KR20040034297A - Method for preparing anion-emitting floating materials comprising amethyst powder - Google Patents

Abstract

PURPOSE: A method for preparing an anion-generating buoyancy material containing amethyst is provided, to obtain a buoyancy material which has an anion-generating effect and is applied to a swimming suit or a suit for aquatic sports. CONSTITUTION: The method comprises the steps of mixing an amethyst powder, a jade powder and a monazite powder to prepare a powder mixture; adding water to the powder mixture to prepare a suspension; leaving the suspension alone for a certain period and separating the supernatant to obtain a liquid crystal bioliquid; adding a binder to the bioliquid; and spray coating the obtained bioliquid mixture to a buoyancy material. Preferably the ratio of the amethyst powder, the jade powder and the monazite powder is 70 : 29.5 : 0.5 by weight; the buoyancy material is a polyethylene foam resin; and the suspension is left alone for about 3 days.

Description

Manufacturing method of anion generating buoyancy material containing amethyst powder {METHOD FOR PREPARING ANION-EMITTING FLOATING MATERIALS COMPRISING AMETHYST POWDER}

The present invention relates to a method of manufacturing a buoyancy material coated with anion generating material. More specifically, the present invention relates to a method for producing an anion-generating buoyancy material incorporating amethyst powder, jade powder and anionic stone powder in a low content plastic foam resin for buoyancy materials.

In general, it is well known that foamed resin is widely used in clothing, sporting goods, and leisure products as a material having buoyancy, cold protection, and waterproofing properties. In particular, low-density polyethylene foam resins are used as buoyancy materials for life jackets using buoyancy among various advantages, namely, cold resistance, moisture resistance, and buoyancy.

For example, U.S. Patent No. 3,067,147 describes that polyethylene foamed resin prepared by mixing 1,2-dichlorotetrafluoroethylene as a blowing agent in polyethylene resin, followed by warming, pressurization and exposure to atmospheric pressure can be used as the endothelial of a life jacket. It is starting. U.S. Patent No. 3,819,543 also discloses the endothelium of life jackets using polyethylene foamed resin that has been chlorinated and crosslinked.

In addition, Korean Utility Model Registration No. 20-218542 discloses an integrated swimwear having excellent buoyancy, in which at least five layers of polyethylene foam resin sheets made of 0.5 to 1 mm are laminated and inserted between inner and outer skins.

Modern people who are exposed to cement and polymer plastics and other buildings and clothing are aware of the harmful effects of radon gas released from cement and environmental hormones contained in plastics. Increasingly, with increasing interest, materials for releasing far infrared rays or anions and their effects have been gradually revealed, and synthetic resins containing anion releasing compositions have already been disclosed.

Korean Patent Application No. 2002-13662 discloses a method for producing a functional synthetic resin containing tourmaline and quartz powder to emit far infrared rays, and the method for preparing the compound is stirred for a predetermined time by mixing a colorant, a crystal powder, and a urethane resin polyol. Characterized in that.

In addition, Korean Utility Model Registration No. 20-289407 discloses a fabric coated with an anionic release composition containing a tourmaline, a fixing agent, a yew extract and a liquid binder in a predetermined amount. In this invention, the coating method of the anion-emitting composition is used an auto screen or a roller print method.

As described above, there are many documents describing a buoyancy material and an anion-releasing composition, but there is no suggestion for a buoyancy material generating anion. Accordingly, the present inventors have attempted to develop a method for producing an anion-producing buoyancy material which can incorporate a substance that releases an anion effective for the human body while aiding buoyancy during underwater exercise or rehabilitation treatment, which is widely used in modern times.

The present invention is to provide a method for producing an anion-generating buoyancy material that generates an anion effective for the human body while providing a suitable buoyancy during underwater exercise or rehabilitation treatment.

The present invention provides a method for producing an anion generating buoyancy material for generating anions while providing a suitable buoyancy for the first purpose.

In a specific embodiment, the present invention is a mixture of amethyst powder, jade powder and anionic stone powder to a predetermined content to obtain a powder mixture, the step of suspending by adding water to the powder mixture, the supernatant after leaving the suspension for a predetermined time Providing a liquid crystal bio-liquid separated by the separation, and adding and mixing a binder to the liquid-crystal bio-liquid and spray coating the liquid-crystal bio-mixture on the buoyancy material. do.

