KR200343030Y1 - Functional stone funerary urn - Google Patents

Abstract

The present invention relates to the ossuary using nanotechnology, and more specifically, it penetrates and fills the silver tissue of nano-sized ultra-fine particles having functions such as antibacterial and deodorizing constant temperature insulation through the stone skin of the ossuary made of natural stone. As a functional natural stone ossuary prepared by combining,

The stone skin of the ossuary is infiltrated and filled with nanomaterials with inherent colors such as nanosilver and antibacterial sterilization, deodorant, and thermal insulation to increase the density of the stone.

An artificial condition such as carbon dioxide, moisture, high temperature, and high pressure is formed in the ossuary processed with natural stone filled with nano material penetrated and filled so that the nanomaterial is not combined with the stone structure of the ossuary so as not to be separated.

In addition, nano silver colloid is applied and filled to the ashes, and the bone powder is mixed with nano silver powder, and the paper covering the bone is treated with nano silver to increase antibacterial and sterilization deodorant constant temperature function.

Description

Functional natural stone fungus {Functional stone funerary urn}

The present invention relates to the ossuary using nanotechnology, and more specifically, it penetrates and fills the silver tissue of nano-sized ultra-fine particles having antibacterial and deodorant constant temperature insulation through the stone skin of the ossuary made of natural stone. Functional natural stone ossuary prepared by combining.

Most of the crypts are made of natural or artificial stone, and to solve problems such as condensation and odor of the crypts, various structures such as vacuum boxes and the use of powdery envelopes coated with fungicides, dehumidifiers, fragrances, and charcoal and loess, etc. The method is being tried.

If it is possible to penetrate and fill fine particles of finer grains than the original tissue with antibacterial and deodorant constant temperature through the skin of the crypt, made by processing natural stone, it gives functionality such as antibacterial and deodorant constant temperature insulation. And strength can be increased, but so far, this process has not been introduced.

As a result of nano-materials such as gold, silver, etc., processed into natural stone processing, it is sterilized, antibacterial, deodorizing, constant temperature, etc. New colors and antibacterial, so as not to break off. It can be made into crypts with functions such as sterilization, deodorization and condensation prevention by constant temperature insulation.

If only the infiltration of nanomaterials into the ossuary can be washed by immersion washing, etc., the method of mixing and coating nanomaterials with an adhesive may not be useful as well as the durability as the adhesive is coated to the surface of the nanomaterial. It is low and does not take advantage of natural stone.

Natural stone is produced by chemical and physical changes of more than thousands of years at room temperature and atmospheric pressure, but in the present invention, the artificial material is infiltrated and filled with nano-materials such as gold and silver artificially, and the nano-materials infiltrated and filled in the gap of the stone structure are not separated. To make the ossuary with the function of antibacterial and deodorizing constant temperature.

The present invention should find an effective method of effectively penetrating and filling nanomaterials by increasing or decreasing the heating pressure in the crypts made of stone,

Put the carbon material filled with nanomaterial into the pressure tank, supply the moisture dissolved in carbon dioxide, gradually increase the pressure and maintain it for a certain time, then gradually lower the pressure to dissolve the calcium carbonate existing in the gap between the stone by water dissolved in carbon dioxide. Calcium hydrogen carbonate is made and slowly pressurized to dry calcium hydrogen carbonate in the gap between stone surface and stone tissue to turn into calcium carbonate so that the nanomaterial and stone tissue can be combined more without damage of stone tissue.

By forming high temperature and high pressure state by steam, trace amount of calcium carbonate and silica component reacts in the gap between stone steam and stone structure generated during the process of stone processing and small amount of turbomorite and calcium silicate. by generating silicate compounds and promoting the bonding of nanomaterials to stone tissues.

The purpose of the present invention is to provide a crypt with a function of antibacterial and deodorizing constant temperature by infiltrating and filling nanoscaled materials such as gold and silver artificially and preventing the nanomaterials infiltrated and filled into the gap of the stone tissue.

