KR101760366B1 - Manufacturing method of myrrh ball for filler - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filler material such as bedding, furniture or clothes, which is formed by molding a core material 10 with tourmaline powder and grinding the surface of the core material 10 into a spherical shape A ball 25 containing a molybdenum solution containing manganese and mica powder is coated on the surface of the core 10 and the coating layer 20 is cured to form a ball containing myrrh for the filling material, .
In the present invention, excellent thermal effect, deodorizing effect and antibacterial effect can be obtained at all through the unique structure in which the mineral core (nucleus) emitting a large amount of far-infrared rays is coated with the coating layer 20 containing the myrrh.

Description

Technical Field [0001] The present invention relates to a method for manufacturing a ball containing myrrh for filling materials,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filler material such as bedding, furniture or clothes, which is formed by molding a core material 10 with tourmaline powder and grinding the surface of the core material 10 into a spherical shape A ball 25 containing a molybdenum solution containing manganese and mica powder is coated on the surface of the core 10 and the coating layer 20 is cured to form a ball containing myrrh for the filling material, .

A filling material for buffering and thermal insulation is used for various kinds of daily necessities such as a bedding such as a bedding such as a quilt and a quilt, an electric heating mat, a hot water mat or a mattress, a furniture such as a chair or a sofa, And various materials such as synthetic fibers and sponges are applied as natural fibers such as cotton or goose hair as a filler.

In the filling material for household goods, a functional granular substance such as yellow soil or charcoal is mixed into the filler so as to add functions such as far-infrared ray emission, moisture absorption and deodorization by breaking away from simple buffering and keeping function An attempt has been made, and related related art is disclosed in Japanese Patent Laid-Open No. 2001-10144.

The conventional functional fillers, such as those disclosed in Japanese Laid-Open Patent Publication No. 2001-10144, have the following problems in that powdery to particulate raw materials are simply filled into the bedding filler.

First, not only the filled powdery or particulate filler leaks out of the fabric outer jacket but also the pressure and impact repeatedly acts on the filler when the filler such as bedding or furniture is used, so that the filler particles collide with each other and wear ), And a large amount of fine dust is generated in this process.

In addition, a conventional filler formed by simply pulverizing a porous body such as a loess or a mineral such as charcoal is inevitably molded into irregular shapes. However, it is difficult to form the irregular shape of the particles, ), So that the function as a buffering and thermal insulation charging body is lost.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a molybdenum- A nucleus forming step S21 for forming a nucleus 10 by applying the nucleus 10 to a grinding machine so as to smoothly grind the surface of the nucleus 10 and to approximate the shape of the nucleus 10 to a true sphere A mixing step S31 of mixing a fine powder mica with the molten liquid to form a paste 25, and a step of mixing the paste 25 and the nucleus forming step S22 And a ball molding step (S32) for forming a mica and myrrh coating layer (20) on the surface of the core (10) by applying the processed core (10) into a mixer, followed by drying and curing. A ball manufacturing method.

In addition, the bath liquid step S10 is a step of mixing the at least one medicinal material selected from the group consisting of kneaded kneads, dandelions, bamboo shoots and corn and the myrrh to form a blended raw material, heating the mixture of the blended raw material and water, And a concentration step (S12) of heating the extract to concentrate the concentrate to a concentration of 40 brix or more to form a molten chemical liquid.

In the present invention, excellent thermal effect, deodorizing effect and antibacterial effect can be obtained at all through the unique structure in which the mineral core (nucleus) emitting a large amount of far-infrared rays is coated with the coating layer 20 containing the myrrh.

In addition, the particulate filler can be molded as a spherical body of a certain shape and size, thereby suppressing uneven filling of the filler in the filler body and unnecessary aggregation. As a result, when applied to a filler such as bedding or clothes, Can be improved.

In particular, it is possible to obtain the effect of promoting the user's health such as bedding or clothes to which the present invention is applied by exerting various pharmacological effects of the myrrh.

