KR0157761B1 - Tourmaline powder laminated sheet - Google Patents

Abstract

The present invention relates to a tour marine powder laminated sheet, which is able to attach a large amount of tour marine powder in a layered manner, thereby providing a tour marine powder laminated sheet capable of producing a large amount of microcrystals in contact with water molecules and producing a large amount of surfactant. do.

The powder laminated sheet 1 is formed of the base material 2 and the tour marine powder layer 3 adhered thereto, and the tour marine powder layer 3 is a base material of the tour marine powder 3a and the adhesive 3b. (2) prevents the outflow of the tour marine powder 3a and selects a material having air permeability. The adhesive 3b is an adhesive resin that partially adheres between the substrates 2 to form a tourmarin powder layer 3 which is not embedded in a resin between the substrates 2. Moisture in the atmosphere can pass through the tourmarin powder layer 3, so that the surface area of the powder in contact with the water molecules increases, and the convection time of the water in the layer is also long.

Description

Tour Marine Powder Laminated Sheet

1 is a cross-sectional view of the tour marine powder laminated sheet of the present invention.

2 is a cross-sectional view of another tour marine powder laminated sheet of the present invention.

* Explanation of symbols for main parts of the drawings

1: tour marine powder laminated sheet 2: base material

3: tour marine powder layer 3a: tour marine powder layer

3b: adhesive

The present invention relates to a tour marine powder laminated sheet for attaching tour marine powders, which are effective in improving the environment and promoting health, in layers.

As a conventional technique, an attempt to make clothes, furniture, building materials, etc. by selecting various powders having a beneficial effect on the human body by improving the living environment worsened by air pollution caused by exhaust gas, etc. and attaching the powders Many have been done, and among them, tourmaline sheet material using permanent stimulation has been proposed.

Tourmaline powder is a fine crystal obtained by pulverizing tourmaline ore of a crystal mineral called tourmaline. It is basically a silicate mineral containing boron. It is a tripolar or bipolar half-faced family. It belongs to) and shows a bipolar phase of vertical asymmetry.

Tourmaline has been known to be a hard mineral having piezoelectric and pyroelectric electrical properties in the past, but it has been confirmed in recent years that it has an electrical property called permanent electrode. This is equivalent to permanent stimulation in permanent magnets, and it has been reported that water can be obtained by electrolyzing water by using its properties to obtain water having a surface active function.

The electrolysis of feeble water by the tourmarin electrode also occurs for moisture contained in the air. Therefore, garments sewn with fibers kneaded with tourmaline powder or coated paper do electrolysis of water molecules in the air to release surface-active substances around. This surfactant is called hydroxyl ion (Hgdroxyl Ion H3O2), which has a negative charge. It is called 'negative air ion' and has a therapeutic effect such as analgesic or quenching. , Eukaryotic (제한), restriction (制 (), anorexia (食慾 昻 進), lowering blood pressure (血壓 降下), refreshing, fatigue prevention and is said to be effective.

It is also recognized that tourmaline is a substance that emits far infrared rays having a stable wavelength even at a temperature range of 30 to 36 ° C.

Therefore, tourmarine used as a health care product is known to stimulate the metabolism and blood circulation by stimulating cell tissue by electric stimulation and synergistic effect of far infrared by radiating far infrared rays at the same time to stimulate the skin surface.

Conventional health medical products using tourmaline powder are made of a fiber material which is kneaded inside the raw cellulose as disclosed in Japanese Patent Application Laid-Open No. Heisei 4-327207, or disclosed in Japan. As described in Japanese Patent Application Laid-Open No. Hei 6-173162, a tourmaline powder mixed with a binder was made of a powder coating sheet made by applying and drying to a sheet material with a roller or the like.

