KR960013637A - Method of manufacturing far infrared radiation frames - Google Patents

Abstract

1. The technical field to which the invention described in the claims belongs.

Method for producing a far infrared radiation frame.

2. The technical problem the invention is trying to solve.

Conventionally, resin frames and metal frames have been used.Because synthetic frames themselves are not good for the body, they cause harm without knowing when they are worn. Metal frames are mainly made of nickel or chromium on the surface. Since it was plated with the same heavy metal, there was a high risk of damaging the skin when worn.

Therefore, to solve this.

3. Summary of the solution of the design.

The present invention uses germanium or ceranium powder, synthetic resin spectacle frame constituting composition and injection in the appropriate composition ratio, in the case of metal materials by mixing with other substances in the appropriate composition ratio by electrostatic coating, electrodeposition coating, spray coating, etc. When worn, far infrared rays are always radiated due to the inherent properties of germanium and cerium to make it more beneficial to the human body.

4. Important uses of the device.

This method is used when manufacturing the frames.

Description

Method of manufacturing far infrared radiation frames

As this is a public information case, the full text was not included.

Claims (4)

Cereton (or acetage, preferet and TR, carbon, etc.) resin is granulated to the size of rice grains, and it is 94-98%, and 2-6% is germanium (or cerium) powder. After mixing for 10-20 minutes in a stirrer and maintaining the temperature of 80 ℃ -150 ℃ in a stirrer, it is dried for 30 minutes-1 hour, and then molded and polished the parts for eyeglass frames through an injection machine. Method for producing a far infrared ray radiation frame. The method according to claim 1, wherein the electrodeposition coating resin (liquid) and the curing agent (liquid) are mixed at a ratio of 300: 1, and then 1-4% of germanium powder is mixed, and the additive of pate resin is added again to the total amount. After mixing about 3-9%, put it in a stirrer and mix it for about 2-6 hours, and attach a large amount of metal frame parts to the product fixing plate, put it in the above-mentioned mixed solution, electrodeposition coating, and wash it. Method for producing a far infrared ray radiation frame. The electrostatic coating resin such as urethane or hyperrin and a curing agent are mixed at a ratio of about 3 to 10: 1, and then 2% of germanium or ceranium powder is mixed, and the total amount is 60 to 400. After mixing the diluent (thinner) of about% again, apply electrostatic coating while applying DC current of 10V-45V to the electrostatic plate on which the parts for eyeglass frames are mounted. Put it in the dryer and keep the temperature of 60-180 ℃. A method of manufacturing a far-infrared radiation spectacle frame, characterized by drying for about 60 minutes to electrostatic coating. The method of claim 3, wherein the electrostatic coating resin, such as urethane or hyperrin, and a curing agent are mixed at a ratio of about 3-10: 1, then 2% of germanium or ceranium powder is mixed, and the total amount of diluent is about 60-400%. After re-mixing the thinner, the parts for eyeglass frames attached to the electrostatic plate are coated using a spray, and then put in a drier to maintain a temperature of 60 ° C. to 180 ° C. and to dry for 30 minutes to 60 minutes. Method for producing a radiation spectacle frame. ※ Note: The disclosure is based on the initial application.