As a specific aspect of this manufacturing method, the present invention is allowed to stand by adding an appropriate amount of water to a powder mixture of 70% amethyst powder of 350 mesh size, 29.5% of 350 mesh jade powder, and 0.5% of anionic stone powder. After that, the supernatant is separated to obtain a liquid crystal bio liquid. As another preferred embodiment, the present invention provides a method for producing an anion-generating buoyancy material, characterized in that the spray mixture is added to the low-density plastic foamed resin pad mixture by adding a binder to the liquid crystal bio-liquid. The liquid crystal bio-liquid may be obtained by immersing the anion-generating powder mixture in water for about 3 days.

As an anion generating material used in the production method of the present invention, amethyst not only emits far infrared rays which is beneficial to the human body but also emits negative ions. In particular, hexagonal amethyst emits a vibration of life-friendly wavelength called 'D6 energy'. From ancient times, these amethysts penetrate nerve cells of the human body, relieve unstable psychological conditions, help blood circulation, maintain body temperature, strengthen the heart, heal various pains and inflammations, and improve the fertility of infertile women. It is widely known to have beneficial effects such as recovery. In particular, it is confirmed that the electric signal is oscillated at millions of regular frequency per second, and it is used as an electronic clock part, and it is also used for people and various treatment effects on human diseases such as hypertension, hypotension, depression and neurological diseases. Has been proven.

In addition, jade contains minerals, calcium, and magnesium, which are extremely necessary for the human body, and magnesium contains more than 40% of magnesium, which is a constituent of chlorophyll, and at the same time, the cells constituting the human body also contain magnesium. There is a wave coming out of the jade and a wave coming out of the human cells are said to be the same wave. Therefore, the waves emitted from the breathing jade evenly penetrate our human cells and resonate resonantly, helping to maintain health through tissue resurgence, blood circulation, weak alkalizing of blood, and excretion of harmful wastes in the body. (See Korean Patent Application No. 2001-62008).

The anion stone permanently stably emits a weak current of 0.06 mA, which is the same as that of a healthy person, in the nature of the natural mineral used in this anion stone to generate a large amount of anions in the surroundings. It is known to emit growth rays (far infrared rays). The effects of negative ions on the human body include blood purification, cell reactivation, increased resistance to disease (improvement of immune system), regulation of autonomic nerves, pain relief, and other environmental effects. , Antibacterial activity, surfactant activity.

Such anion releasing material must be used in an appropriate powder size and mixing ratio to generate an anion suitable for the human body. For example, the amethyst powder and the jade powder preferably have a powder size of about 350 mesh or more. In addition, the mixing ratio of the amethyst powder, the jade powder, and the anionic stone powder is preferably 70: 29.5: 0.5.

After mixing the anion generating material in such a mixing ratio, it is left for about 1 day or more, preferably about 3 days and the supernatant is separated to obtain a liquid crystal bio liquid.

The buoyancy material of the present invention has a specific gravity smaller than water to provide a suitable buoyancy when worn by an athlete, and preferably, a low density plastic foamed resin molded into a thin pad form may be used. Especially preferably, it is a low density polyethylene foam resin.

In addition, the present invention provides a method for producing aquatic sportswear using the anion generating buoyancy material produced by the method for producing an anion generating buoyancy material for a second object.

The manufacturing method of such a water sports suit may include the step of inserting the anion-generating buoyancy material of the present invention between the outer skin and the inner skin of the fabric generally used in underwater clothing and stitching the fabric up, down, left and right firmly embedded in the fabric. have.

In another aspect, the present invention provides a method for producing a hydrotherapy clothing for the treatment of degenerative diseases or rehabilitation by using an anion generating buoyancy material produced by the method for producing an anion generating buoyancy material for a third object.

This hydrotherapy clothing is also manufactured by inserting the anion-generating buoyancy material of the present invention between the outer skin and the inner skin of the fabric, which is generally used for underwater clothing, such as the above water sports suit, and stitching the fabric up, down, left, and right in the fabric. can do.

Hereinafter, the preferred embodiments of the method for producing anion-generating buoyancy material according to the present invention through examples. This embodiment is not intended to limit the invention but to illustrate it only.