1 is a flow chart
Fig. 2 is a flowchart showing an embodiment of the liquid bath of the present invention
FIG. 3 is a cross-sectional schematic view of a ball manufactured through the present invention
Fig. 4 is a diagram illustrating an example of a ball forming step performing method of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, as shown in the flowchart of FIG. 1, the present invention starts with a liquid bath step (S10) for forming a molten chemical liquid from which a myristic component is eluted.

The molar chemical solution formed in the liquid bath step S10 is a solution in which the pharmacological component of the myrrh has been eluted. After the pulverized myrrh in the water or the mixture of water and alcohol is added, the solution is kept at room temperature for several hours or longer, Followed by filtration of the solids.

In addition, water and myrrh can be mixed and heated, followed by filtration to extract and form a molten chemical liquid.

That is, by mixing 1 to 5 times the weight of myrrh and myrrh water, heating it to a boiling state and then solid-liquid separation (solid-liquid separation), the myrrh and alcohol The active ingredient may be firstly extracted at room temperature by mixing and then hydrolyzed and heated to form a molten chemical liquid.

The myrrh, also known as 药, is used to distinguish it from the flower 药 used in dyes. It is a myrrh that is produced by the commiphora myrrha, an olive plant native to Africa and Arabia ), And commiphora abyssinica. It is effective for arthritis, pain, and limb paralysis caused by winds. It is effective for menstrual cramps, amenorrhea, postpartum It also shows efficacy in treating abdominal pain and abdominal pain.

In addition, recent studies have shown that guggulsterone in myrrh is the host's first means of defense against external pathogens, while at the same time controlling toll-like receptors, which play an important role in the innate immune system, And it is also excellent in deodorizing and antimicrobial effect, thereby giving the pharmacological effect of myrrh to the filler of bedding, clothes and furniture which are always in contact with the human body, .

Meanwhile, in this liquid bathing step S10, natural medicinal materials which increase the pharmacological effect of myrrh in addition to myrrh can be mixed, and a specific embodiment thereof is shown in FIG.

As shown in FIG. 2, in the embodiment in which the medicinal material is added, the liquid bath step S10 includes mixing the one or more medicines selected from the group consisting of kneaded knots, dandelions, And an extraction step (S11) for heating the mixture of water and water to form an extract.

It is a perennial herbaceous plant of Bacillus thuringiensis, which is also called "牛 knee". It is taken as root in September and October and dried or amplified. It is also effective in kidney and urological diseases.

In the present invention, the dandelion may be put into a raw plant state, but it is also possible to apply a dandelion-dried medicinal plant, 公 公 英, and a pandanus root is a dried root and stem before flowering, And is excellent as a tonic agent.

Bokyong is a type of mushroom parasitic on the pine root. It is excellent in diuretic and antibacterial effect. It is not only excellent in fragrance but also in respiratory diseases.

Such a natural medicinal material not only has a unique pharmacological effect but also imparts viscosity to the molten drug solution and also has an effect of doubling the moldability in a ball molding step S32 to be described later.

In the extraction step S11, it is preferable to mix the same amount of the myrrhic medicine with the myrrh in the same amount or amount close to the same amount. If all of the above-mentioned medicaments are applied, the myrrh 45 wt%, the mustard 30 wt% 10% by weight, 10% by weight of gypsum and 5% by weight of gypsum to form a blended raw material, and it is preferable to mix water having a blending ratio of 1 to 5 times the blending raw material weight.

When the extraction step S11 is completed, the extraction liquid is heated to be concentrated to a concentration of 40 Brix or more, and the concentration step S12 for separating the remaining solid matter is performed, whereby the liquid bath step S10 is completed and the molten liquid is completed.

It is preferable to adjust the concentration of the molten chemical liquid concentrated in the concentration step S12 to 40 bricks or more and 60 bricks or less considering the viscosity of the molten chemical liquid and the energy consumption in the heating process, By forming the concentration of the molten drug solution at a high concentration of 40 brix or more, a sufficient pharmacological effect is imparted to the molten drug solution, and at the same time, an appropriate level of viscosity is formed.

