KR20230167534A - Ceramic composition for thermo-therapy - Google Patents

Abstract

The present invention relates to a ceramic composition for heat therapy, characterized in that it contains 70 to 80 wt% of elvan stone, 2 to 4 wt% of jade, 1 to 3 wt% of red clay, and 2 to 4 wt% of illite. The composition is disclosed. Accordingly, the present invention provides a ceramic composition for thermal treatment that has excellent physical properties and is easy to achieve color and gloss.

Description

Ceramic composition for thermo-therapy}

The present invention relates to a ceramic composition for thermal treatment, and more specifically, to a ceramic composition for thermal treatment that has excellent physical properties and is easy to achieve color and gloss.

Thermotherapy is a therapy that increases treatment effectiveness by applying heat locally or to the whole body, and is one of the most commonly used physical therapy methods. Heat therapy promotes increased blood flow and activation of metabolism in the treatment area, showing various effects such as relieving muscle tension and analgesic effects.

Thermal therapy can use various media such as hot baths, light, and electricity as heat sources. In particular, in the case of the hot rock method using conductive heat, a ceramic composition that emits far-infrared rays that are beneficial to the human body can be used as the medium.

Ceramic compositions for thermal treatment require various conditions, such as excellence in exothermic reaction by far-infrared rays, far-infrared wavelength conversion rate, durability, occurrence of moisture absorption, expansion during sintering, and ease of realizing color and gloss. However, it is difficult to achieve all of these conditions with ceramics composed of only one ingredient.

Accordingly, for more effective thermal treatment, it is common to use a ceramic composition in which a plurality of components are mixed. However, even in the case of a ceramic composition in which a plurality of components are mixed, there are limitations in applying it to an actual manufacturing process while satisfying all of these conditions.

Korean Patent Publication No. 10-1346307 discloses anion and far-infrared radioactive chair fabric. Specifically, an anion and far infrared radioactive chair fabric capable of emitting a large amount of far infrared anions is disclosed.

However, for this type of fabric, the specific composition and composition ratio of the ceramic powder that emits negative ions and far-infrared rays are not disclosed.

Korean Patent Publication No. 10-1651925 discloses a composition for coating a far-infrared heat dissipation panel. Specifically, a composition for coating a far-infrared heat dissipation panel that induces uniform heat dissipation characteristics of the heat dissipation panel and does not crack or change color even when used for a long time in a high temperature environment is disclosed.

However, this type of composition only deals with the heat generation and durability of far-infrared rays, and does not disclose solutions to other problems such as color and gloss, moisture absorption problems, etc.

Korean Patent Publication No. 10-1346307 (December 31, 2013) Korean Patent Publication No. 10-1651925 (2016.08.29.)

One object of the present invention is to provide a ceramic composition for thermal treatment that has excellent physical properties such as exothermic reaction by far-infrared rays, moisture resistance, and durability, and at the same time is easy to achieve color and gloss.

The problem to be solved by the present invention is not limited to the problems mentioned above, and other problems not mentioned can be clearly understood by those skilled in the art from the description below. .

In order to achieve the above object, the ceramic composition for thermal treatment according to an embodiment of the present invention contains 70 to 80 wt% of elvan stone, 2 to 4 wt% of jade, 1 to 3 wt% of red clay, and 2 to 4 wt% of illite. do.

Additionally, it may contain 4 to 6 wt% of kaolin.

Additionally, it may contain 4 to 6 wt% of feldspar.

Additionally, it may contain 3 to 5 wt% of silica.

Among the various effects of the present invention, the effects that can be obtained through the above-described solution are as follows.

The ceramic composition for thermal treatment according to an embodiment of the present invention may include elvanite, jade, red clay, illite, kaolin, feldspar, and silica.

By radiating far-infrared rays and negative ions to the surroundings, elvan stone, jade, red clay, and illite can exhibit various effects such as metabolism and cell activation, promotion of blood circulation, and discharge of harmful wastes from the body. In particular, jade contains a large amount of magnesium, which constitutes human cells, and has good thermal insulation properties, showing better efficacy.