As a problem to be solved by the present invention, when kneading the tourmarin powder inside the fiber, since the amount of the tourmarin powder kneaded due to the strength of the fiber is limited, it is necessary to use the fiber for mechanical reinforcement separately. The amount of tour marine powder to be made is relatively small. (For example, the weight of tourmaline powder mixed into a fabric of 15cm × 30cm is 0.4: about 9g / m2) Moreover, since most of the tourmaline powder is encapsulated in the fiber, it is possible to make microcrystalline contact with water molecules. The number is drastically reduced, and its permanent stimulating effect is not very high.

In addition, when the tourmarin powder is mixed with a specific binder and applied to the sheet material, the tourmarine powder embedded in the coating agent decreases in effect. Moreover, even if the tourmaline powder is mixed in the coating agent, the amount of the tourmaline powder is 3 to 1% by weight based on the dry weight of the coating agent, and when the thin coating film is required, the weight of the tourmarin powder in the forge becomes smaller.

As described above, the sheet material using the conventional tour marine powder has insufficient defects in the amount of the tour marine powder with respect to the area, and the microcrystals in contact with the water molecules have limitations on the surface of the fiber surface or the coating agent. Far-infrared effect was not fully exhibited.

In addition, when tour marine powders approach each other, the polarization charge may be reduced by aspiration and neutralization between the electrodes of opposite signs. Therefore, the sheet material using the conventional tour marine powder may contain the original water of the tour marine powder. The electrolysis function and the electrical stimulation function due to the polarized charge were not sufficiently utilized.

An object of the present invention is to provide a tour marine powder laminated sheet in which a large amount of microcrystals in contact with water molecules and a large amount of surface-active substances are made, as well as to attach a large amount of tour marine powder in a layered manner to solve the above problems. I am doing it. In addition, it is an object of the present invention to provide a tour marine powder laminated sheet that exhibits good dispersion of tour marine powder and sufficiently exhibits the electrolysis function of water originally possessed by the tour marine powder, the electrical stimulation function due to the polarization charge, and the far infrared radiation function.

In addition, an object of the present invention is to provide a tourmarin powder laminated sheet having a significantly high electrolytic function of water by powder of natural tourmarine ore.

In order to solve the above problems, the tour marine powder laminated sheet of the present invention comprises a tour marine powder obtained by pulverizing the base material on the sheet and the tour marine ore into fine crystals, and attaching the tour marine powder to the substrate in a layered manner. In the tour marine powder laminated sheet having an adhesive for the above, the substrate is a plurality of breathable substrates which are prevented from outflow of the tour marine powder and are made of a breathable material, and the adhesive is used to insert and hold the tour marine powder between the breathable substrates. It is an adhesive resin which partially adhere | attaches between adjacent breathable base materials.

The breathable base material is a textile fabric, a nonwoven fabric, a paper material, a film material, or the like, and the size of the tour marine powder is several tens of microns or less, and preferably several microns or less. In addition, the adhesive resin is a thermoplastic resin having good thermal fusion, and the tourmaline powder is applied to the base material coated with the copper resin in advance, or a mixture of the resin resin powder and the tourmaline powder is applied to the base material and then thermally compressed. It is partially bonded to the breathable substrates. Therefore, in the breathable base material, the tour marine powder which is not embedded in resin is sandwiched and held.

Since the water molecules in the atmosphere can pass through the tour marine powder layer, the total surface area of the tour marine powder in contact with the water molecules becomes large and the convection time in the layer is delayed. In addition, when the tour marine powder layer is plural, the convection time can be delayed.

When used in this way, the surface active effect of tour marine can be sufficiently exhibited. In addition, since the tour marine powder is held between the substrates, the tourmarine powder is used in a larger amount than when kneading with fibers or when applying it to the substrate. As a result, it is possible to produce a large amount of the surface-active substance as compared to the conventional tourmarin powder laminated sheet.

The tourmarin powder-laminated sheet according to claim 2 is an organic material prepared by heating the electric tourmarin powder at about 600 to 900 ° C., then incorporating a fusible resin and insulating at about 80 to 230 ° C. for 2 to 4 hours. It is characterized in that the removal heat treatment tourmaline powder. The soluble resin uses resins which melt at 70 ° C or higher.

