KR20120046938A - A process for the preparation of sarira from powdered bone of human being - Google Patents

Abstract

PURPOSE: A manufacturing method of an artificial crystalline material from human bone dust is provided to form various shapes of artificial crystalline material having jade green or jasper color. CONSTITUTION: A manufacturing method of an artificial crystalline material from human bone dust comprises next steps: mixing 60-70 parts by weight of human bone, 15-25 parts by weight of sericite, 110-20 parts by weight of terra alba, and 5-15 parts by weight of elvan; fusing the mixture in an electric furnace at 1000-1500 deg. Celsius for 20 minutes to 1 hour; and molding the artificial crystalline material by pouring the mixture into a mold and cooling thereof. The artificial crystalline material can be molded in a spherical shape, an oval shape, or a comma-shaped jade.

Description

A process for the preparation of sarira from powdered bone of human being}

The present invention relates to a method for producing phosphorus-produced using phosphorus powder.

In Korea, burial culture was traditionally mainstream. In particular, the dynasties of the great royal tombs are enormous, and accordingly, the aristocrats and Kwon Mun-sega have made a great succession from generation to generation, with their ancestors buried. The location, burial method, and ritual have been highly valued, and the common people have established ancestral tombs in accordance with these customs, and the land disappeared by these graveyards has been expanding rapidly every year.

In the Buddhist culture, cremation is the principle, but this cremation is considered to be an act of artificially damaging the human body. However, due to the problems of the burial culture in modern times, the land has become narrow, especially in Korea, and has rapidly emerged as a social problem by rapidly encroaching on the land which is the place of life of descendants. In addition, due to the rapid expansion of urbanization, the graves of ancestors and the difficulties of living are not frequently found, and the cost of management is considerably high.

As an alternative to burial culture, cremation culture is being activated as an alternative to funeral culture, and currently 70-80% of the deceased are cremated. However, there is also a lack of ossuary where ashes or bones are placed after cremation, and attempts to expand new facilities are facing difficulties as opposed to local residents who think they are hateful facilities.

Recently, as an alternative to the ossuary culture, a grove is installed and a method of planting powdered bones is introduced. In the case of a ranch, the powders scattered on the soil are absorbed by nature and do not have a significant adverse effect on the environment, and there are advantages that they are easier than in the case of burial or ossuary. Due to the problem of the filial piety culture based on filial piety and example, there can be emotional antipathy against it and the effect of tribute to the deceased is faded.

As an alternative to this, a method of processing the ashes, which does not cause the ashes to rot or deteriorate, has emerged as an alternative. Examples of known methods in this way are as follows.

Patent No. 10-0643115 discloses a method for producing crystals from the remains after cremation and crystals thereof, wherein the bone powder and borax or boric acid, which are crushed and crushed the bones, are mixed with an adhesive for preventing scattering of bone powder in water. Calcining and melting for 10 to 20 minutes at a temperature in the range of 1,050 to 1,250 ° C; And dropping the molten bone bone powder and striking it at the same time to disperse it into small pieces and dropping the dispersed bone powder on a diaphragm to agglomerate into a spherical shape, and then slowly cooling to form crystals, or pouring the molten bone powder into a mold of a predetermined shape. Disclosed is a method for preparing a crystal from the ashes remaining after cremation comprising the step of forming the crystals by slow cooling.

Patent Publication No. 10-2006-0112017 discloses a method and a device for producing crystals of ashes and powders, and here, a flame of 2000-2700 ° C. in which ashes are ground and put into a crucible vessel and burned with brown gas. Adding to the bone meal for 7-15 minutes to completely melt; Tilt the crucible container and drop the melted powder onto the conveyor by a predetermined amount. Disclosed is a method for producing molten crystals of ashes and powders, which comprises the steps of forming spherical crystals by transferring them to a rotating container filled with a release powder.

Patent Publication No. 10-2008-0096949 discloses a method for producing crystals from the remains after cremation and crystals, in which the fine powder is broken into finely divided bone powder, borax or boric acid and sodium carbonate in water. Mixing with calcination and melting; And it discloses a method for producing a crystal from the remains remaining after cremation comprising the step of slowly cooling the molten bone powder to form a crystal.

