KR100427682B1 - The product composition of a FIR(Far Infrared Ray) energy emitting rubber bed sheet containing mud derived from tourmaline by chemical treatments - Google Patents

Abstract

The present invention relates to a far-infrared energy-releasing rubber bed sheet manufacturing composition using mud derived from chemical treatment of tourmaline. Powdering tourmaline to at least 350 mesh. 2. 3. Distilled water, caustic soda and tourmaline are prepared with strong alkali. React by adding iron chloride. 4. Neutralize and settle with hydrochloric acid, resulting mud separation step. Separated mud drying and powdering step. 6. 7. Mixing kneading step with the resulting powder and elastic adhesive. 7. Characterizing the step of applying the kneaded material to the woven fabric.

Description

Far-infrared ray energy emitting rubber bed sheet containing mud derived from tourmaline by chemical treatments using mud induced by chemical treatment of tourmaline

Far infrared energy emitters vary. There are various kinds of products, such as jade, oak charcoal and elvan. Tourmaline was diluted with water and used to make a mixed sheet besides adhesive. However, the far-infrared energy emissions of these products ranged from 40 to 100 µm. The highest purity jade was tested and found to be about 100 μm. At least it was the opinion of the practitioners that far-infrared energy emissions should be between 100 and 1000 µm. The literature found that tourmaline minerals have the highest far-infrared energy emissions. The study was conducted with brazilic acid, which is said to have the highest purity of tourmaline. However, tourmaline tourmaline has a high far-infrared energy emission, but the purchase price is very high, so hesitate to use it. Research has been conducted on how to lower raw material prices. Research on whether it is not possible to liquefy while maintaining the important components of tourmaline has succeeded in liquefaction. The far-infrared energy emission of the liquefied clear liquid was almost the same as that of the tourmaline ore before liquefaction. Very satisfied. However, it was very hard to treat sediment from chemical treatment. Dozens of experiments have resulted in higher far-infrared energy emissions in the mud. As a result of testing immud, it was satisfied with the test result after setting the standard to increase far-infrared energy emission. Even if the dry mud is used as a dry powder, the cost can be lowered to 20% of the original purchase price of tourmaline even if the drying cost is considered. It can be said to be a breakthrough manufacturing method that can produce. This is a feature of the present invention.

The tourmaline structural formula is represented by X.Y ₉ B ₃ Si ₆ O ₂₇ (O.OH.F) ₄ , wherein X is one, two or more substances such as Ca, Na, K, and Mn. Y is Mg, Fe, Al, Cr, Mn, Ti, Li and the like, one or two or more. Tourmaline is black, blue, red, green, purple, white and other colors. Its properties are brittle, minerals containing boron that help to soak up moisture, and are also called tourmaline. It is also a mineral with a weak current of 0.6 mA.

The inventors are of great interest in the literature entitled "Far Infrared and Water" issued in Japan. Crops in one valley were able to learn abundant mathematics, while crops in another valley were not. The human eye sees the same place, but the study of why the former valley farming is abundant showed that water in the rich valley was water with high far-infrared energy emission. The inventors have been convinced that this can convert the tourmaline to water. After three years of research, it was possible to extract water from tourmaline minerals. At first, what can be added to the tourmaline formula to liquefy it? I tried to process strong acid but failed. When treated with strong alkali, it was also very difficult to induce dissolved treatment solution into clear water. The treatment with wastewater treatment aluminum hydroxide failed. Calcium hydroxide treatment also failed. When treated with ferrous sulfate, the likelihood was seen but failed. When treated with ferric chloride a possibility was seen but failed. This was possible when treated with ferric chloride. When irradiated with ferric chloride again, far infrared energy emission could be confirmed. The emissivity was about 0.906 when the tourmaline was tested. How to increase emissivity was tested. 200 yeohoe test end Emissivity 0.913 (5-20㎛), the radiant energy (W / ㎡ ㎛. 37 ℃ ) 3.52x10 2 led to the (wet state, 37 ℃) results. Very satisfied. The supernatant obtained as a by-product was also very satisfied with emissivity of 0.906 and edge emission of 3.65x10 ² (40 ℃) in a clear and clear solution. The reason is that a mud is mixed with an elastic adhesive and attached to a woven fabric with a dry powder, and thus, a very satisfactory product can be manufactured and the patent application is applied.

1) Take 1500 to 3000 parts by weight of distilled water in container A, dissolve 100 to 210 parts by weight of 98% caustic soda, and add 100 to 300 parts by weight of tourmaline 350 mesh or more. Use 1700rpm stirrer for 30 minutes or more with strong alkali. 100 to 300 parts by weight of iron chloride were added thereto and stirred for 60 minutes or more with a stirrer. When the reaction solution completely changes from blue to brown, the reaction end point is allowed to stand for at least 12 hours. Hydrochloric acid is added to neutralize it to ph7-10. 1500 to 3000 parts by weight of distilled water are added thereto, followed by stirring and still aging. After 24 hours, the supernatant of the reactants and the precipitate mud are separated. This is the mud derived from the chemical treatment of tourmaline. The mud separated from the reason is used as a dry powder in a concentrated dryer to obtain 80 to 250 parts by weight of the powder mud. Acquisition of 2000 to 6000 parts by weight of the supernatant clear liquid as a by-product.

2) Take 50 to 100 parts by weight of the above material in container B, and add 50 to 100 parts by weight of the urethane adhesive and knead well.