By heat treatment, the organic matter and combustible elements contained in the natural tour marine ore are removed and extinguished to impregnate the molten resin in place of the organic matter or combustible element. After cooling to room temperature, the impregnated resin hardens and is fixed in a state where the powder is dispersed. By dispersing the powder in this way, the negatively charged electrodes are neutralized by each other to prevent the polarization charges from being reduced, and the potential of the potential is improved. Fully demonstrate the radiation function.

The tour marine powder laminated sheet according to claim 3, wherein the tour marine powder is 15 to 25% by weight of the natural tour marine ore powder, 10 to 20% by weight of the gelled tourmarine, and the organic material removing heat treatment tour marine 20 to 30% by weight of powder, 10 to 20% by weight of magnetite powder, 20 to 25% by weight of silicate mineral having high ion exchangeability, and 3 to 5% by weight of soluble resin, It is characterized in that the mixed powder prepared by the heat treatment for 2 to 4 hours at about 80 ℃ to 230 ℃.

Tourmaline powder generates electric field and magnetite mineral powder forms magnetic field, respectively. In addition, gelling tourmaline utilizes the pigment. Insulation treatment by incorporating soluble resin is used to fix each powder in a dispersed state to enhance polarization charge.

The natural tourmaline ore powder may be divided into, for example, 10% by weight of Lithium Tourmarine, 10% by weight of Chori Tourmarine, and the like. Examples of silicate minerals having high ion exchangeability include zeolite, mica, olivine, feldspar, and fluorite. As an example of the combination, 5% by weight of zeolite, 3% by weight of mica, and 14% by weight of olivine, hornblende, feldspar, and feldspar are used.

An example of the manufacturing method of gelling tourmaline is as follows. For example, Dravite Tourmarine is pulverized into 0.2 to 35 µm, and the powder is immersed in dilute acid solution to elute mineral powder from the powder. The acid may be an organic acid or inorganic acid such as lactic acid, hydrochloric acid, acid, formic acid, citric acid, neunggeum acid, and maleic acid. A dilute aqueous solution is prepared using reduced water from tourmaline ore. Since the extract is a dilute aqueous solution of an organic acid or an inorganic acid, it is initially acidic, but after immersion, it becomes a colloidal phase of metal ions and becomes weakly alkaline.

This extract is concentrated while removing moisture by heating or reduced pressure. When the eluted metal ions reach a certain concentration and are neutralized by adding a weak acid such as citric acid while stirring, the metal colloid precipitates and gelates. When preparing gelated tourmaline, a dilute acid solution is used to extract the natural pigment without changing the physical properties of the ore. In addition, the gelation also results in dispersion of the tourmarin particles.

Since the mixed powder has a higher dispersing effect than the tourmaline powder alone, it has a high constant voltage and high ion exchange properties. Tourin powder alone does not exhibit its function unless the external action of air turbulence, temperature difference, humidity difference, pressure, and friction force does not move. The mixed powder exhibits immediate effect and persistence of tour marine function, and greatly promotes conventional tour marine function.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of the tour marine powder laminated sheet of the present invention. The powder laminated sheet 1 is formed of the base 2 and the tourmarine powder layer 3 adhered thereto using a breathable fibrous fabric, a nonwoven fabric, a paper material, a film material and the like.

The tour marine powder layer 3 becomes the tour marine powder 3a and the adhesive agent 3b, and seals the tour marine powder 3a between layers of the base materials 2 and 2. The base material 2 is a plurality of air permeable base materials which prevent the outflow of the tour marine powder 3a.

The adhesive 3b is an adhesive resin which partially adheres the substrate 2 to each other by sandwiching the tour marine powder 3a between the substrates 2 and 2, for example, using a thermoplastic resin that is easy to heat-melt.

In FIG. 1, a mixture of the thermoplastic resin powder and the tour marine powder 3a is applied to the substrate 2, and the two substrates 2 and 2 are partially bonded by thermal bonding to be embedded in the resin therebetween. To form a non-layered tour marine powder layer (3).