In addition, by mixing the above composition, color deterioration during manufacturing due to MgO (magnesium oxide) contained in jade can be prevented, and gloss can be easily achieved. In addition, purification and antibacterial effects can also be improved due to the property of adsorbing and decomposing bacteria, heavy metals, and contaminants, which are characteristics of elvan stone, which is a porous material.

In summary, the ceramic composition for thermal treatment according to an embodiment of the present invention has excellent physical properties such as heat generation reaction by far-infrared rays, moisture resistance, and durability, and at the same time can exhibit the effect of easily realizing color and gloss.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

Hereinafter, a ceramic composition for thermal treatment according to an embodiment of the present invention will be described in more detail.

In the following description, in order to clarify the characteristics of the present invention, descriptions of some components may be omitted.

In this specification, the same reference numbers are assigned to the same components even in different embodiments, and duplicate descriptions thereof are omitted.

Singular expressions include plural expressions unless the context clearly dictates otherwise.

The ceramic composition according to an embodiment of the present invention can be used to emit far-infrared rays and negative ions as a medium during thermal treatment.

Among thermal treatments, therapy using far-infrared rays can utilize strong heat action, assist in recovery from fatigue through sweat discharged from deep within the human body, and clinical results have been reported to relieve back pain and muscle fatigue. In particular, it has also been tested that the thermal effect of far-infrared rays contributes to muscle fatigue after exercise and recovery of joint function.

By stimulating the user's body, far-infrared rays have analgesic, sedative, and suppressive effects on the human body. If the sensory nerves are abnormally excited and overreact, causing pain, it can provide pain relief and soothing. In addition, if abnormal excitement occurs in the motor nerves and symptoms such as convulsions or paralysis appear, it can be suppressed and restrained. In addition, if the autonomic nerves are excited and abnormalities occur in the functions of the relevant organs and tissues, the functions can be restored to normal by suppressing or adjusting them. In other words, hyperactivity can be suppressed.

Since far-infrared rays can penetrate the user's skin to a depth of about 30 to 50 mm, they can exert a thermal effect by acting on all cells, including blood vessels, lymph vessels, or nerves, from the surface muscle layer. This can also be said to be the activation of intracellular chemicals by the resonance action of micromassage of cell tissue and vibrational molecular motion.

When thermal stimulation from far-infrared rays is applied to the human body, the temperature of areas deep within the skin may increase due to resonance. Accordingly, the capillaries are established and blood circulation is promoted, allowing nutrients to be delivered evenly to all parts of the human body. As a result, metabolism is strengthened and circulation disorders of body fluids are alleviated, while increasing tissue vitality and promoting growth. In summary, when the functions of the perceptual nerves, motor nerves, and autonomic nerves are weakened or deteriorated, the functions of the relevant organs and tissues controlled by these nerves can be normalized by far-infrared stimulation.

Additionally, when far-infrared rays are applied to an area at a certain distance from the painful body part, the user's blood circulation and metabolism and discharge of pathological products can be promoted. This is significant in that it can produce an inductive action that regulates the functions of various organs without directly stimulating the painful area.

In addition, far-infrared rays can be used in incubators for premature babies or thermal physical therapy devices by exerting comprehensive and storage actions in the human body. In addition, it helps excrete waste products, heavy metals, and toxic substances from sweat and sebaceous glands.

Thermal therapy can use various media such as hot baths, light, and electricity as heat sources. In particular, in the case of the hot rock method using conductive heat, a ceramic composition that emits far-infrared rays that are beneficial to the human body can be used as the medium.

Ceramic compositions for thermal treatment require various conditions, such as excellence in exothermic reaction by far-infrared rays, far-infrared wavelength conversion rate, durability, occurrence of moisture absorption, expansion during sintering, and ease of realizing color and gloss. However, it is difficult to achieve all of these conditions with ceramics composed of only one ingredient.