1 is an exploded perspective view showing the overall configuration of the present invention

2 is a cross-sectional configuration according to an embodiment of the present invention

Figure 3 is Hanji filled with nanomaterial particles according to an embodiment of the present invention

<Explanation of symbols for main parts of drawing>

1: crypt 2: body

2a: Inner circumference 2b: Stone intermediate layer

2c: outer surface 3: lid

4: open

10: Hanji A: Nanoparticles

Detailed description of the configuration of the present invention for achieving the above object is as follows, and detailed description of known components that may obscure the subject matter of the invention is omitted.

The present invention is a traditional ossuary box (1) consisting of a cylindrical body (2) formed with a natural stone as a raw material and a container (2) formed thereon with an open portion (4) formed thereon as a raw material for wrapping the bones. To

The stone forming the appearance of the ossuary (1) is formed of a roughly processed inner circumferential surface (2a) and a smoothly formed outer circumferential surface (2c) and a stone intermediate layer (2b) so as to fill a large amount of nanosilver inside. Body (2) and lid that have colored penetrating and filled with nano silver (A), which has ultra-fine particles of nano sized nano particles, and has a function of preventing condensation and improving strength by antibacterial, bactericidal, deodorizing and constant temperature insulation. (3) and

By depositing 1000ppm nano silver colloid on hanji, the nano silver treated hanji (10) is characterized by constituting the ossuary (1) of a set.

The ossuary box of the present invention made as described above is filled with bones coated with nano silver colloid and mixed with the nano silver powder, and the bone mixture is wrapped in nano silver treated paper (10) and both sides of the stone are treated with nano silver antibacterial urine box (1). When stored, it prevents the deterioration and decay of the ashes so that no odor occurs and no condensation occurs.

In the present invention, the nanomaterial may be infiltrated and filled by nanosilver alone or by a selective method of adding nano gold to nanosilver.

Referring to the manufacturing process of the functional stone ossuary box according to an embodiment of the present invention.

In the pressure tank, the container containing the nanomaterial colloid is heated and immersed in the container (1) consisting of the lid (3) and the body (2), respectively. Penetrate and fill nanomaterials (A) in the tissue gaps.

After putting the ossuary box (1) infiltrated and filled with nanomaterial (A) into the pressure tank, the water and carbon dioxide gas are injected, and the pressure is gradually raised to maintain the high pressure so that moisture containing carbon dioxide is dissolved in the inner surface (2a) and the outer peripheral surface. Dissolve the calcium carbonate (CaCO ₃ ) of the stone skin layer and the crevice of (2c) to further bond the stone structure and the nanomaterial (A), or

In the autoclave, the steam and pressure are gradually raised by the steam to react with the saturated steam and traces of calcium carbonate and silica that are present in the gap between the stone and stone tissues. By generating a morrite, calcium silicate compound, etc. to further combine the nanomaterials and the stone tissue to produce a crab box with the desired color and antibacterial function.

Natural stone is produced by physicochemical changes of more than thousands of years at room temperature and atmospheric pressure, and temporarily creates conditions such as artificial high pressure and high temperature in the ossuary to make a small amount of change to infiltrate and fill nanomaterials in the crevices of the ossuary. It is the gist of the present invention to combine the nanomaterial so that it does not escape.

The natural stone, the raw material of the crab of the present invention, is a single ore, and the granite, marble, etc., which are hard in stone, have excellent abrasion resistance and durability, are randomly selected, but a ceramic having appropriate strength and hardness can be selected as an equivalent. Do not use separate pigments or dyes.

In the choice of nanomaterials,

Nano silver is a natural high-efficiency antibiotic, and the original silver (silver) is in a silver-white color, but when it is nanometered to less than 20nm, it becomes golden and ultra-fine particles of 3-5nm size are directly exposed to bacteria. It acts to dissolve cell membranes and blocks bacteria's metabolic and respiratory functions, thereby fundamentally preventing the growth and survival of bacteria.It not only increases the resistance of bacteria but also has tens of times more powerful antibacterial activity (99.9%) than chlorine. It also has characteristics such as electromagnetic shielding and constant temperature insulation.