Moisture in the air may pass through the tour marine powder layer 3 and thus contact with water molecules. As the surface area of the tour marine powder 3a increases, convection time in the layer also increases.

Therefore, it becomes possible to manufacture a large amount of surface-active substance compared with the conventional tour marine powder laminated sheet.

The tour marine powder layer may be formed in plural layers as shown in FIG. The substrate 12 and 12 and the intermediate substrate 22 above and below the tour marine powder measurement sheet of FIG. 2 are provided, and the intermediate substrate 22 is coated with an adhesive layer 4 made of thermoplastic resin. On the adhesive layer 4, the tour marine powder 3a is applied, and when the whole sheet is hot-pressed, the base 12 and the adhesive layer 4 partially adhere to each other, thereby forming two tour marine powder layers 13 and 13. do.

By forming the plurality of tour marine powder layers 13 in this way, the convection time of the water molecules can be made slower. Furthermore, the tour marine powder layer may be formed in three or more layers.

The tour marine powder 3a is obtained by grinding natural tourmaline ore into fine crystals and its size is several tens of microns or less, preferably several microns or less. Since the tour marine powder 3a is sandwiched between substrates, the tour marine powder 3a can be applied in a larger amount than when it is kneaded into fibers and placed on the substrate. The amount of the tour marine powder can be used to produce a powder laminated sheet of 80 to 100 g / m 2.

In the case of tourmarine, if the distance between electrodes is shortened, the potential between electrodes can be increased by the principle of solid physics. By contacting the finely ground particles with moisture in the air, water is electrolyzed to generate hydroxyl ions corresponding to negative air ions.

The manufacture of medical products, bedding, or building interior materials using these tour marine laminated sheets releases negative air ions into the living space, which is effective for improving the environment and promoting health.

In addition, due to the polarization potential of the tour marine powder, the electrical stimulation is given to the human body. Moreover, the tour marine radiates far-infrared rays with stable wavelengths at a temperature of 30 to 36 ° C, so that health medical products using the tourmarin powder provide electrical stimulation to the skin surface. Simultaneously synergizing these two effects by radiating far-infrared rays while zooming stimulates cellular tissues and promotes metabolism and blood circulation.

Hydroxy ions (Hydroxyl H ₃ O ₂ ) suspended in the air around the human body are highly conductive, and are thought to be absorbed by body fluids such as blood as part of pores. . Absorbed hydroxyl ions in the body prevents coagulation of cholesterol and adhesion to blood vessel walls by its surfactant action, and prevents hardening on blood vessels. It combines with strong oil particles and surrounds them so that the molecular film of water surrounds the surface.

As a result, the adhesion of oily particles is lost, and can be easily discharged to the outside by means of ventilation or the like.

The tour marine powder described above uses a finely ground pulverized natural tour marine ore. However, the tour marine powder can be made to produce more surface active substances by using the tour marine powder obtained by heat-treating organic matter. This organic material removal heat treatment tourmaline powder is made by heating natural tourmaline ore or gelling tourmaline at about 600 ~ 900 ℃, incorporating soluble resin and keeping it at about 80 ~ 230 ℃ for 2 ~ 4 hours. .

The tourmarin permanent electrode changes its composition at 950 to 1,050 ° C, so that the electric potential is lost because the dislocation disappears. Therefore, about 900 degrees Celsius is a heating upper limit temperature, and functional deterioration rapidly occurs even below 800 degrees Celsius. Moreover, below 600 degreeC, it is inadequate for removing the organic substance and sulfur contained in natural ore. Therefore, the heating time takes from 30 minutes to 30 hours depending on the amount of powder produced.

Melting resin uses a resin that melts above 70 ℃. The heat treatment time is appropriate for 3 to 30 hours. The heat treatment removes organic matter and combustible elements contained in natural tourmaline ores. The molten resin is impregnated in place of the extinguished organic matter or combustible element. After cooling to room temperature, the impregnated resin condenses to fix the powder in a dispersed state.