Accordingly, for more effective thermal treatment, it is common to use a ceramic composition in which a plurality of components are mixed.

The ceramic composition according to an embodiment of the present invention includes elvan stone, jade, red clay, and illite.

By radiating far-infrared rays and negative ions to the surroundings, elvan stone, jade, red clay, and illite can exhibit various effects such as metabolism and cell activation, promotion of blood circulation, and discharge of harmful wastes from the body. In particular, jade contains a large amount of magnesium, which constitutes human cells, and has good thermal insulation properties, showing better efficacy.

In addition, by mixing the above composition, color deterioration during manufacturing due to MgO (magnesium oxide) contained in jade can be prevented, and gloss can be easily achieved. In addition, purification and antibacterial effects can also be improved due to the property of adsorbing and decomposing bacteria, heavy metals, and contaminants, which are characteristics of elvan stone, which is a porous material.

In summary, the ceramic composition for thermal treatment according to an embodiment of the present invention has excellent physical properties such as heat generation reaction by far-infrared rays, moisture resistance, and durability, and at the same time can exhibit the effect of easily realizing color and gloss.

Below, the characteristics and efficacy of each composition will be described in more detail.

First, the characteristics and efficacy of elvan stone will be explained.

Elvan is a rock belonging to porphyry, and its main components are silicon dioxide (SiO ₂ ) and aluminum oxide (Al ₂ O ₃ ). Elvan stone is rich in minerals and minerals that are beneficial to the human body. In particular, it contains about 25,000 types of minerals, and about 40 types of minerals that vitalize the human body can be released, which can have effects such as metabolism, skin care, and health promotion.

Elvan stone can emit far infrared rays and negative ions. In particular, far-infrared rays have a high emissivity of over 92%. A detailed explanation of the efficacy of far-infrared rays is omitted as explained previously.

The elvan stone is slightly alkaline (pH 7.2-7.8), and when the elvan stone is added to a strongly alkaline or strongly acidic liquid, the liquid can be adjusted to be slightly alkaline through the ion exchange effect. Liquid adjusted to slightly alkaline helps improve water quality through self-regulating action.

In addition, elvan stone is composed of more than 30,000 multi-layered porous materials per 1 cm3, so ion exchange can occur and, of course, it can adsorb and decompose various bacteria, heavy metals, pollutants, etc.

Specifically, if the diameter of the pipe is sufficiently small, the surface tension of the liquid and the adsorption force between the liquid and the pipe cause the capillary phenomenon in which the liquid climbs the narrow pipe without external help such as gravity, causing bacteria, heavy metals, and contaminants in the water to escape. It may be adsorbed and decomposed. Furthermore, it can also have a deodorizing effect.

At this time, since the elvan stone removes bacteria such as E. coli, the chemical oxygen demand and biological oxygen demand of water containing the elvan stone can be further reduced. As a result, decay can be prevented and vitality due to activation can be supplied to the human body.

According to the present invention, the ceramic composition contains 70 wt% or more and 80 wt% or less of elvan. Preferably, it contains 74wt% of elvan. If the content of elvan stone is insufficient, color change may occur during manufacturing due to magnesium oxide (MgO) contained in jade, it may be difficult to achieve gloss, and purification and antibacterial efficacy may be reduced. Conversely, if the content of elvan stone is excessive, moisture resistance may be insufficient.

Next, the characteristics and efficacy of jade will be explained.

Jade contains a large amount of minerals such as calcium (Ca) and magnesium (Mg) that are necessary for the human body. In particular, it contains more than 40% of the magnesium that makes up human cells.

Jade can emit far infrared rays and negative ions. In particular, far-infrared rays have a high emissivity of over 92%. A detailed explanation of the efficacy of far-infrared rays is omitted as explained previously.