Nano gold is also a human-friendly metal, which is very stable as yellow in its original bulk state and is not known to participate in chemical reactions.However, when it is nanometered below 20nm, it is red like red wine and oxidizes carbon monoxide to carbon dioxide at room temperature. By actively participating in chemical reactions, such as propylene oxide to produce propylene oxide by oxidizing propylene into oxygen molecules, effective application of the propylene oxide can have a deodorizing function to remove unpleasant odors.

Therefore, it is beautifully colored high strength antimicrobial sterilization deodorant constant temperature insulation for the purpose if it is combined with penetrating and filling nano silver, nano gold, etc. which have the effect of sterilization deodorization constant temperature to the stone tissue of the urn box made of natural stone. The ossuary can be made with the back function.

In the case of nano-silver colloids, it is preferable to use a mixture of 3-10 nm-sized nanosilver with economical antibacterial and economical specifications and ratios that produce golden color.

As described above, the silver and gold in the bulk state are also pure metals that are harmless to the human body, but if they are nano-ized, they have antibacterial and antibacterial constant temperature functions that inhibit the growth of powerful bacteria. Various manufacturing methods of nano silver and nano gold colloids granulated at the size of the known are known, but the present invention uses the produced nanomaterial colloid regardless of the manufacturing method.

Hereinafter, the process will be described based on nanosilver.

The ossuary 1 consists of a body 2 and a lid 3 of the ossuary containing natural ashes as a raw material, and the ossuary body is polished by grinding, etc., so that the outer circumferential surface 2c maintains luster and the inner circumferential surface 2a. The rough process is to make a lot of nano silver filled inside the ossuary.

In nano-silver,

NANO SILVER is a nano-ized silver with 99.99% purity, and it is possible to mix 3-10 nm size nano silver with economical antimicrobial sterilization and economical standard and ratio to produce golden color. In order to facilitate the use of nano-silver colloid (Nano-silver colloid) made of ethanol as a solvent.

To keep the color of the ossuary in golden color, use nano-silver colloid around 2000ppm and 5000ppm to give brown color.

Ethanol, a solvent of nano-silver colloid, may be replaced with distilled water, but the penetration adsorption power is lower than ethanol.

In the heat dryer,

Put the ossuary in the heat dryer and heat-dry it to around 110 degrees Celsius over 2 hours.

In the pressure tank,

The pressure tank has a lid that is easy to put in and take out the stone, so if the pressure increases or decreases quickly, the strength of the stone may drop, so the microcontroller automatically controls the entire process of gradually lowering the pressure and then gradually lowering it.

The oscillation was heated to around 110 degrees Celsius in a container containing ethanol-based nano-silver colloid, which is easy to penetrate and adsorb into the stone tissue, or was gradually maintained in a pressure tank to maintain a constant time. By slowly releasing the nanosilver colloid infiltrated and cracked cracks and concave-convex and cracks on stone surface by the method of slowly releasing.

The filling of nano silver is about 2.81 in Chungju, Chungbuk, Korea, and the crypt is made of quarry with a water absorption rate of 0.32. The inner peripheral surface (2a) is 0.2mm-1.5mm and the outer peripheral surface (2c) Filled to a depth of 0.1mm-1.0mm.

It is also possible to select a method to extract the air from the gap of stone tissue by vacuuming the ossuary in a nano-silver colloid and vacuum filling it in the place where the air escapes. In addition, since the nano-silver colloid boils over, it is difficult to infiltrate and weakly bind the stone tissue and the nanomaterial.