Example

First, 350 mesh amethyst powder, 350 mesh jade powder and 350 mesh anionic stone powder are mixed in a ratio of 70: 29.5: 0.5. This powder mixture is allowed to settle for 3 days by adding an appropriate amount of water to the spray coating. The supernatant is then decanted to obtain a liquid crystal bio liquid, and the binder is added thereto and mixed to obtain a liquid crystal bio mixture. The liquid crystal bio-mixture may be coated on a low density polyethylene foamed resin pad having material properties as shown in Table 1 by spray coating to obtain a buoyancy material that generates a large amount of negative ions. The binder serves to bind the components to be mixed, and may use a conventional binder that is not harmful to the human body.

Test Items Test result Material (KS K 0210-1998) Polyethylene Weight (KS K 0514-1991) 154.4 g / ㎡ Air permeability (KS K 0570-1997, Prazi method) 0.1 cm 3 / cm 2 / s or less Hygroscopicity (KS K 0339-1997, dynamic method) 11.5% Absorption rate (KS K 0815-1996 5.27.1 B method) Direction-1 0 Direction-2 0

This result is a test result obtained by requesting the Korea Textile Testing Institute.

The buoyant material thus obtained was subjected to far infrared ray emission test, anion radiation test, deodorization test and antibacterial test. All these tests were conducted by the Korea Institute of Far Infrared Evaluation, and the results are shown in Table 2 below.

Test Items Far Infrared 0.904 Negative ion Per 1230 ION / cc Deodorization 76% Antibacterial 99.9%

First, the far-infrared emission test was measured using a FT-IR spectrophotometer at a measurement wavelength of 5 to 20 ㎛ and a measurement temperature of 37 ℃ compared to a blackbody, the far infrared emissivity (5 to 20 ㎛) is 0.906, far infrared radiation The energy (W / m ² μm, 37 ° C.) was found to be very high at 3.49 × 10 ² .

The anion radiation test was conducted at room temperature 26 ℃, humidity 46%, and anion water 106 / cc condition using a charged particle measuring device, and released from the measuring object of 65x200 (mm) size by KFIA-FI-1042 method. As a result of measuring the anions to be represented by the number of ions per unit volume, it was confirmed that the release of 1230 anions per unit volume.

The deodorization test was a result obtained by measuring the concentration of a sample obtained after 120 minutes using ammonia test gas by the KFIA-FI-1004 method with a gas detector tube, and exhibited a deodorization rate of 76%.

The antibacterial test was carried out by inoculating Staphylococcus aureus ATCC 6538 and Klebsiella pneumoniae ATCC 4352 by KS K 0693-2000, and initializing the remaining bacterial count after 18 hours of incubation. As a result of comparison with the inoculation concentration, the bacterial reduction rate was 99.9%.

The anion-releasing buoyancy material prepared according to the manufacturing method of the present invention as described above provides the appropriate buoyancy when the wearer exercises underwater, and also shows the deodorization and antimicrobial effect as well as the far infrared and anion release effect. When worn in the treatment of patients undergoing degenerative diseases or rehabilitation, they can be used as aquatic suits or hydrotherapy clothes because they can achieve more comfortable aquatic movements and effective negative ions on the human body.

Claims (6)

Mixing amethyst powder with jade powder and anionic stone powder in a predetermined ratio to obtain a powder mixture, suspending the powder mixture by adding water, leaving the suspension for a predetermined time, and then separating the supernatant liquid to obtain a liquid crystal bio liquid. A method of manufacturing an anion-generating buoyancy material comprising the steps of: obtaining, adding and mixing a binder to the liquid crystal bio-liquid and spray coating the liquid crystal bio-mixture on the buoyancy material. The method of claim 1, wherein the mixing ratio (%) of the amethyst powder, the jade powder, and the anionic stone powder is 70: 29.5: 0.5. The method of claim 1, wherein the suspension is left for about 3 days. The method of manufacturing an anion generating buoyancy material according to claim 1, wherein the buoyancy material is a low density polyethylene foamed resin. A method for producing aquatic sportswear using the anion generating buoyancy material produced by the method for producing an anion generating buoyancy material according to claim 1. A method of manufacturing an aquatic therapeutic garment for treating degenerative diseases or rehabilitation using anion generating buoyancy material produced by the method for producing anion generating buoyancy material according to claim 1.