Jade assists the release of carbonic acid (H ₂ CO ₃ ) gas in the blood, helping the blood become slightly alkaline. Accordingly, blood circulation can be promoted and metabolism and cells can be activated. This helps users reduce stress and recover from fatigue.

In addition, jade has excellent thermal insulation properties, so it can further promote metabolism and blood circulation by maintaining coolness in the summer and heat in the winter for a long time. Additionally, when used in a ceramic composition for thermal treatment, the therapeutic effect can be increased by maintaining the thermal sensation for a long time.

According to the present invention, the ceramic composition contains more than 2 wt% and less than 4 wt% of jade. Preferably it contains 3wt% of jade. If the jade content is insufficient, the magnesium content of the entire ceramic composition may be insufficient. Conversely, if the jade content is excessive, color change due to magnesium oxide (MgO) may occur and it may be difficult to achieve gloss.

Next, the characteristics and efficacy of red clay will be explained.

Red clay is a sediment mainly composed of silt-sized particles. Red clay has excellent humidity control and contains a large amount of antibiotic and antibacterial enzymes, showing excellent antibacterial effects.

Red clay is loosely cemented together by calcium carbonate (CaCO ₃ ), making it easy to absorb and dissipate moisture. Accordingly, red clay can exert the effect of appropriately controlling the surrounding humidity. As mentioned above, red clay contains a large amount of antibiotics and antibacterial substances, which, combined with its humidity control properties, is also advantageous in preventing mold growth.

In addition, red clay has excellent thermal insulation properties, so it can provide a feeling of coolness in the summer and warmth in the winter for a long time. The specific effects of this are omitted as they are explained in the characteristics and efficacy of jade.

In addition, red clay can also emit far-infrared rays and negative ions. A detailed description of far-infrared rays will be omitted as explained previously.

According to the present invention, the ceramic composition contains 1 wt% or more and 3 wt% or less of red clay. Preferably, it contains 2 wt% of red clay. If the red clay content is insufficient, the ceramic composition becomes vulnerable to ambient humidity, which may cause damage. If the red clay content is excessive, there is a possibility that the far-infrared emissivity may be insufficient.

Next, illite will be explained.

Illite is a mica group mineral belonging to the monoclinic system.

Illite is certified for its high far-infrared radiation rate at room temperature, negative ion generation ability, antibacterial properties, and antiviral ability.

In addition, illite is capable of adsorbing heavy metals and harmful gases, and has excellent purifying and antibacterial effects.

According to the present invention, the ceramic composition contains 2 wt% or more and 4 wt% or less of illite. Preferably, it contains 3 wt% of illite.

Additionally, the ceramic composition may further include kaolin, feldspar, silica, etc. According to one embodiment of the present invention, the ceramic composition may include 4 to 6 wt% of kaolin, 4 to 6 wt% of feldspar, and 3 to 5 wt% of silica. More preferably, the ceramic composition may include 5 wt% kaolin, 5 wt% feldspar, and 4 wt% silica.

Although the present invention has been described above with reference to preferred embodiments, the present invention is not limited to the configuration of the above-described embodiments.

In addition, the present invention can be modified and changed in various ways by those skilled in the art to which the present invention pertains without departing from the spirit and scope of the invention as set forth in the claims below.

Furthermore, the above embodiments may be configured by selectively combining all or part of each embodiment so that various modifications can be made.

Claims (4)

A ceramic composition for heat treatment, characterized in that it contains 70-80 wt% of elvan stone, 2-4 wt% of jade, 1-3 wt% of red clay, and 2-4 wt% of illite. According to paragraph 1,
A ceramic composition for thermal therapy, characterized in that it contains 4 to 6 wt% of kaolin. According to paragraph 1,
A ceramic composition for thermal therapy, characterized in that it contains 4 to 6 wt% of feldspar. According to paragraph 1,
A ceramic composition for thermal therapy, characterized in that it contains 3 to 5 wt% of silica.