KR20070093475A - Charnel case and manufacturing method thereof - Google Patents

Abstract

An urn and a method of manufacturing the same are provided to effectively block infrared layer, water vein, and humidity and protect the invasion of rats and insects. An urn includes a urn, a lid(1), and a pattern unit(3). The urn comprises a main body for keeping bones and a cover for closing the main body. The cover for closing the main body is made of the same as a bottom diameter of the main body. The lid is manufactured with same as the open diameter of a body(2) for keeping the urn so as to isolate the body. The pattern unit is formed to attach on the body. The pattern unit is formed by transferring or printing stamps or pictures. The pattern is also formed as a sticker. The urn is made of bioceramics, a silver nano-material, and loess material, etc. Therefore, the bones keep safely from humidity and insects by using the urn.

Description

Crypt and its manufacturing method

1 is a photo box of the present invention.

Figures 2 to 4 are ashes pictured in the ossuary box of the present invention.

* Description of the symbols for the main parts of the drawings *

1, 4: cover 2, 5: body

3: glyph

The present invention relates to a crypt and a manufacturing method thereof, and more particularly, to a crypt and a manufacturing method using bioceramic, silver nano and loess.

Bioceramic, silver nano and ocher are not easy to break due to their strong strength, light weight compared to stones, and the strength of the insulator due to the effect of thermal insulation. It is effective to block.

In addition, the charcoal, as well as the antibacterial effect, absorbs when the moisture is high and releases the moisture when drying, it is effective to maintain the humidity inside the crypt, jade is due to the far-infrared rays emitted from the jade, microorganisms and pests inside the crypt It is effective in removing back.

In general, as one of the funeral methods of the dead body, the ossuary is a funeral method of cremating the dead body of the deceased and depositing the remains of the deceased and storing them in the ossuary, and placing them in the ossuary. to be.

In accordance with this trend, many ossuaries have been produced in the past, and the ossuaries for storing the ashes of the present day are generally ossuaries made of ceramics or ossuaries made of wood such as juniper.

However, the existing ossuary made of conventional ceramics, ossuary complexes, juniper and wood are fragile, and it is not considered to block moisture by preserving the ashes from the outside and to prevent the smell from leaking to the outside. Water droplets form inside the ossuary due to moisture and temperature differences in the air, so that the osmotic powder penetrates into the ashes inside the ossuary, causing the ashes to rot and leaking to the outside. One of the reasons for incense in the ossuary is usually For a reason.

Accordingly, the present invention is to solve the problems as described above, the object of the present invention is robust and at the same time bioceramics using bioceramic, silver nano and ocher to prevent the ashes inside the ossuary due to changes in temperature outside the decay And to provide a method for producing the same.

According to the first embodiment of the present invention for achieving the above object, a method for manufacturing a crypt is bio-ceramic powder (1 to 800 mesh), dry pulverized ocher powder (1 to 800 mesh), pulverized jade ore ( 1 to 800 mesh), a first step of preparing a powder (1 to 800 mesh) and aluminum insulating powder (1 to 800 mesh) pulverized charcoal; A second step of separating the prepared pulverized powder into a fine sieve (300 to 800 mesh) and coarse powder (1 to 300 mesh); A third step of adding the prepared powder with a certain amount of chemical resin (polyester resin, urethane resin or ABS resin, melamine resin) to stir the resin and powder evenly; A fourth step of injecting the blended material into a mold manufactured in a predetermined form; And after the shape is molded, it is made of a fifth step of demolding in the mold, the ratio of the bio-ceramic, ocher, jade powder, charcoal and heat insulating material prepared in the first step is 50% by weight of bioceramic, 20% by weight of ocher, Jade powder 10% by weight, charcoal 10% by weight, characterized in that mixed with 10% by weight of the insulation.

The ratio of bioceramic and jade powder, which are powders prepared in the first step of the first embodiment of the present invention, is characterized in that 70 wt% bioceramic and 30 wt% jade powder are mixed.