The carbon dioxide (CO ₂ ) dissolved water is injected into the pressure tank containing the crumbs that penetrate the nanomaterial, and the pressure is gradually raised to maintain a high pressure to form carbon dioxide (CO ₂ ) dissolved in water (H ₂ O). Reacts with calcium carbonate (CaCO ₃ ) in the stone crevice to become calcium hydrogen carbonate (CA (HCO ₃ ) ₂ ) (CaCO ₃ + H ₂ O + CO ₂ → Ca (HCO ₃ ) ₂ ). When (H ₂ O) is evaporated, calcium hydrogen carbonate (CA (HCO ₃ ) ₂ ) is transformed into calcium carbonate crystals (CaCO ₃ ) in the gap of the stone structure so that the nano silver is further bonded to the stone structure.

In the above pressure tank, carbon dioxide dissolved in water reacts with calcium carbonate in the stone crevice to convert into calcium carbonate through liquefied hydrogen carbonate, which is then combined with the nano-silver to form stone.

Infiltrated and filled with nanomaterials into the autoclave, put the dry crypt and slowly reach the state of high temperature and high pressure of about 180 degrees Celsius and 10 atm over 3 hours by steam. Traces of calcium carbonate and silica, which are present in the gap between the stone powder and the stone structure, react with each other to generate a small amount of turbomorite calcium silicate compound, which is much higher than the original bulk silver. Nanosilver, which has a large surface area, promotes further bonding with the stone tissue and gradually lowers the pressure and temperature over two hours.

The combination of the nano silver and the stone structure is sufficient to bond the nano silver with the surface area much larger than the original silver, so it is sufficient that the nano silver is stuck in the gap between the stone structure and prevented from falling by immersion cleaning or impact. Do.

The method of mixing nano silver with an adhesive on the surface of the stone is coated with the adhesive to the surface of the nano silver, so that the utility and durability are inferior and the texture of the natural stone cannot be saved.

The present invention does not provide sterilization and antimicrobial function by coating only the epidermis of the crypt as in the conventional processing method, but it has higher functionality than the epidermal coating by infiltrating and filling nanosilver under the epidermal layer as well as the cracks and irregularities of the surface. It is able to complete the crypts with the texture of natural stone and natural stone, and the effect of antibacterial and deodorization constant temperature is filled with cracks and bumps in the inside of the crumbs with rough surface than the exterior of the polished crumbs. Even bigger.

It is effective to fill nanosilver in the denser structure of the stone structure than in the rough structure, and it is a further development of the conventional technique of simply coating the epidermis on the stone.

The amount of nano silver filling varies depending on the natural stone's unique pattern and the density of the tissue, and if the nanomaterials with the desired functions and colors, such as nano gold, are mixed properly, antibacterial, It has sterilization, deodorization and condensation prevention by constant temperature insulation.

Depending on the type, concentration, material of stone, filling depth, bonding strength, etc. of nanomaterials such as nano silver colloid, the operation program of vacuum filling and autoclave shall be set up accordingly.

The ashes are filled and coated with nano silver colloid, and the powdered bone is mixed with nano silver powder alone or nano gold powder, but the wrapping paper is made using nano silver treated paper (10) and soaked in 1000 ppm nano silver colloid. Soaked in Hanji silver nano-colloid (Nano-silver colloid), etc. attached to a dry plate of 50 degrees Celsius to prepare a method that does not wrinkle.

The urine box having the function of antimicrobial sterilization constant temperature of the present invention manufactured by the above-described method is packed and filled with nanosilver colloid and the bone ash is nanosilver treated, and the effect is increased even more when used.

The present invention described above is not limited to the above-described embodiment, since various substitutions and changes can be made by those skilled in the art without departing from the technical spirit of the present invention. .

In this way, the present invention is to color the crypts to the inside of the stone tissue under the epidermal layer with nano silver, which is a harmless mineral that is beneficial to the human body, and has functions such as antibacterial, deodorization and condensation prevention by constant temperature insulation.

