into the mold, cooled to form a film with a thickness of 1-3 mm, and punched on the film with neatly arranged perforations with a diameter of 2 mm. It is the above-mentioned far-infrared anion high-energy polymer used for human body rehabilitation.

[0018] The far-infrared negative ion high-energy polymer film used for human rehabilitation treatment is form...

Embodiment 3

[0020] This embodiment provides a far-infrared anion high-energy polymer for human rehabilitation, characterized in that: the far-infrared anion high-energy polymer for human rehabilitation contains the following components: far-infrared ceramic powder 20% of the total mass, tourmaline accounts for 15% of the total mass, and the balance is a matrix mixed with polyvinyl chloride paste resin and dioctyl phthalate, wherein the polyvinyl chloride paste resin and dioctyl phthalate The mass ratio is 1:3.5;

[0021] The above-mentioned substances are mixed and placed for 24 hours, heated to 170 degrees Celsius while stirring, poured into a mold, and cooled to form a soft film with a thickness of 1-3 mm, which is the far-infrared anion high-energy polymer used for human rehabilitation.

[0022] The far-infrared negative ion high-energy polymer film used for human rehabilitation treatment is formed and then sewn into various clothes, or sewn into pillows, seat cushions, and mattresses ...

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PUM

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Abstract

The invention provides a far infrared negative ion high energy polymer for human rehabilitation treatment. The polymer comprises the following components in percentage by mass: 15 to 20 percent of far infrared ceramic powder, 10 to 15 percent of tourmaline, and the balance of matrix formed by mixing polyvinyl chloride paste resin and dioctyl phthalate, wherein the mass ratio of the polyvinyl chloride paste resin to the dioctyl phthalate is 1:2.5-3.5; the components are mixed and placed for 20 to 24 hours, are heated to 150 to 170 DEG C while the components are stirred, and cooled to form a film after the components are injected into a mould so as to obtain the high energy polymer. The polymer has the advantages that: the content of far infrared negative ions is 3 to 4 times that of the conventional far infrared textiles and far infrared negative ion textiles, has good comfort when acting on a human body, and can be worn closely for long time. The polymer has quick response and durable function in health care and treatment, increases human blood micro-circulation speed, and plays roles of health care and treatment in activating blood circulation and removing blood stasis, eliminating inflammation and relieving pains, increasing human immunity and dredging the channels.

Description

technical field [0001] The invention relates to science, and in particular provides a far-infrared anion high-energy polymer used for human body rehabilitation. Background technique [0002] The biggest disadvantage of conventional far-infrared and far-infrared negative ion fabrics is that the components of far-infrared and far-infrared negative ions are difficult to combine with the fabric itself for a long time, and the content of far-infrared and far-infrared negative ions is low, and the effect on the human body is slow. For fabric cleaning, the far-infrared and far-infrared negative ion components will gradually peel off the fabric itself until the fabric itself does not contain far-infrared and far-infrared negative ion therapeutic components. The fabric is cleaned once and the components are reduced a little, and the far-infrared ceramic sheet is uncomfortable to the human body. , can not be worn for a long time, less energy. Contents of the invention [0003] The ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L27/06C08K3/00C08K3/38C08K5/12A61N5/06A61N5/00
Inventor 彭勃
Owner 彭勃
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