The ratio of the jade powder, the charcoal and the heat insulating material, which is the powder prepared in the first step of the first embodiment of the present invention, is characterized in that it is mixed with jade powder 80% by weight, 10% by weight of charcoal, and 10% by weight of the heat insulating material.

According to the second embodiment of the present invention for achieving the above object, the method for manufacturing a crypt is bentonite powder (2 to 800 mesh), a powder obtained by pulverizing a bio ceramic (2 to 800 mesh), and a powder obtained by dry pulverizing ocher (2). ˜800 mesh), a first step of preparing a powder (2 to 800 mesh) pulverized jade stone, powder (2 to 800 mesh) pulverized charcoal and aluminum insulation powder (2 to 800 mesh); A second step of separating the prepared pulverized powder into a fine sieve (300-800 mesh) and coarse powder (2-300 mesh); A third step of adding the prepared powder with a certain amount of chemical resin (polyester resin, urethane resin or ABS resin, melamine resin) to stir the resin and powder evenly; A fourth step of injecting the blended material into a mold manufactured in a predetermined form; And a fifth step of demolding the mold after the shape is molded. And a sixth step of applying the silver nano solution to the inner surface of the demolded crypt using spray or brush coating, and the ratio of bentonite, bio-ceramic, ocher, jade powder, charcoal, and heat insulating material prepared in the first step is Bentonite 30% by weight, bioceramic 20% by weight, ocher 20% by weight, jade powder 10% by weight, charcoal 10% by weight, characterized in that the mixture is mixed with 10% by weight.

The ratio of bentonite, bioceramic and jade powder, which are powders prepared in the first step of the second embodiment of the present invention, is characterized in that 50 wt% of bentonite, 10 wt% of bioceramic, and 40 wt% of jade powder are mixed.

The ratio of bentonite, jade powder and the heat insulating material, which is the powder prepared in the first step of the second embodiment of the present invention, is characterized in that the mixture is 80% by weight bentonite, 10% by weight jade powder, 10% by weight heat insulating material.

According to the third embodiment of the present invention for achieving the above object, a method for manufacturing a crypt is dry powder pulverized ocher (1 to 800 mesh), powder pulverized jade stone (1 to 800 mesh), pulverized charcoal A first step of preparing a powder (1 to 800 mesh) and an aluminum insulation powder (1 to 800 mesh), respectively; A second step of separating the prepared pulverized powder into a fine sieve (300 to 800 mesh) and coarse powder (1 to 300 mesh); A third step of stirring the prepared powder by adding a predetermined amount of chemical resin (polyester resin, urethane resin or ABS resin, and melamine resin) to mix the resin and the powder evenly; A fourth step of injecting the blended material into a mold manufactured in a predetermined form; And after the shape is molded, it is made of a fifth step of demolding in a mold, the ratio of the powder prepared in the first step ocher, jade powder, true charcoal, insulation material is 30% by weight ocher, 40% by weight jade powder, true charcoal 20 It is characterized in that the mixture by weight%, 10% by weight of the insulation.

The ratio of ocher, charcoal and heat insulating material, which are powders prepared in the first step of the third embodiment of the present invention, is characterized in that the mixture is mixed with 70% by weight of ocher, 10% by weight of charcoal, and 10% by weight of heat insulating material.

Culvert of the present invention for achieving the above object is the main material to select any one of bioceramic, silver nano and ocher to store the body and the cover is made to be the same as the diameter of the lower end of the body to seal the body Ashes consisting of; A body for storing the ashes therein and a cover configured to have the same diameter as an opening of the body to seal the body; And it is characterized in that it comprises a pattern to transfer or print the painting, painting, etc. on one side of the body surface or to make a sticker attached.

Hereinafter, embodiments of the present invention will be described in detail.

As shown in FIGS. 1 to 4, the ossuary box of the present invention is made to have the body 4 for storing the ashes and the diameter of the lower end of the body 4 to seal the body 4. And a lid 1 configured to have the ash box 6, the body 2 for storing the ash box therein, and the same diameter as the diameter of the opening of the body 2 to seal the body 2; The body 2 is composed of a pattern (3) to transfer or print the painting, painting, etc. on one side of the surface or to make a sticker attached.