3) After placing the plywood flat, the woven fabric 50x50cm fixed with a pushpin, and then the B mixture is evenly unevenly rolled into a 0.5mm to 10mm thick roll and then rolled to dry for 24 hours. After completely hardening, separate the plywood and rubber bed sheet to make the product. Depending on the application, it is produced by adjusting the dry mud adhesive ratio to 20:80, 30:70, 40:60, 50:50.

Example 1

1) Take 1000g of distilled water in A container, add 50g of 98% caustic soda, dissolve it, add 50g of powder of 350M or more of tourmaline toruccinate, and stir for 30 minutes with 1700rpm stirrer to make strong alkali. 80 g is added and stirred. After stirring for 30 minutes or more, the reaction product becomes an end point when the blue reactant turns completely brown. After aging for more than 12 hours, adjust to ph 8 with hydrochloric acid, add 1000 g of distilled water, and stir for more than 30 minutes. After 24 hours of standing, the supernatant and the sediment mud are separated. The tourmaline is chemically treated to obtain an emulsified extract as a concentrated dry powder.

2) Take 50g of urethane adhesive in container B, take 50g of dry mud in container A and mix well.

3) Lay the plywood flat and put the 50cm long jeans cloth and fix it with a push pin. Then, place the mixture of 2) above on 5mm thickness and roll it flat with roller and dry it. After 24 hours, the plywood and woven rubber bedsheets are separated. The sheet thus prepared is processed into a 5 cm circle on a shelf to obtain a product. The prototype product processed in this way is very strong. Commercialize it by attaching it to a matrimate needle sheet.

[Example 2] 1) 1000 g of distilled water was taken into the A container, and 50 g of 98% caustic soda was dissolved therein. To this, 50 g of tourmaline tormarin powder and 350 g or more of powder were dissolved and dissolved in strong alkali for at least 30 minutes with a stirrer of 1700 rpm or more. 10 g of ferric chloride and 60 g of 37 bome ferric chloride are added thereto and stirred. The reaction endpoint is when the reactant completely changes from blue to brown. After aging for 12 hours, the mixture was repeated with ph 8.5 with hydrochloric acid, and 1000 g of distilled water was added thereto, followed by stirring for 24 hours. After 24 hours, the supernatant and the rested mud are separated. Emud is a mud derived from chemical treatment of tourmaline. 2) Take 50g of silicone adhesive (sealant) in B container and mix 50g of dry powder mud in 1) and mix well.3) Plywood is laid flat Stretch the 50cm jeans cloth and secure it with thumbtacks. The kneaded product of 2) above is rolled up to 1mm thickness and evenly dried by Laura and dried for 24 hours. After 24 hours, plywood and rubber bed sheets are separated and made into products. It is very flexible and is product which is good for storing without being wrinkled even if rolled up. <Table 1. Example Product Test>

Tourmaline mineral is a rare mineral that is being actively researched recently. It is also a mineral with a very high far infrared energy emission. However, as a rare mineral, the purchase price is very high. When expensive raw materials are used, the cost of manufactured products is high. In the present invention, mud (precipitate), liquid (supernatant), etc., derived from chemical treatment of tourmaline are manufactured to increase the added value, thereby reducing the burden of expensive raw material prices. The purpose of this is to make the derived material chemically treated with tourmaline for versatile use. When the original purchase price of tourmaline is 100 per kg, the price of the imumed can be reduced to about 20 including the drying cost when comparing the mud and the mud derived from the tourmaline chemical treatment. The liquid derived from the tourmaline chemical treatment was 47 Hz when subjected to NMR analysis by the National Institute for Beverage. Normally, tap water is too good when compared to about 120 Hz. This is because it is far infrared energy releasing liquid. The following table of added values shows that the value added is about 15 times the amount and about 21 times the weight ratio. The result is a significant reduction in the purchase price of boiled tourmaline raw materials. On the other hand, it is possible to lower the selling price of the product and to supply cheaper products to consumers in the sales competition. In the above added value comparison table, 1 kg of toromarin was produced by chemical treatment, and the amount of the added value (weight) of 1 kg of mud + 20 kg = 21 kg of supernatant is about 15 times.

The far infrared effect in the literature is as follows.

1) When far infrared rays come into contact with the human body, it enhances the function of human beings.

2) To weaken cancer or leukemia cells.

3) respectively, reduce pain such as neuralgia.

4) Blood circulation disorders, cold, brain, heart, etc. It serves to purify all disorders of menopause.

In 1996, tourmaline was defined as an additive in food and cosmetics. Therefore, the present invention also requires useful verification in the human body of academia and will do its best in the future verification.

Claims (8)

Dissolve 100 to 210 parts by weight of caustic soda in 1500 to 3000 parts by weight of distilled water, add 100 to 300 parts by weight of tourmaline 350 mesh or more powder to make strong alkali, add 100 to 300 parts by weight of iron chloride, and neutralize it with ph7 to 10 with hydrochloric acid. A far-infrared energy-releasing rubber bed sheet manufacturing composition using mud induced by chemical treatment of tourmaline, characterized in that the precipitate mud induced by using a mud powder is mixed with an elastic adhesive and attached to the woven fabric to a thickness of 0.5 mm to 10 mm. . delete Iron chloride used in the chemical treatment of claim 1 is a far-infrared energy-emitting rubber bed sheet manufacturing composition using a mud induced by chemical treatment of tourmaline, characterized in that using ferric chloride, ferric chloride. Mud derived from chemical treatment of tourmaline, using polyurethane resin, polyester resin, polyethylene resin, polypropylene resin, fibrous resin, silicone rubber, acrylic rubber, etc. as the elastic adhesive used in claim 1 Far-infrared energy-emitting rubber bed sheet manufacturing composition using. delete delete delete delete