KR100244796B1 - Silicon products manufacturing method and products thereof - Google Patents

Abstract

The present invention relates to a method for producing a silicone product containing a liquid far-infrared radiation composition, and to a product thereof, in particular to utilizing the characteristics of the far-infrared emissivity and radiation strength of the silicone product in which the liquid far-infrared radiation composition is contained in the silicon raw material. Specifically, the present invention relates to a manufacturing method for manufacturing a silicone product that can be applied to various types of health promoting products by mixing a liquid far-infrared radiation composition with a silicon raw material, and a technology related to the product.

Description

Molding manufacturing method and product of silicone product containing liquid far-infrared radiation composition

The present invention relates to a method and product for producing a silicone product containing a liquid far-infrared radiation composition, in particular, a known liquid far-infrared radiation composition in a silicone material to emit a high-efficiency infrared radiation at room temperature so that it can be applied to a variety of health products The present invention relates to a silicone product containing a multi-purpose far-infrared radiation composition, and also to a molding process.

In general, far-infrared rays are electromagnetic waves that activate water molecules and are easily absorbed into the body, thereby facilitating all physiological effects of living organisms.

In addition, far-infrared energy is absorbed by living organisms, and it has been found through experiments that the absorbed energy facilitates the physiology of the human body by supplying the energy necessary for the activation and physiology of body fluids.

The action of far infrared rays on the human body is as follows: First, the far-infrared absorbed into the skin tissue turns into heat, raising the temperature in the skin tissue to increase the temperature of the subcutaneous deep body to feel the heat, and secondly, by expanding the capillaries to promote blood circulation. Increasing action, activation of the third metabolism, fourth pain relief action, fatigue recovery by improving the regeneration of the fifth tissue, health promotion, insomnia, stress relief and chronic disease healing effects.

In addition, it is known to promote the growth of plants and animals, to maintain the freshness and ripening of food, to enhance the taste, and also to purify indoor air.

Various products such as textile products, tableware, and health products have been developed and marketed in order to use the characteristics of such far infrared rays, and in recent years, home appliances using far infrared rays have been developed to maintain freshness in foods such as far infrared refrigerators.

Conventional products using far-infrared radiation compositions have been prepared by dispersing powdered bio ceramics containing a lot of emitters such as alumina and silica in ammonia water or dispersing cationic groups in resins and attaching them to the surfaces of various products with adhesives.

However, products using these powders have a far-infrared radiation composition as a raw material, so that the radiation of far-infrared rays is insufficient and the radiation of far-infrared rays is insufficient because it is not evenly applied to the surface of the product. It is difficult to expect an excellent effect at room temperature or room temperature because the far-infrared radiation effect is required only by applying the heat of ℃.

In addition, since the products coated with the far-infrared radiation composition manufactured by the conventional method are bio-ceramic in powder state, especially when used in textiles, the surface is rough and powdery, and because it is produced by the dot method or the spray method, There is a problem that can not be applied to various products because the dyeability is limited.

Techniques proposed to solve the above problems are those disclosed in Korean Patent Application Nos. 94-160 and 94-1207.

The proposed technique provides a far-infrared radiation composition in a liquid state, and when the liquid far-infrared radiation composition is applied to other products, it can be applied to various products because it has excellent coating property as compared to conventional powder bio ceramics. In particular, it has been disclosed that a variety of fiber raw material products having improved flexibility and dyeing property may be used when used in textile products.

However, in order to be able to utilize the above-mentioned liquid far-infrared radiation composition in a variety of ways, when applied to other products, it is necessary to develop a material without deterioration of the far-infrared radiation effect, and at the same time, various types of products may be applied by applying the material. There is a problem that the development of process technology that can be mass produced.

Therefore, in order to solve the above problems, when the stock solution of the liquid far-infrared radiation composition is mixed with the silicon raw material, the far-infrared radiation effect is greatly improved, and thus the silicone-containing far-infrared radiation composition can be used. It is an object of the present invention to provide a method for molding a product and a product thereof.

1 is a graph measuring the far-infrared emissivity of a silicone product containing a liquid far-infrared radiation composition of the present invention

2 is a graph measuring the far-infrared radiation intensity of the silicone product containing the liquid far-infrared radiation composition of the present invention

The present invention to achieve the above object,

Adding a known liquid ionizing far-infrared radiation composition to the silicon raw material together with the fat sugar, powder aging accelerator and targon oxide to form a mixture,

Passing the mixture obtained above between two rotary rulers at a temperature of 200-250 ° C. to produce a silicon-containing sheet having a predetermined thickness;

Cutting the silicon sheet to a predetermined size and then aging for 20-26 hours;

Inserting the aged silicone sheet into a mold mold of a desired shape for molding for 3-5 minutes at a temperature of 150-200 ℃ provides a method for producing a silicone product containing a liquid far-infrared radiation composition do.

