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Quantum energy glasses formula and production method

A technology of quantum energy and manufacturing method, applied in glasses/goggles, optics, instruments, etc., to achieve the effects of reducing the development speed of myopia, low raw material cost, and enhancing telescopic movement

Inactive Publication Date: 2018-08-10
李松林
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The current traditional glasses are usually made of PC material or TR90 material, which cannot make the glasses protect the glasses when humans wear them.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] A quantum energy glasses formula comprises the following raw materials in weight percentage: 82% of plastic titanium, 4% of negative ion nanoparticles, 6% of far-infrared nanoparticles, and 8% of polymer resin.

[0027] The preparation method comprises the following steps:

[0028] S1, take each raw material according to the specific gravity, and set aside;

[0029] S2, put negative ion nanoparticles and far-infrared nanoparticles into the quartz quantum baking machine, bake, the baking temperature is 110 ℃, and the baking time is 4 hours, the heater in the quartz quantum baking machine will anion nanoparticles and far-infrared nanoparticles release magnetic resonance quantum waves generated in the 12 um wavelength range;

[0030] S3. Mix the negative ion nanoparticles and far-infrared nanoparticles in the baking machine with other raw materials and heat them to 110°C to melt them into one, and keep stirring during the melting process;

[0031] S4. Pour the melted raw...

Embodiment 2

[0035] A quantum energy glasses formula comprises the following raw materials in weight percentage: 81% of plastic titanium, 5% of negative ion nanoparticles, 5% of far-infrared nanoparticles, and 9% of polymer resin.

[0036] The preparation method comprises the following steps:

[0037] S1, take each raw material according to the specific gravity, and set aside;

[0038] S2, put negative ion nanoparticles and far-infrared nanoparticles into the quartz quantum baking machine, bake, the baking temperature is 110 ℃, and the baking time is 4 hours, the heater in the quartz quantum baking machine will anion nanoparticles and far-infrared nanoparticles release magnetic resonance quantum waves generated in the 12 um wavelength range;

[0039] S3. Mix the negative ion nanoparticles and far-infrared nanoparticles in the baking machine with other raw materials and heat them to 110°C to melt them into one, and keep stirring during the melting process;

[0040] S4. Pour the melted raw...

Embodiment 3

[0044] A quantum energy glasses formula comprises the following raw materials in weight percentage: 80% of plastic titanium, 6% of negative ion nanoparticles, 4% of far-infrared nanoparticles, and 10% of polymer resin.

[0045] The preparation method comprises the following steps:

[0046] S1, take each raw material according to the specific gravity, and set aside;

[0047] S2, put negative ion nanoparticles and far-infrared nanoparticles into the quartz quantum baking machine, bake, the baking temperature is 110 ℃, and the baking time is 4 hours, the heater in the quartz quantum baking machine will anion nanoparticles and far-infrared nanoparticles release magnetic resonance quantum waves generated in the 12 um wavelength range;

[0048] S3. Mix the negative ion nanoparticles and far-infrared nanoparticles in the baking machine with other raw materials and heat them to 110°C to melt them into one, and keep stirring during the melting process;

[0049] S4. Pour the melted ra...

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PUM

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Abstract

The invention discloses a quantum energy glasses formula and a production method. The quantum energy glasses formula comprises the following raw materials in percentage by weight: 80 percent to 82 percent of plastic titanium, 4 percent to 6 percent of negative ion nanoparticles, 4 percent to 6 percent of far infrared nanoparticles and 8 percent to 10 percent of macromolecule resin. The productionmethod comprises the following steps: S1, weighing the raw materials according to the proportion for later use; S2, putting the negative ion nanoparticles and the far infrared nanoparticles into a quartz quantum baking machine and baking; S3, mixing and melting the negative ion nanoparticles, the far infrared nanoparticles and other raw materials in the baking machine to form a whole body; S4, pouring the melted raw materials into a glasses mold trough; S5, cooling a condensed glasses frame through an ice water circulating system; after drying the glasses frame in an automatic drying system, selecting semi-finished-product glasses frames by professional staff and storing. By adopting the quantum energy glasses formula, the effects of enhancing myopia and hyperopia adjusting functions, alleviating discomfort caused by myopia and hyperopia and eliminating eye fatigues can be realized.

Description

technical field [0001] The invention relates to the technical field of glasses materials, in particular to a quantum energy glasses formula and a manufacturing method. Background technique [0002] In many modern technical equipments, quantum effects play an important role. Quantum technology is a new science that absorbs the latest achievements of natural science, and it is based on physics and biology. Using the principles of quantum mechanics to analyze the changes in the weak magnetic field of organisms, thereby diagnosing various diseases and sub-health states of the human body, its development and application in medicine is called quantum medicine. The current traditional glasses are usually made of PC material or TR90 material, which cannot make the glasses protect the glasses when humans wear the glasses. [0003] Therefore, we propose a quantum energy glasses formula and manufacturing method to solve the above problems. Contents of the invention [0004] The pur...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02C5/00
CPCG02C5/008
Inventor 李松林
Owner 李松林
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