Patent No. 10-0799966 discloses a memorial bone memorial with a built-in electronic chip, and here in the memorial bone history consisting of a corrugated melt formed in a certain shape, the deceased on the surface or inside of the corrugated melt A commemorative bone company with an electronic chip, which is characterized in that an electronic chip containing information of the attached is disclosed.

Patent No. 10-0932561 discloses an apparatus and method for bone formation, and discloses a device for pressurizing the remains or cremated bones after cremation and a method for bone formation using the apparatus.

Korean Patent Laid-Open Publication No. 10-2010-0053400 discloses a method for manufacturing the ashes into the crystalline body, wherein the method comprises: re-dividing the bones made by cremating the body; Compressing the regrind bone powder to a pressure of 5 tons to produce spherical crystals having a size of 1.3 mm; Firing the spherical crystals in the range of 1,300 ° C. to 2,500 ° C .; Primary coating the calcined spherical crystals with powder of mineral; Secondary coating the first coated spherical crystals with a colorant; And a third step of coating the second coated spherical crystals with ultraviolet rays. The method of manufacturing the ashes from the crystals is disclosed.

Patent No. 10-0936728 discloses a sari manufacturing apparatus and a manufacturing method, which discloses a sari manufacturing apparatus and a manufacturing method.

Patent Publication No. 10-2004-0021502 relates to a method and a device for cremating human and animal carcasses, and melts the ashes by heating the interior temperature of the cremator to 1350 ° C or more when the carcasses of humans or animals are cremated. A new type of bone crystallization method and apparatus for crystallizing are disclosed.

Korean Patent Publication No. 10-2010-0057981 discloses a device for preparing a memorial material crystallization method and a method for producing a memorial material crystal using the same.

Patent No. 10-0885271 discloses an apparatus for manufacturing bone ash bone stabilization and its manufacturing method.

Patent No. 10-0967934 discloses a method for processing ashes and processed products using the same.

Patent 10-0832563 discloses a method for treating bone solids and a device thereof.

Patent No. 10-0912006 discloses a method for producing phosphorus phospholipids using human bones, where 70% of the human bone powder of the dead is used as a raw material of phosphorus risley. Making a mixture consisting of 3% illite, 5% elvanite, 2% feldspar, and 20% kaolin; Mixing the mixture, which is the above-described sari raw material, with water at a specific ratio of 90:10 to 80:20 to form a desired shape kneaded; Drying the phospholipid production raw material made in the desired shape above at a temperature of 100 ° C. for 20 minutes to remove moisture from the hotplate of the electric furnace located outside the electric furnace; Baking the dried raw material for 2 hours at 1200 ℃ in an electric kiln; And lowering the temperature of the electric kiln to 800 ° C., and then opening the kiln door and taking out the finished raw material in saree.

The manufacturing method of the phosphorus-liquid disclosed above is complicated in its manufacturing method, and in the case of the wet manufacturing method, the loss of the phosphorus powder is inevitably brought about in the process of molding the phosphorus powder with water, It does not have sufficient strength, and the artificial bone is not multiplied.

The present invention relates to a method for producing phosphorus-produced using phosphorus powder. More specifically, 60 to 70 parts by weight of bone flour, 15 to 25 parts by weight of mica, 10 to 20 parts by weight of clay and 5 to 15 parts by weight of elvan rock are mixed and heated in an electric furnace at 1,000 to 1500 ° C. for 20 minutes to 1 hour. Melted, poured into a mold of a suitable shape, molded and cooled to produce a phosphorus.

The present invention is very hygienic, very simple, can be molded into a variety of shapes, very hard, can produce a light jade to pale jade color and a beautiful surface of the surface.

It is preferable to use about 65 parts by weight of phosphorus powder, it is preferable to use about 20 parts by weight of villus, about 15 parts by weight of clay is preferably used, about 7 parts by weight of elvan. desirable.

The shape of the phosphorus can be shaped into a spherical shape, an egg shape, a grain shape or other desired shape.