At this time, the ossuary is made of a material such as bioceramic, silver nano and ocher.

Referring to the method of manufacturing the ossuary box using the bioceramic, silver nano and ocher of the present invention are as follows.

Example 1

Manufacturing method of ossuary box using bioceramic

Bio-ceramic powder (1-800 mesh), dry crushed ocher powder (1-800 mesh), crushed jade stone (1-800 mesh), charcoal crushed powder (1-800 mesh) and aluminum insulation Prepare powders (1-800 mesh) respectively.

The prepared pulverized powder is sieved and separated into fine powder (300 to 800 mesh) and coarse powder (1 to 300 mesh).

The powder prepared as described above is added with a certain amount of chemical resin (polyester resin, urethane resin or ABS resin, melamine resin) and the like to stir to mix the resin and powder evenly.

At this time, the resin melt and the powder are mixed at a constant ratio (for example, resin by weight: powder = 1: 0.1 to 4).

In addition, the mixing ratio of the fine powder and the coarse powder is appropriately mixed in consideration of the strength and texture (for example, fine powder by weight: coarse powder = 1: 0.01 ~ 5) (when the coarse powder ratio is high, the strength of the product is strong. If the surface is rough and the fine powder ratio is high, the surface is clean but its strength is low.)

This well-blended material is injected into a mold made in a certain shape.

After the shape is molded, it is demoulded out of the mold.

Alternatively, the well-blended material may be injected into a mold manufactured in a predetermined form, pressurized by a press, and then demolded after molding.

This process can be used to paint the surface of the demolded product with the desired color, transfer or print a picture, or make a sticker and attach it to the surface of the demolded product.

The ratio of the prepared bio-ceramic, ocher, jade powder, charcoal, insulation is based on the weight of bioceramic (10 to 70% by weight), ocher (10 to 80% by weight), jade powder (10 to 80% by weight), true charcoal (10 To 50% by weight) and insulation (10 to 40% by weight).

For example, 50% by weight bioceramic, 20% by weight ocher, 10% by weight jade powder, 10% by weight charcoal, 10% by weight insulation or 70% by weight bioceramics, 30% by weight jade powder or 80% by weight jade powder, 10% by charcoal Compounding can be carried out such as% by weight, 10% by weight of insulation.

Example 2

Manufacturing method of ossuary box using silver nano

Bentonite powder (2-800 mesh), bio-ceramic powder (2-800 mesh), ocher dry-pulverized powder (2-800 mesh), jade ore powder (2-800 mesh), charcoal Pulverized powder (2-800 mesh) and aluminum insulation powder (2-800 mesh) are prepared, respectively.

The prepared pulverized powder is sieved and separated into fine powder (300 to 800 mesh) and coarse powder (2 to 300 mesh).

The powder prepared as described above is added with a certain amount of chemical resin (polyester resin, urethane resin or ABS resin, melamine resin) and the like to stir to mix the resin and powder evenly.

At this time, the resin and the powder are mixed at a constant ratio. (For example, resin by weight: powder = 1: 0.1 to 4)

In addition, the mixing ratio of the fine powder and the coarse powder is appropriately mixed in consideration of the strength and texture (for example, fine powder by weight: coarse powder = 1: 0.01 ~ 5) (when the coarse powder ratio is high, the strength of the product is strong. If the surface is rough and the fine powder ratio is high, the surface is clean but its strength is low.)

This well-blended material is injected into a mold made in a certain shape.

After the shape is molded, it is demolded from the mold.

Alternatively, the well-blended material may be injected into a mold manufactured in a predetermined form, pressurized by a press, and then demolded after molding.

The silver nano solution is applied to the inner surface of the demolded billows box using a spray or a brush coating as described above.

This process can be used to paint the surface of the demolded product with the desired color, transfer or print a picture, or make a sticker and attach it to the surface of the demolded product.

