KR20220128082A - pendant using composition of bio being mineral and the manufacturing method - Google Patents

Abstract

The present invention relates to a method of manufacturing a composition made of various kinds of mineral biomaterials, and an assembly that can easily implement far-infrared compatibility to configure a pendant with the composition. The composition comprises: 50 to 70 wt % of the mixture prepared by respectively crushing, at 3,000 mesh, 12 to 18 wt % of hematite, 27 to 33 wt % of pozzolan that emits a lot of far-infrared rays at room temperature, 17 to 23 wt % of Guiyang stone (aggregate of different types of minerals) that emits a large number of negative ions and far-infrared rays, 13 to 17 wt % of white charcoal, which emits a large number of negative ions, and 17 to 23 wt % of Macsumsuk (aggregate of elvan and amphibole), which emits a large amount of far-red rays; and 30 to 50 wt % of a silicone binder. The pendant is prepared by injecting the composition into a molding mold and molding at a temperature of 120 to 200 ℃.

Description

Pendant using composition of bio being mineral and the manufacturing method }

The present invention relates to a composition composed of various types of mineral bio as a material and a pendant composed of the composition, which is used for jewelry decoration and is an aggregate of minerals that can increase the far-infrared emissivity of 12 to 18% by weight of hematite, and a large amount at room temperature. 27 to 33% by weight of pozzolan constituting the emission of far infrared rays and anions, 17 to 23% by weight of guiyang stone constituting the emission of a large amount of negative ions and far infrared rays, and 13 to 17 weight of white coal constituting the emission of a large amount of anions and far infrared rays %, a mixture of 17-23 wt% of Macsumsuk emitting a large amount of red ray, and a mixture of powder pulverized into 3,000 mesh, respectively, 50-70 wt% of a mixture and 30-50 wt% of a silicone binder, 120 It relates to a pendant constructed by molding at a temperature of ~180°C.

Patent No. 10-1982930 (pendant for necklace having a vibrating structure, hereinafter referred to as conventional technology) is presented as a prior art related to a pendant.

The prior art is a pendant hanging from the neck, adding a magnetic field means therein, and mounting a spring that is a vibration means to configure the pendant to vibrate every time you walk, and to form a magnetic field by configuring the vibration in the spring of the pendant to promote blood and muscle. It is composed to relieve the fatigue of the pendant, and fixed magnets are placed on both sides of the space formed inside the pendant, and one end of the spring is fixed to the pendant between the ends and the vibrating magnet is fixed at the other end to face the same magnetic force of the fixed magnet. It can be seen that the stationary magnet and the vibrating magnet are configured to repel each other, and when the spring vibrates by the vibration of the pendant while walking, it is configured to form a magnetic field between the stationary magnet and the vibrating magnet. As described above, if there is no vibration in the pendant, a magnetic field cannot be generated, so there is a problem that a magnetic field cannot be generated in a stationary state.

The present invention constitutes a composition composed of a mixture of various materials in which far infrared rays and anions are generated at room temperature, and in the composition, anions and far infrared rays are emitted at a stationary state and at room temperature, and more far infrared rays and anions are realized in a vibrating state It is an object of the present invention to provide a method for producing a composition that can realize negative ions only by touching it with a hand, and a method for producing a composition beneficial to health by using the composition, and a pendant composed of the composition.

The present invention composes a pendant to be used as an ornament, but the ratio of hematite, pozzolan, guiyangseok, white coal, and macsum stone, which is a material that can emit negative ions and far-infrared rays as an aggregate, is different by collecting various minerals made of bio. A composition constituted by mixing well and a pendant are constructed using the composition.

It consists of the process of grinding hematite into 3,000 mesh, the process of grinding pozzolan into 3,000 mesh, the process of grinding Guiyang stone into 3,000 mesh, the process of grinding white coal into 3,000 mesh, and the process of grinding Macsumsuk into 3,000 mesh and crushed hematite 12 to 18% by weight, crushed pozzolan 27 to 33% by weight, crushed guiyang stone 17 to 23% by weight, crushed white coal 13 to 17% by weight, and crushed macsum stone 17 to 23 weight %, 50 to 70% by weight of the mixture and 30 to 50% by weight of silicone rubber were mixed to form a gel composition.

The process of putting the composition as described above into the mold, the process of preheating the mold to 120 ~ 180 ℃ and heating for 8 to 15 minutes, the process of cooling to room temperature (25 ℃), the process of separating from the mold The pendant consisted of a process of measuring far-infrared radiation and anion measurement.

In the process of molding the composition in a mold, a high density of iron particles is formed on the outside of the pendant by forming a magnetism on the outside of the mold at a high temperature (180 ℃) of a preheating temperature (120 ~ 180 ℃), and The exterior has been constructed so that it can compose a solid and beautiful color.

The mold is configured to easily inject the silicon mixture mixed with the mineral mixture.

The hematite of the composition was pulverized to 3,000 mesh and then used by composing 60% of iron constituting the magnetism through the medium constituting the magnetism.