In the case of spherical and egg-shaped, the size of the spherical or egg-shaped is preferably about 2 to 10 mm in diameter, preferably about 5 to 7 mm in diameter, and in the shape of grains, the diameter of the large spherical part is about 2 to 10 mm, preferably about 5 in diameter. 7 mm and a size 5-20 mm, Preferably, 7-15 mm is preferable.

The composition of phosphorus mainly consists of calcium phosphate (Ca ₃ (PO ₄ ) ₂ .

Sericite is Tertiary pyrophyllite deposits of quartz Anam geologically, Tertiary green tuff, quartz trachyte, and the minerals separated from the sericite accompanying the antimony is gestation in the granite seokyoungmaek, the composition of SiO ₂ 45 ~ 58% , Al ₂ O ₃ 20 ~ 40%, TiO ₂ 9.91 ~ 0.4%, MgO 0.2 ~ 9.65%, CaO 0.1 ~ 0.35%, Na ₂ O 0.1 ~ 0.63%, K ₂ O 7 ~ 9.7%, H ₂ O 2.0 ~ 7.4%, FeO 0 ~ 1.4%.

The clay is geologically a kind of white tuff, whose composition is 65 to 83% of SiO ₂ , 13 to 16% of Al ₂ O ₃ , 2.4 to 4.5% of MgO, 0.7 to 1.9% of CaO, and 0 to 1.7% of Na ₂ O, K. ₂ O 0 ~ 0.7%, H ₂ O 5.9 ~ 12.4%.

Elvanite belongs to granite calcite, and it contains quartz and feldspar. Its main components are SiO ₂ and Al ₂ O ₃ and some of them contain Fe ₂ O ₃ . It is a porous material with strong adsorption, ion exchange effect and excellent emission effect of far infrared rays.

Phosphorus produced in the present invention has a jaundice to pale jade color, the degree of the color is determined by the ratio of biotite and clay. Increasing the content of white clay has a jade color, and increasing the content of biotite color close to jasper.

The phosphorus produced by the present invention is very high in strength, beautiful in color and very clean in surface.

Next, the present invention will be described in more detail as examples.

Example 1

65 g of bone bone powder, 15 g of clay, 7 g of elvanite and 18 g of mica are placed in an electric furnace, and heated and melted at about 1200 ° C. for about 30 minutes to prepare a melt. The melt is poured into a spherical mold of about 3 mm in diameter and slowly cooled. Cool to about 200 ° C., open the mold and cool to room temperature to obtain a medium pale jalousie, globular, very hard artificial yarn.

Example 2

65 g of bone meal, 20 g of white clay, 7 g of elvan rock and 22 g of mica are placed in an electric furnace and heated to melt at about 1200 ° C. for about 30 minutes to prepare a melt. The melt is poured into a spherical mold of about 3 mm in diameter and slowly cooled. Cool to about 200 ° C., open the mold and cool to room temperature to obtain a jasper-colored, spherical, very hard artificial yarn.

Example 3

65 g of bone meal, 10 g of white clay, 7 g of elvan rock and 15 g of mica are placed in an electric furnace, and heated at about 1200 ° C. for about 30 minutes to melt to prepare a melt. The melt is poured into a spherical mold of about 3 mm in diameter and slowly cooled. Cool to about 200 ° C., open the mold and cool to room temperature to obtain a pale jalousie, very spherical, very hard artificial yarn.

Claims (3)

60 to 70 parts by weight of bone flour, 15 to 25 parts by weight of mica, 10 to 20 parts by weight of clay and 5 to 15 parts by weight of elvan, mixed in an electric furnace for 20 minutes to 1 hour and melted, Forming by pouring, cooling and forming a very hard, pale jade to jasper brilliant phosphorus.
The method of claim 1, wherein the phosphorus is formed into a spherical shape, an egg shape or a grain shape.
The method according to claim 1, wherein the phosphorus is formed into a diameter of about 2 to 10 mm in the case of a spherical shape or an egg shape, and a diameter of the large spherical part is about 2 to 10 mm and a size of 5 to 20 mm in the case of a grain shape.