Bentonite, bio-ceramic, ocher, jade powder, charcoal, the ratio of the insulation is prepared by weight bentonite (10 to 80% by weight), bioceramic (10 to 70% by weight), ocher (10 to 80% by weight), jade powder (10 to 80% by weight), true charcoal (10 to 50% by weight) and insulation (10 to 40% by weight).

For example, 30 wt% bentonite, 200 wt% bioceramic, 20 wt% ocher, 10 wt% jade powder, 10 wt% charcoal, 10 wt% insulation or 50 wt% bentonite, 10 wt% bioceramic, 40 wt% jade powder % Or 80% by weight of bentonite, 10% by weight of jade powder, 10% by weight of the insulation can be combined.

Example 3

Manufacturing method of ossuary using ocher

Ocher dried powder (1 ~ 800 mesh), jade ore powder (1 ~ 800 mesh), charcoal powder (1 ~ 800 mesh) and aluminum insulation powder (1 ~ 800 mesh) do.

The prepared pulverized powder is sieved and separated into fine powder (300 to 800 mesh) and coarse powder (1 to 300 mesh).

The powder prepared as described above is added with a certain amount of chemical resin (polyester resin, urethane resin or ABS resin, melamine resin) and the like to stir to mix the resin and powder evenly.

At this time, the resin and the powder are mixed at a constant ratio. (For example, resin by weight: powder = 1: 0.1 to 4)

In addition, the mixing ratio of the fine powder and the coarse powder is appropriately mixed in consideration of the strength and texture (for example, fine powder by weight: coarse powder = 1: 0.01 ~ 5) (when the coarse powder ratio is high, the strength of the product is strong. If the surface is rough and the fine powder ratio is high, the surface is clean but its strength is low.)

This well-blended material is injected into a mold made in a certain shape.

After molding, the mold is demolded.

Alternatively, the well-blended material may be injected into a mold manufactured in a predetermined form, pressurized by a press, and then demolded after molding.

This process can be used to paint the surface of the demolded product with the desired color, transfer or print a picture, or make a sticker and attach it to the surface of the demolded product.

The ratio of the prepared ocher, jade powder, true charcoal, insulation is based on the weight of ocher (10 to 80% by weight), jade powder (10 to 80% by weight), true charcoal (10 to 50% by weight) and insulation (10 to 40% by weight) )

For example, it is possible to mix such as 30% by weight of ocher, 40% by weight of jade powder, 20% by weight of charcoal, 10% by weight of insulator or 70% by weight of ocher, 10% by weight of charcoal and the like.

Although the present invention has been described with reference to specific embodiments, the present invention is not limited thereto, and modifications and variations may be made within the scope not departing from the technical spirit of the present invention.

As described above, the method for manufacturing the ossuary box using the bioceramic, silver nano and ocher according to the present invention has the following excellent effects.

First, the special treatment of bioceramic components to the characteristics of ocher maximizes the effects of ocher, such as infrared blocking, deodorization and antibacterial action.

Second, the special effect of silver nano components on the ocher's properties adds water blocking effect to the ocher's merits.

Third, by mixing the jade, charcoal and heat insulating material, etc. to produce the ossuary can prevent moisture from occurring inside the ossuary without condensation, thereby preventing larvae from occurring.

Fourth, it is possible to prevent damage from wild beasts and insects such as rats, and keep the remains clean.

Claims (9)