The present invention, which consists of a pendant hanging from the chest by hanging it from the neck among various ornaments, is made by mixing and molding Guiyangseok, pozzolan, white charcoal, and Macsumsuk, which emits large amounts of far infrared rays and negative ions, so far infrared rays and negative ions are generated even in a stationary state and at room temperature, and high temperature By emitting more than 90% of far-infrared rays, it can compose blood circulation and immunity, and it can absorb electric waves because negative ions prevent harmful cations to the body. This can increase the effectiveness of the pendant.

1 is a process diagram of the present invention;

The present invention relates to a process of grinding hematite to 3,000 mesh, a process of grinding pozzolan to 3,000 mesh, a process of grinding guiyang stone to 3,000 mesh, a process of grinding white coal to 3,000 mesh, and a process of grinding macsumsuk to 3,000 mesh 12 to 18 wt% of pulverized hematite, 27 to 33 wt% of pulverized pozzolan, 17 to 23 wt% of pulverized guiyang stone, 13 to 17 wt% of pulverized white coal, and pulverized Macsumsuk 17 A composition obtained by mixing 50 to 70% by weight of a mixture of ~23% by weight and 30 to 50% by weight of silicone is constituted.

The silicone can be classified into water-based silicone, oil-based silicone, silicone acetate, urethane silicone, and bio-silicone depending on the expected effect, but water-based silicone is a silicone that is used in various ways and is convenient to use, but has a problem of slow drying, and oil-based silicone Silver is composed of various colors, so it can be used without any sense of difference, but it has a problem of slow drying. Silicone acetate has a characteristic that it dries quickly, but there is a problem that it can be corroded when used for metal. However, there is a problem in that the weather resistance is poor and the curing rate is slow. Nevertheless, the use of the type of silicone applied to the present invention is not limited, but the silicone of the present invention is configured to implement the color of the pendant in various colors using oil-based silicone.

The process of putting the composition as described above into the mold, the process of preheating the mold to 120 ~ 180 ℃ and heating for 8 to 15 minutes, the process of cooling to room temperature (25 ℃), the process of separating from the mold It consists of the process of inspecting the pendant by measuring far-infrared radiation and negative ions.

The molding die is configured to facilitate injection of the composition, is configured to preheat using electric heat, and is configured to discharge gas generated from the composition during preheating of the composition. It is configured to automatically discharge gas at the pressure set by the internal high temperature.

In the process of molding the composition, high magnetism is formed outside the mold while heating at a high temperature (180° C.) of a preheating temperature (120 to 180° C.), so that the iron can be arranged at a high density on the outside of the pendant. and the exterior of the pendant is constructed to form a solid and beautiful color.

The composition according to the present invention constituted as described above is characterized in that radon, which is harmful to the human body, is not generated by not using tourmaline, which is generally used.

Example

1 shows a process according to the invention.

Prior Art No. 10-1982930 (pendant for necklace having a vibrating structure, hereinafter referred to as conventional technology) regarding pendants has been proposed, and pendants with various functions have been proposed, but their shape is intended to be used as an ornament rather than a function. It can be seen by searching that most of the pendants centered on the

The mineral according to the present invention is almost composed of an aggregate of minerals, and the minerals of each aggregate are composed of minerals generated by the action of a specific earth, and can radiate more far-infrared rays or more It is to be compatible with far-infrared rays and wavelengths generated in the human body through the emission of negative ions to increase the effect of blood circulation and immunity, and to construct the effect of blocking cations harmful to the human body.

Hematite applied to the present invention is composed of the chemical formula of Fe2O3 and is applied to the present invention to increase the emissivity of far-infrared rays by constituting an aggregate of minerals as a potential metal. Since it is a mineral that is easily configured and polished, it has the feature of being able to compose multiple colors depending on processing, so it is a metal applied to ornaments, and it can increase the hardness of the pendant of the present invention and the far-infrared emissivity of the pendant as an avant-garde metal. It was applied to realize a beautiful color on the surface of the pendant.

Hematite applied to the present invention is composed of powder and is extracted and used with a material rich in iron using a magnet.

Pozzolan applied to the present invention is a soil containing high germanium and is known as a material that emits more far-infrared rays than loess soil.

The pozzolan contains germanium, selinium, vanadium, and various mineral components, and each particle forms numerous pores by volcanic explosion. It was applied to the present invention as a feature of generating far-infrared rays.

Guiyangseok applied to the present invention consists of silica, alumina, ferrite, K2O, and Na2O components, and is composed of an aggregate of various kinds of minerals and is of a feldspar system. It is known as a condensed natural stone and is characterized by limited production in the Japanese archipelago.

In particular, Guiyangseok emits 96% of far-infrared radiation at room temperature (25℃), which has a high emissivity, emitting higher far-infrared rays than ordinary ceramics. It was applied to the present invention as a feature of generating many negative ions even in vibration.

White charcoal applied to the present invention has a property of emitting anion in its effect to block positive ions and has an effect of emitting far-infrared rays.

