KR20160006935A - Method of producing functional pockets for storage bodies - Google Patents

Abstract

Provided is a method for manufacturing a functional bag for storing a corpse, which comprises: a first step of coating a cloth covering by soaking the cloth covering in 200 ppm of a silver nanocolloid solution; a second strep of drying the coated cloth covering in a place away from direct sunlight; a third step of soaking a cloth for an inner layer in a solution prepared by putting 10 g of 10,000 ppm of copper sulfate into 1 L of water and adding 50 g of a polysol bond, and then stirring the same; a fourth step of drying the cloth for the inner layer in a place away from direct sunlight; a fifth step of coating the dried cloth for the inner layer with a solution, which is prepared by putting 150 g of Kiyoseki stone into 1 L of water and stirring the same and then putting 100 g of 1,000 Mesh of seven stone powder and 70 g of the polysol bond, and then stirring for one hour, using a tentering machine for fiber processing, and drying the coated cloth; a sixth step of manufacturing a primary corpse bag by sewing the cloth covering prepared in the second step and the cloth for the inner layer prepared in the fifth step so as to make into a shape of a bag with one opening; and a seventh step of forming a pocket in one side of the cloth covering of the primary corpse bag and putting a zipper opening and closing the opening.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for producing a functional bag for storing a body,

The present invention relates to a functional bag for storing a body, and more particularly, to a functional bag for storing a body, which is composed of a superficial and an endothelial double structure, and uses Nano Silver Colloidal, Copper Sulfate, To a method for manufacturing a functional bag for storing a body for preventing the generation of spoilage and odor.

Generally, it is common to put the body in a pipe made of wood or special material and store it in a freezer.

However, in case of genocide, accidents, etc. due to natural disasters, war, terrorism, etc., it is not possible to prepare a tube for storing the body, and there is not enough facilities for refrigerating them, Problems arise.

In such cases, the body was often left outdoors or stored in a common cloth, but there was a risk of bacterial infection of the survivors because the body was spoiled or foreign matter leaking out from the body often leaked to the outside.

Therefore, it is urgent to develop a functional carcass pouch for keeping the body in a similar situation.

Korean Registered Utility Model No. 20-0385711

The present invention is characterized in that a functional bag for storing a body is formed into a double skin structure of an outer skin and an inner skin to treat special natural minerals such as Nano Silver Colloidal, Copper Sulfate, The present invention also provides a method of manufacturing a functional bag for storing a body which can prevent the generation of spoilage and odor of the body.

The present invention also provides a method for manufacturing a functional bag for storing a body, which is coated once with a waterproof material to shield ultraviolet rays and waterproof, and prevents foreign substances from leaking out to the outside.

The present invention also relates to a method for manufacturing a functional bag for storing a body which can easily be opened and closed by attaching a zipper on the skin and constituting a name tag in which the personal information of the deceased is described on the surface of the envelope, .

A method for manufacturing a functional bag for storing a body according to an embodiment of the present invention includes a first step of dipping a cloth for silver halide into a silver colloid solution having a concentration of 200 ppm for 30 minutes to coat the cloth for covering the skin, A third step of adding 10 g of copper sulfate per liter of water, 10 g of copper sulfate per liter of water, adding 50 g of a polyol adhesive to the solution and stirring the solution for 30 minutes, and the third step of immersing the endothelium cloth in direct sunlight In the fourth step of drying in space, 150 g of the granulated gypsum per 1 L of water was added and stirred, then 100 g of 1,000 g of the gypsum powder was added, 70 g of the polyol adhesive was added, and the solution was stirred for 1 hour. A fifth step of coating and drying on the dried endothelium cloth, the outer cover cloth prepared in the second step and the endothelial cloth prepared in the fifth step are sewn to form one A sixth step of fabricating a first carcass pouch by processing into a bag-shaped pocket having a bend, and a seventh step of machining pockets on the cloth side of the first carcass pouch for the outer cover of the first carcass ply and installing a zipper for opening and closing the opening .

In addition, the guinea pig is produced by mixing a red guinea pig and a white guinea pig at a weight ratio of 7: 3.

The present invention is characterized in that a functional bag for storing a body is formed into a double skin structure of an outer skin and an inner skin to treat special natural minerals such as Nano Silver Colloidal, Copper Sulfate, It is possible to prevent corruption and odor from being generated.