A ash box (6) consisting of a body (4) for storing the ashes, and a cover (5) which is made to have the same diameter as the lower end of the body (4) to seal the body (4); A body (2) for storing the ashes therein and a cover (1) which is made to have the same diameter as an opening of the body (2) to seal the body (2); And Ossuary characterized in that it consists of a pattern (3) to transfer or print the painting, painting, etc. on one side surface of the body (2) or to make a sticker. Bio-ceramic powder (1-800 mesh), dry crushed ocher powder (1-800 mesh), crushed jade stone (1-800 mesh), charcoal crushed powder (1-800 mesh) and aluminum insulation First step of preparing a powder (1 ~ 800 mesh), respectively; A second step of separating the prepared pulverized powder into a fine sieve (300 to 800 mesh) and coarse powder (1 to 300 mesh); A third step of adding a predetermined amount of chemical resin (polyester resin, urethane resin or ABS resin, and melamine resin) to the powder prepared as described above to stir the resin and powder evenly; A fourth step of injecting the blended material into a mold manufactured in a predetermined form; And After the shape is molded, it is made of a fifth step of demolding from the mold, The ratio of the bio-ceramic, ocher, jade powder, charcoal and heat insulating material prepared in the first step is 50% by weight of bioceramic, 20% by weight of ocher, 10% by weight of jade powder, 10% by weight of charcoal, and 10% by weight of insulation. Ossuary manufacturing method characterized in that the mixture. The method of claim 2, The ratio of the bioceramic powder and jade powder prepared in the first step is bioceramic 70 wt%, jade powder manufacturing method characterized in that mixed with 30% by weight powder. The method of claim 2, The ratio of the jade powder, the charcoal and the heat insulating material prepared in the first step is jade powder 80 wt%, charcoal 10% by weight, a method for producing a crayfish, characterized in that the mixture is mixed with 10% by weight. Bentonite powder (2-800 mesh), bio-ceramic powder (2-800 mesh), ocher dry-pulverized powder (2-800 mesh), jade ore powder (2-800 mesh), charcoal A first step of preparing pulverized powder (2-800 mesh) and aluminum insulation powder (2-800 mesh), respectively; A second step of separating the prepared pulverized powder into a fine sieve (300-800 mesh) and coarse powder (2-300 mesh); A third step of stirring the powder prepared as described above by adding a predetermined amount of chemical resin (polyester resin, urethane resin or ABS resin, melamine resin) so that the resin and the powder are evenly mixed; A fourth step of injecting the blended material into a mold manufactured in a predetermined form; And A fifth step of demolding the mold after the shape is molded; And The sixth step is to apply the silver nano solution to the inner surface of the demolded ossuary using spray or brush coating, The ratio of bentonite, bio-ceramic, ocher, jade powder, charcoal and heat insulating material prepared in the first step is bentonite 30% by weight, bioceramic 20% by weight, ocher 20% by weight, jade powder 10% by weight, charcoal 10% by weight , The method of manufacturing a crypt, characterized in that the mixture is mixed with 10% by weight of the insulation. The method of claim 5, The ratio of bentonite, bioceramic and jade powder, which is the powder prepared in the first step, is 50 wt% of bentonite, 10 wt% of bioceramic, and jade powder manufacturing method, characterized in that mixed with 40 wt%. The method of claim 5, The ratio of bentonite, jade powder and the heat insulating material of the powder prepared in the first step is bentonite 80 wt%, jade powder 10% by weight, the sternum box manufacturing method characterized in that the mixture is mixed with 10% by weight. Ocher dried powder (1 ~ 800 mesh), jade ore powder (1 ~ 800 mesh), charcoal powder (1 ~ 800 mesh) and aluminum insulation powder (1 ~ 800 mesh) The first step to do; A second step of separating the prepared pulverized powder into a fine sieve (300 to 800 mesh) and coarse powder (1 to 300 mesh); A third step of adding a predetermined amount of chemical resin (polyester resin, urethane resin or ABS resin, and melamine resin) to the powder prepared as described above to stir the resin and powder evenly; A fourth step of injecting the blended material into a mold manufactured in a predetermined form; And After the shape is molded, it is made of a fifth step of demolding from the mold, Ocher, jade powder, charcoal, the ratio of the heat insulating material prepared in the first step is oak 30 weight%, jade powder 40% by weight, charcoal 20 method, characterized in that the mixture is mixed with 10% by weight of thermal insulation. The method of claim 8, The ratio of the ocher, the charcoal and the heat insulating material prepared in the first step is oak 70 weight%, charcoal 10% by weight, a method for manufacturing crypts, characterized in that the mixture is mixed with 10% by weight.

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