By dispersing the powder in this way, the polarization charges are prevented from being lowered or eliminated due to suction and neutralization of the electrodes of the sub-symbols, and the electrolysis function of the water originally possessed by the tourmarin powder and the electrical stimulation function by the polarization charges for improving the potential And fully demonstrate the far-infrared radiation function.

Tourmaline powder can amplify the effect of tourmarine by insulating it with a material that generates energy by itself, for example, a magnetic field-forming material or a material having high ion exchangeability.

15 to 25% by weight of the natural tourmaline ore powder of the mixed powder (hereinafter referred to as "evalite"), 10 to 20% by weight of the gelling tourmaline, 20 to 30% by weight of the organic matter removing heat treatment tourmaline powder, and 10 of the magnetite powder It is prepared by mixing 20 to 23% by weight of silicate mineral having high ion exchangeability and 3 to 5% by weight of a meltable resin, followed by heat treatment at about 80 to 230 ° C. for 2 to 4 hours.

For natural tourmaline ore powders, silicate minerals are used as lithium, tourmaline and chori tourmarine. For silicate minerals, zeolites, mica, olivines, hornblende, feldspar, and feldspar have the following roles: do.

Lithium tourmaline disperse effect of permanent electrode, chori tourmaline electrostatic strengthening of permanent electrode, gelation tourmarin use of pigment, heat treatment tourmaline electrostatic reinforcement of permanent electrode, magnetite magnetization, zeolite (沸石) contributes to ion exchange, mica to disperse effect, olivine, hornblende, feldspar, and fluorite contribute to ion exchange.

By increasing the dispersing effect compared to the single tourmarin powder, the constant voltage is high, and the magnetic field formation and high ion exchange property are added. Tourin powder alone does not function without external effects of air turbulence, temperature difference, humidity difference, pressure, and frictional force. External action does not have immediate effect.

Mixed powder has immediate effect and continuity in the functioning of tour marine. It greatly promoted the function of the conventional tour marine. This mixed powder is a gel-enhanced tourmaline to make use of the electrical properties and magnetic lines, and is an environmentally improving material that is also referred to as an energy conversion material with high ion exchangeability.

EXAMPLE

The experimental results on the surface active effect of the tourmarin powder reddish sheet are described below. In the experiment, the number of negative ions generated by placing a sheet material of 1 m 2 in the air was measured by an ion water meter.

Natural tourmaline ore powder laminated sheet used chori tourmarine powder of 40 mesh. The powder usage is set to 80 g / m 2. The organic matter-removed tourmaline powder was heat treated at 600 ° C for 30 minutes using 40 mesh chori tourmaline powder, and then thermally treated at 80 ° C for 3 hours. The powder usage was 80 g / m 2. Evabarite also has a powder usage of 80 g / m 2.

As shown in Table 1, negative ions are generated by electrolyzing water molecules suspended in the air in four kinds of sheet materials, but the number of conventional products is as small as 500 at maximum.

On the other hand, in the case of the sheet (Invention 1) in which powder of natural tourmaline ore is laminated between substrates, the number of occurrence of negative ions is exceptionally high (minimum 500). In addition, the sheet of the organic material-removed heat-treated tour marine powder (invention 2) increased to 3,500 at the lowest, and the EVA-light (invention 3) was 50,000 at the highest, and the increase was remarkable.

Next, the results of the test for the generation of hydrogen gas of natural tourmaline ore powder organic matter removal heat treatment tourmarin powder and evalite are shown in Table 2.

Table 2 puts a sample (200g each 1 mm or less) and 500 ml of water in a glass container, closes a lid, and records the hydrogen generation value over time by connecting to a hydrogen gas detector. Natural tourmaline ore powder and organic matter removal heat treatment Tourmaline powder (heat-treated at 600 ° C. for 30 minutes and then warmed at 80 ° C. for 3 hours) used chori tour marine.