Macsumsuk applied to the present invention is mostly clay minerals such as feldspar, quartz, mica, gastrolith, and calcite, and is a kind of rare earth such as Si, Al, Fe, Ca, Mg, Na, K as an aggregate of one or more minerals or organic substances. It is a material that emits more than 90% of far-infrared rays with a central wavelength of 8~11㎛, and it is a mineral that forms a wavelength of 10㎛ beneficial to the human body.

Because far-infrared rays are invisible light and composed of wavelengths, when irradiated, they produce a wavelength range similar to that of the human body due to resonance and resonance (a phenomenon in which another vibrating body with the same frequency vibrates when a vibrating body vibrates). Because it can be delivered to the deepest part of the human body, the composition for showing the effect on the human body of far-infrared rays and anions characteristically expressed by the components of hematite, pozzolan, guiyangseok, white charcoal, and macsumsuk applied to the present invention and made up a pendant with the composition.

In an exemplary embodiment of the present invention, the agate and the pozzolan are minerals generated by a volcanic eruption in a volcanic zone.

In an embodiment of the present invention, hematite is an iron ore widely distributed in nature. In order to increase the density of iron by using a property compatible with magnetism, a natural magnet is applied to the pulverized powder and iron is separated from the ore to further increase the magnetism in the composition. It is set up to be raised.

Hematite is pulverized to 3,000 mesh and composed of powder.

Pozzolan is pulverized with 3,000 mesh and composed of powder.

Guiyangseok is pulverized with 3,000 mesh and composed of powder.

White charcoal is pulverized into 3,000 mesh and composed of powder.

Macsumsuk is pulverized into 3,000 mesh and composed of powder.

12 to 18% by weight of the hematite powder, 27 to 33% by weight of pozzolan powder, 17 to 23% by weight of guiyangseok powder, 13 to 17% by weight of white charcoal powder, and 17 to 23% by weight of Macsumsuk powder are mixed to form a mixture. will configure

50 to 70% by weight of the mineral mixture and 30 to 50% by weight of oily silicon are mixed.

The mineral mixing ratio is composed of the mixing ratio of the sum of the low and high values in half.

The mixture of the mineral mixture and silicon is uniformly mixed through a stirrer in the mixer, and the mixture of silicon mixed with the mineral mixture is composed of physical properties that are easy to inject into the molding die.

As described above, the mixture of the mineral mixture and silicon is injected into the mold and heated at a high temperature of 120 to 180°C.

Since the outer shape of the pendant to be expressed is engraved inside the molding frame, it is molded into an engraved shape.

As described above, the mineral mixture and silicon mixture are injected into the mold and heated, and at the same time, magnetism is formed outside the mold to induce the movement of iron in the mixture to the surface of the molding, so that the iron can be arranged on the surface of the molding. .

As described above, when the gas pressure generated in the mold increases during heating, the pressure can be automatically exhausted at the set pressure.

The heating time of the mold is heated for 8 to 15 minutes.

After the mineral mixture and silicon mixture are heated, the molding is separated from the mold and dried.

As described above, the amount of far-infrared radiation and anion emission are measured after the pendant molding is separated from the mold and dried.

Claims (5)

The process of grinding hematite, pozzolan, guiyangseok, white charcoal, and macsumsuk into 3,000 mesh each, 12 to 18% by weight of pulverized hematite, 27 to 33% by weight of pozzolan, 17 to 23% by weight of guiyangseok, 13 to 17% by weight of white coal and 17 to 23% by weight of Macsumsuk is composed of a process of composing a mineral mixture, and a mixture of 50 to 70% by weight of the mineral mixture and 30 to 50% by weight of silicon is placed in a mold It consists of the process of injecting and heating at a high temperature of 120~180℃ for 8~15 minutes, cooling to room temperature, separating the cooled mold, and measuring the far infrared rays and anion levels of the molded pendant. Mineral bio pendant composition manufacturing method, characterized in that. The method according to claim 1, wherein, in the process of injecting the mineral mixture into the mold and heating it, strong magnetism is formed on the outside of the mold to allow magnetic iron, which is a magnetic substance, to move to the surface of the mold. . The method according to claim 1, wherein magnetism is formed around the pulverized hematite to increase the content of magnetic iron, thereby increasing the magnetism of the mineral mixture and increasing the amount of anions and far-infrared radiation. . 12~18 wt% of hematite pulverized with 3,000 mesh, 27~33 wt% of pozzolan pulverized with 3,000 mesh, 17~23 wt% of guiyang stone pulverized with 3,000 mesh, 13~17 weight of white coal pulverized with 3,000 mesh Pendant, characterized in that it is formed by mixing 50 to 70% by weight of a mineral mixture mixed with 17 to 23% by weight of Macsumsuk pulverized into 3,000 mesh and 30 to 50% by weight of silicon. The method of claim 4, wherein in the process of molding a mixture of 50 to 70% by weight of the mineral mixture and 30 to 50% by weight of silicon in the molding die, strong magnetism is formed on the outside of the molding die so that the hematite iron of the mineral mixture is formed on the surface of the molding. Pendant, characterized in that by moving to the surface is composed of hematite iron to make it strong and beautiful.

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