In addition, the present invention is a silicon-containing material having a predetermined thickness by passing a known liquid far-infrared radiation crystallites into a silicon raw material together with fat sugar, powdered ripening accelerator, and tarryon oxide, and passed between two rotary rulers at a temperature of 200-250 ° C. I manufacture a sheet,

The obtained silicon sheet was cut to a predetermined size and aged for 20-26 hours, and then inserted into a mold of a desired shape, and then molded for 3-5 minutes at a temperature of 150-200 ° C. Provided is a silicone product containing a far infrared radiation composition.

Hereinafter, preferred embodiments of the present invention will be described in more detail.

In an embodiment of the present invention, a material having the following composition is first prepared.

Silicone Raw Material --- 30kg

Liquid Ionization Far-Infrared Radiation Composition --- 900g

Green sugar (color) --- 100 g

Powder Aging Promoter --- 170g

Targon Oxide --- 101g

The material obtained by mixing the above components is introduced between two rotary rollers at a temperature of 200-250 ° C. to come out in a thin sheet state.

At this time, the liquid far-infrared composition of the above is mixed little by little into the silicon raw material, and the fat and powder-type aging accelerator is put in as many steps as possible to mix the ingredients evenly.

In addition, the amount of material is appropriately added in consideration of the final target thickness of the sheet released through the roller.

Rotation of the roller is repeated about 12 times so that all the materials are evenly mixed.

After that, the sheet material is cut to a suitable size, aged for about 24 hours, inserted into a mold of a desired shape, and molded for about 3-5 minutes at a temperature of 150-200 ° C. to produce a far-infrared radiation composition of a desired shape. The silicone product contained is obtained.

The silicone product containing the liquid ionized far-infrared radiation composition as described above may be manufactured in a desired shape and applied to health products such as bracelets, health belts, pillows, mats, rings, earrings, necklaces, knee joint protectors, and the like.

For example, when the silicone product containing the far-infrared radiation composition of the present invention as described above is applied to a bracelet, the silicone product molded to a predetermined size may be manufactured in a ball shape so as to be mounted along the inner circumferential surface of the bracelet. Can be installed on the bracelet.

When the silicone product containing the liquid far-infrared radiation composition prepared in the embodiment of the present invention was applied to a bracelet, the far-infrared emissivity and the radiation intensity of the silicone product were measured as follows.

Far-infrared emissivity and radiation intensity were measured by the Far-Infrared Research Group in Osaka City, Japan.The instrument used was JIR-E5000, the measurement conditions were 1/16 cm resolution, 200 times integration, and MCT detector. The measurement temperature was 35 ° C.

As a result of the measurement, the emissivity of the bracelet silicon ball of the present invention is shown as 80% or more at a wavelength of 4.0 microns or more, as shown in FIG.

In addition, as shown in FIG. 2, the radiation intensity test showed a radiation intensity curve very similar to that of the black body having the maximum far-infrared radiation intensity, and the intensity was similar to that of the black body.

As described above, the silicone product obtained by applying a known liquid ionized far-infrared radiation composition to silicon can be confirmed that the far-infrared emissivity is very excellent and its radiation intensity is shown to be similar to that of a black body. Accordingly, the silicone product obtained by mixing the liquid far-infrared radiation composition with the silicone material is appropriately modified in its shape and applied to various types of health products, thereby achieving a great effect by far-infrared radiation even at room temperature.

Claims (5)

(A) adding a liquid ionized far-infrared radiation composition step by step into the silicon raw material step by step along with the pigmented sugar, powdered aging accelerator and targon oxide step by step to form a mixture, (B) the mixture at a temperature of 200-250 ℃ Passing between two rotary rollers, (C) repeating this rotation about 12 times so that all the materials are mixed evenly, and (D) passing the silicon-containing sheet of the desired thickness After cutting to a desired size and aged for 20-26 hours, and (E) putting the aged silicone sheet in a mold mold of the desired shape and molding for 3-5 minutes at 150-200 ℃ Molding manufacturing method of silicone product containing liquid far-infrared radiation composition. (A) adding a liquid ionized far-infrared radiation composition step by step into the silicon raw material step by step together with the pigmented sugar, powdered aging accelerator and targon oxide step by step to form a mixture, and (B) the mixture at a temperature of 200-250 ℃ Passing between two rotary rollers, (C) repeating this rotation about 12 times so that all materials are mixed evenly, and (D) passing the silicon-containing sheet of the desired thickness After cutting to the desired size and aged for 20-26 hours, and (E) molding the molded silicone sheet in a mold of the desired shape and molding for 3-5 minutes at 150-200 ℃ Silicone product containing a liquid far-infrared radioactive composition, characterized in that it is produced by. The method of claim 2, Silicone product, characterized in that the ball (ball) type that can be applied to the bracelet shape of the silicone product. The method of claim 2, The product to which the silicone product is applied is a silicone product, characterized in that any one of rings, earrings, necklaces, health belts, pillows, mats, knee joint protectors. The method of claim 1, The amount of the silicon raw material is 30kg, the amount of the liquid far-infrared radioactive composition is 900g, the amount of fat per sugar is 100g, the amount of powdery aging accelerator is 170g and the amount of targon oxide is 101g .

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