Table 3 shows the pH measurement results of the tourmaline powder and eVAlite. Table 3 records the change of pH over time after adding 150 ml of purified water of pH = 5.45 in a glass solvent, adding and stirring a sample (5 g of each 325 mesh).

Natural tourmaline ore powder and organic matter removal heat treatment Tourmaline powder (heat-treated at 600 ° C for 30 minutes and then heat-treated at 80 ° C for 3 hours) used chori tourmarin.

As shown in Table 2, all powders generate hydrogen gas, but the amount is generated by natural tourmaline ore powder organic matter removal heat treatment tourmarin powder evalite. Also in Table 3, pH7 is high in all, but compared with the numerical value, natural tourmaline ore powder organic matter removal heat treatment tourmarin powder is EVAlite. From these results, it was found that the electrolysis function of water increased in the order of natural tourmaline ore powder organic matter removal heat treatment tourmaline powder evalite.

As described above, the tour marine powder laminated sheet of the present invention is partially bonded by an adhesive resin so as to sandwich the tour marine powder, so that the tour marine powder not embedded in the resin is sandwiched between layers of the breathable substrate. As a result, the water molecules in the air pass through the tour marine powder layer, which increases the total surface area of the tour marine powder in contact with the water molecules and delays the convection time in the layer. By making time later, it becomes possible to fully exhibit the surfactant effect of the touring marine used.

Since the tour marine powder is composed between the substrates, it can be used in a larger amount than when it is kneaded into the fiber or applied to the substrate, and thus a large amount of the surfactant can be produced compared to the conventional tour marine powder laminated sheet. .

The tour marine powder laminated sheet according to claim 2 is a tour marine powder which is fixed in a state in which a powder is dispersed by impregnating molten resin during thermal treatment by removing organic substances and combustible elements contained in natural tour marine ore by heat treatment. Use This organic material removal heat treatment tour marine powder is sufficiently neutralized between the electrodes of opposite signs to prevent the polarization charge from being lowered or lost, thereby fully exhibiting the electrolysis function of the water originally contained in the tourmarin powder. Therefore, many surfactants can be produced as compared to the powder laminated sheet using natural tourmaline ore.

The tour marine powder laminated sheet according to claim 3 uses tourmaline, magnetite, highly ion-exchangeable silicate mineral and a soluble resin, and then uses a mixed powder prepared by heat treatment to exhibit the function of tour marine. Immediately, persistence appears.

The function of the conventional tour marine can be greatly promoted, thereby realizing a tour marine powder laminated sheet having a significantly higher electrolysis function of water than using a natural tour marine ore powder.

Claims (3)

In a tour marine powder laminated sheet consisting of a tourmaline powder made of a sheet-like base material and tourmaline ore, which has been microcrystallized, and an adhesive for attaching the tourmarine powder in a layered form of the base material, the base material is leaked from the tourmarine powder. And a plurality of breathable substrates of the prevented and breathable material, wherein the adhesive is an adhesive resin which partially adheres to adjacent breathable substrates in order to insert and hold the tourmarin powder between the breathable substrates. bedsheet. The method of claim 1, wherein the tourmarin powder is an organic material removal heat treatment tourmarin powder prepared by heat treatment at about 600 ~ 900 ℃ and incorporating into a soluble resin to keep warm at about 80 to 230 ℃ for 2 to 4 hours. Tour marine powder laminated sheet to make. According to claim 1, wherein the tour marine powder is 15 to 25% by weight of the natural tourmarine ore powder, 10 to 20% by weight of the gelling tourmarine, 20 to 39% by weight of the organic material removal heat treatment tourmarin powder, magnetite mineral 10 to 20% by weight, 20 to 23% by weight of silicate mineral powder having high ion exchangeability, and 3 to 5% by weight of soluble resin, mixed, and then prepared by insulating at about 80 ° C to 230 ° C for 2 to 4 hours. Tour marine powder laminated sheet characterized in that the powder mixture.