In addition, it is coated once with a waterproof material, and ultraviolet ray shielding and waterproofing are possible, and the foreign matter inside does not leak to the outside.

In addition, the present invention has an effect that it is easy to open and close by attaching a zipper on the outer skin, and a name tag in which the personal information of the deceased person is described on the surface of the outer skin, thereby easily grasping the identity of the deceased person.

1 is a flowchart of a method of manufacturing a functional bag for storing a body according to an embodiment of the present invention;
2 is a front section view of a functional bag for storing a body according to an embodiment of the present invention
3 is a plan view of a functional bag for storing a body according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

2 is a front sectional view of a functional bag for storing cages according to an embodiment of the present invention. Fig. 3 is a cross-sectional view of a body according to an embodiment of the present invention. Fig. And is a plan view of a storage functional bag.

Referring to FIG. 1, a method of manufacturing a functional bag for storing a body according to an embodiment of the present invention will be described in detail.

First, a first step (S110) of immersing the outer cloth 11 in a silver colloid solution having a concentration of 200 ppm for 30 minutes and coating the outer cloth 11 is performed.

The antimicrobial power of silver has been used for 5,000 years ago, but it has not been widely used as an expensive one, but it has been used for many purposes due to the recent development of technology.

Nanoparticles are the best inorganic antimicrobial agents if they are ultra-fine particles. According to the researches of scholars, it has been reported in academia that it controls 650 bacteria.

A number of scientists have studied how to use silver to make the most effective use of it on the human body.

Colloidal silver is called silver colloid silver (Ag +) dissolved in distilled water. Now, in the United States, it is a next-generation panacea and miracle cure after melatonin and DHEA.

Unlike melatonin and DHEA, colloidal silver is attracting more attention in that it can be easily made and used by anyone at home.

A colloid state is a material consisting of microscopic molecules floating in other media, such as insoluble minerals floating in water. Russian scientist S.S. Voyutsky defines colloid conditions in three ways: first, they must be heterogeneous, like water, and second, they must be different from each other in solids, liquids, gases and liquids. Third, molecules should not dissolve in solution or suspended state.

Thus, the colloidal constituents are superfine and larger than the molecular state, but they are not identifiable by the naked eye.

Next, a second step (S120) of drying the coated outer cloth layer 11 in a space in which direct sunlight is blocked is performed.

200 ppm concentration of Nano Silver Colloidal Solution, which can control the broadest bacteria, is immersed and dried in a room that is not affected by direct sunlight. Upon receiving direct sunlight, the transition is discolored by the halogen element, and it is preferable to dry in a space where direct sunlight is blocked.

After applying the silver colloid coating to the outer covering fabric 11, the coating is further treated with ultraviolet shielding and waterproofing material so as to maintain the function as much as possible even in the outdoors.

Next, 10 g of 10,000 ppm of copper sulfate per liter of water is added, 50 g of a polyol adhesive is added, and a third step (S130) of immersing the endothelial cloth 12 in the stirred solution is performed for 30 minutes.

In order to provide semi-permanent durability for the production of functional endothelium, 10 g of Copper Sulfate (10 ppm) was diluted with 1 L of water and diluted And about 50 g of a polyol adhesive is added to the solution.

At this time, it is preferable that the copper sulfate concentration is 1,000 ppm or more so as to prevent the occurrence of silverfish.

Next, a fourth step (S140) of drying the endothelium cloth 12 in a space in which direct sunlight is blocked is performed.

When the endothelium cloth 12 is immersed in the agitated solution for about 30 minutes and then dried in the room, the cloth is softened and the copper sulfate is uniformly coated to prevent the formation of silverfish do.

Next, 150 g of the granulated gypsum per liter of water was added and stirred, and then 100 g of 1,000 gsm powder was added thereto, 70 g of the polygonal adhesive was added thereto, and the resulting solution was stirred for 1 hour. A fifth step (S150) of applying and drying the cloth 12 is carried out.

In order to impart functionality to the endothelium cloth (12) treated with the second copper sulfate, 150 g of the precious gypsum, which is excellent in sterilizing power and deodorization power and has a far-infrared radiation dose of about 96%, is put into the water, (Intake energy 1,261Cm, divergence energy 1,086Cm) Powder 1,000 g of 100 g of powder is quantitatively introduced, and 70 g of the polyol adhesive is weighed. After the addition, the solution is stirred for 1 hour Is treated with a fiber tenter machine, the endothelial fabric is cleaned, and the far-infrared energy emission distance can be transmitted at a distance of about 15 cm from the center of the body.