After processing the natural stone into the shape of the crypt, the nanoparticles, such as silver, which have antimicrobial sterilization and deodorization constant temperature function of ultrafine particles, can be combined by penetrating and filling the stone structure of the crypt to produce antibacterial sterilization and deodorization. Materials such as materials are also saved.

Claims (6)

In the ordinary paper box (1) consisting of a hanji (10) for wrapping the bone and a container (2) having a cylindrical body (2) having an opening (4) formed on the upper portion as a raw material as a raw material and a lid (3) covering the bone, The stone forming the appearance of the ossuary (1) is formed of a roughly processed inner circumferential surface (2a) and a smoothly formed outer circumferential surface (2c) and a stone intermediate layer (2b) so as to fill a large amount of nanosilver inside. The body (2) and the lid (2) which have a function of preventing the condensation by the antimicrobial, bactericidal, deodorizing and constant temperature insulation and improving the strength by infiltrating and filling the ultra-fine nano silver (A) in which nano particles of silver or more are nano-sized. 3) and The ashes are filled with nanomaterial colloids, mixed with nanomaterial powder added to the bones, and wrapped around the bones. Functional natural stone ossuary characterized by the construction. The urine box (1) formed of natural stone is immersed in a container containing nano silver colloid containing ethanol as a solvent, which is strongly penetrated and adsorbed into the stone structure. It is a method of maintaining a certain time by gradually increasing or decreasing the pressure, and then gradually releasing it.As a result of pressure and adsorption of ethanol, such as cracks on the surface of natural stone of cracks, irregularities and stone tissues, nano-silver Functional natural stone ossuary, characterized in that the back is filled and combined with penetrating filling and functionalities such as coloring and antibacterial deodorant prevention. The method of claim 1, wherein the ossuary box 1 formed of natural stone is made of nano-silver or the like by cracking of the surface of the ossuary box, unevenness, and swelling or pressure of the stone in the gap between the stone structure. Combines infiltrating and filling The temperature and pressure are gradually increased by the steam in the autoclave to reach the high temperature and high pressure state of about 180 degrees Celsius and 10 atm. Calcium carbonate and silica react to form compounds such as turbomorite and calcium silicate, and gradually decrease the temperature and pressure to reduce the stone structure and nano-silver. Functional natural stone ossuary, characterized by a stronger bond. The method of claim 1, wherein the ossuary box 1 formed of natural stone is made of nano-silver or the like by cracking of the surface of the ossuary box, unevenness, and swelling or pressure of the stone in the gap between the stone structure. Combines infiltrating and filling Carbon dioxide (CO ₂₎ and water (H ₂ O) for supplying and gradually raised to keep the composition state of the high-pressure carbon dioxide (CO ₂₎ the melt water (H ₂ O), calcium carbonate stone gap with the pressure (CaCO ₃₎ and the carbonate calcium nano-silver mixed response (CA (HCO _{3) 2)} a and _{(CaCO 3 + H 2 O +} CO 2 → Ca (HCO 3) 2) slowly lowering the water (H ₂ O pressure) After drying, calcium hydrogen carbonate (CA (HCO ₃ ) ₂ ) is transformed into calcium carbonate crystal (CaCO ₃ ) in the gap between the stone structure, and is bonded to the stone structure together with nano silver (Nano-silver). (Nano-silver) is a functional natural stone ossuary characterized by a more strengthened bond. The method of claim 1, wherein the surface of the functional natural stone crypt box (1), the nano-silver-treated paper to cover the remains of the crypt box infiltrated and filled with nanosilver by heating or pressure of the stone in the unevenness and stone gap (10) ) The functional natural stone ossuary is characterized in that it is soaked in 1000ppm nano silver colloid and attached to a dry flat plate at 50 degrees Celsius, followed by nano silver treatment. The method of claim 1, wherein the nanomaterial colloid is added to and mixed with the bone ash and the nanomaterial powder is added as a main component of the nano-silver as needed as a functional ingredient, characterized in that to further enhance the deodorizing function, etc. Natural stone ossuary.