Meanwhile, as a pre-treatment step before the above-described liquid conditioning step S10, the solid myrrh powder is pulverized into granular particles having a particle diameter of 0.5 mm to 10 mm, and then roasted to form myrrh granules By forming the granules, the myrrh can be strengthened and the extraction promoted.

After completion of the liquid bath step S10, tourmaline in the form of a fine powder is formed into particles having a particle diameter of 0.2 mm to 0.5 mm, followed by heating and curing to form a nucleus 10 S21) is performed.

For forming the tourmaline core 10 in the nucleation step S21, a small amount of water is mixed with tourmaline in a fine particle size of 200 mesh to form particles of 0.2 mm to 0.5 mm, and 300 Deg.] C or higher, and drying and curing, wherein the core 10 to be molded has a shape as shown in the left end of Fig.

Thereafter, a nucleus forming step S22 is performed in which the nucleus 10 is put into a grinding machine to smoothly grind the surface of the nucleus 10 and process the shape of the nucleus 10 to be close to a true sphere, 3 as shown in the central part of FIG.

The nucleus forming step S22 may be performed through a grinding machine such as a spherical grinder or a lapping machine. By machining the core 10 into a spherical body close to the sphericity, the ball forming step S32 ) Can also be molded into a sphere close to the sphincter.

When the nucleus forming step S22 is completed, a mixing step S31 is performed in which the mica in the form of fine powder and the molten liquid are mixed to form a paste 25.

The mica used in the mixing step S31 is mixed with the molten liquid in the form of a fine powder having a particle size of 300 mesh to form a semi-liquid semi-solid liquid paste 25.

Thereafter, the paste 25 and the core 10 processed in the nucleus forming step S22 are put into a mixer to form a mica and myristic coating layer 20 on the surface of the core 10, followed by ball molding Step S32 is carried out to complete the mrro-containing balls of the present invention.

In the ball forming step S32, as shown in FIG. 4, the core 10 and the paste 25 are stirred in a mixer such as a ribbon mixer while the core 10 and the paste 25 are simultaneously injected, The coating layer 20 is formed. In this process, the drying and curing of the coating layer 20 may be promoted by feeding hot air into the mixer.

The mullet containing balls produced through the present invention are used as fillers for bedding, furniture, and clothes. When used, pressure and impact are repeatedly applied. In this process, adjacent mullet containing balls are inevitably frictioned with each other. If the filler is molded in the form of the surface, it will not only generate excessive dust due to friction between the particles during use, but also cause the filler particles to be destroyed and the function of the filler such as buffer will be lost.

Therefore, in the present invention, the mullion-containing balls are formed into spheres close to the sphere through the nucleus forming step (S22) and the ball forming step (S32) as described above, thereby suppressing dust generation and particle breakage due to mutual friction between particles.

10: nucleus
20:
25: Paste
S10: liquid level step
S11: Extraction step
S12: Concentration step
S21: Nucleation stage
S22: nucleation step
S31: Mixing step
S32: Ball forming step

Claims (2)

An extracting step (S11) of mixing the at least one medicinal substance selected from the group consisting of bean curd, dandelion, bamboo shoot and corn and myrrh to form a blended raw material, heating the blended raw material and water mixture to form an extract;
A concentrating step (S12) of heating the extract to concentrate the concentrate to a concentration of 40 brix or more to form a molten chemical liquid;
Water is mixed with tourmaline in the form of a fine powder having a particle size of 200 mesh to form particles of 0.2 mm to 0.5 mm and then heated and dried at a temperature of 300 ° C or higher to form a core 10 A nucleation step S21;
A nucleus forming step (S22) of smoothly grinding the surface of the nucleus (10) by injecting the nucleus (10) into a grinder and processing the nucleus (10) so that the shape of the nucleus (10) is close to a true sphere;
A mixing step S31 of mixing a 300 mesh fine powder mica with the molten liquid to form a semi-liquid semi-solid liquid paste 25;
A ball molding step (25) for forming a mica and myrrh coating layer (20) on the surface of the core (10) by injecting the core (10) processed in the nucleus forming step (S22) into a mixer S32). ≪ / RTI > delete

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