There are two types of the above-mentioned Guiyang stone, red and white. Each characteristic is white, the emissivity of far-infrared rays is about 96%, which is the highest among the minerals.

Red has about 24,000 anions / cc of anion emission, 10 times higher than tourmaline.

Therefore, it is preferable that the red ginseng stone and the white gemstone are mixed in a weight ratio of 7: 3 so that the far infrared ray can be radiated by 90% or more.

It is preferable to treat the special natural mineral material having the far-infrared rays and negative ions from the endothelium cloth 12 once and then treat it once with a waterproof material so that the blood coming out from the body will not be discharged to the outside as much as possible.

Next, the envelope fabric 11 produced in the second step S120 and the endothelium cloth 12 fabricated in the fifth step S150 are sewn into a bag shape having one opening portion, A sixth step S160 of manufacturing the first carcass pouch 10 is carried out.

The first carcass pouch 10 is formed in a double structure of the outer cloth 11 and the inner cloth 12 so that when the inner and outer cloths 11 and 12 are measured, cc and far infrared rays are emitted more than 90%, the antibacterial power is maintained for more than 90%, the bacteria remaining in the body are treated so as not to be inhabited by far infrared rays, and even if the smell is caused by corruption due to problems such as management failure, ) Ion is generated, and the odor can be removed by neutralizing and decomposing the cation which is the cause of the odor.

Finally, a seventh step (S170) is performed in which a pocket 14 is formed on one side of the outer cloth 11 of the first carcass pouch 10 and a zipper 13 for opening and closing the opening is provided.

After the inner and outer cloths 11 and 12 are cut and sewed to a predetermined size, a zipper 13 is installed at the center of the first carcass pouch 10 to insert a body into the inner space, 13, respectively.

In addition, a name tag capable of describing the details of the deceased person is attached to the pocket 14, so that the identity of the deceased can be easily grasped.

Accordingly, the functional bag for storing a body having the above-described structure can be obtained by attaching the functional material to the endophytic fabric 12 treated with copper sulfate by using a lifting tenter for fiber processing, It is possible to control the primary bacteria from the outer cloth 11 by controlling the sterilizing power without generating silvers due to the treatment with copper sulfate and blocking secondary bacteria by the action of far infrared rays on the inner cloth 12, The radiant energy of the stones and the radiant energy of the precious stones penetrate more than the center of the body (15Cm) to prevent corruption in the center of the body.

In addition, it is possible to maintain the function of the outer covering cloth 11 as much as possible even in the outdoors by performing UV treatment and waterproof coating treatment after silver-nano coating treatment. A zipper 13 is attached to the outer covering cloth 11 So that it can be selectively opened and closed.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and variations are possible in light of the above teaching. Accordingly, the embodiments of the present invention should be understood only by the appended claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

10. First carcass pocket 11. Cloth for covering
12. Nappy cloth 13. Zipper
14. Pocket S110. Step 1
S120. Second step S130. Step 3
S140. Step 4 S150. Step 5
S160. Step S670. Step 7

Claims (2)

A first step of dipping the outer cloth in a silver colloid solution having a concentration of 200 ppm for 30 minutes to coat the outer cloth;
A second step of drying the coated outer cloth in a space blocked with direct sunlight;
10 g of 10,000 ppm of copper sulfate per liter of water is added, 50 g of a polyol adhesive is added, and the solution is agitated.
A fourth step of drying the endothelium cloth in a space blocked with direct sunlight;
150g of water per liter of water was added and stirred. After 100g of Chilgite powder was added, 70g of a polygonal adhesive was added and stirred for 1 hour. The solution was applied to the dried endothelial cloth using a tenter for fiber processing And a fifth step of drying;
A sixth step of manufacturing the first carcass pouch by sewing the outer cloth made in the second step and the inner cloth made in the fifth step into a bag shape having one opening; And
And a seventh step of processing the pockets on one side of the cloth for the outer casing of the first carousel bag and providing a zipper for opening and closing the opening. The method according to claim 1,
Wherein the gyodon stones are produced by mixing red gypsum and white gypsum at a weight ratio of 7: 3.

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