KR101486816B1 - Walnut type acupressure apparatus and a method of manufacturing the same - Google Patents

Abstract

The present invention relates to a walnut-type acupressure tool and a method for producing the same. More specifically, ocher powder and quartz andesite powder are formed and plasticized in a walnut shape so that meridian points on the hand and whole body of a user gripping the same can get acupressure. Moreover, blood circulation in the body of the user can be promoted through the amount of far-infrared rays increased by frictional heat generated from the palm of the user.

Description

Technical Field [0001] The present invention relates to a walnut type acupressure apparatus and a method of manufacturing same,

More particularly, the present invention relates to a walnut type pressure-sensitive device and a method of producing the same, and more particularly, to a walnut type pressure-sensitive device and a method of producing the same, The present invention also relates to a walnut-like pressure-applying mechanism and a method for manufacturing the walnut-shaped pressure-supporting mechanism which allow the blood circulation of the user to be smoothly performed through the amount of far-infrared rays emitted by the frictional heat generated in the palm.

In general, a large number of menstrual blood is concentrated on the palm of a person, and when the palm is rubbed or pressed, irritation is given to the menstrual blood to smooth the blood circulation, and various diseases can be improved or prevented.

In such acupuncture stimulation, various types of grippers having various shapes including a walnut shape have been developed and used, and the body of such a gripper gripper can be lightly wrapped by hand as it is composed of an elliptical shape. In addition, by forming an acupressure projection on the outside of the body of the forceps, the acupuncture points of the palm can be stimulated more easily when the user grasps the acupressure projection.

In order to stimulate a large number of menstrual blood present in the human body as well as such a force grip, various articles have been invented. According to the conventional inventions relating to such acupressure-related articles, Korean Patent No. 10-319587 discloses a pillow- A ball having a diameter of 1.5 cm is prepared by mixing a 200 mesh ocher powder and a starch paste at a ratio of 3: 1, and the ball is first dried at a temperature of 40 to 80 ° C to form a constant After the soaking time, it is secondarily dried, so that it is possible to apply pressure to the tofu and have an effect of smooth ventilation.

However, in the above-mentioned conventional patents, i) a starch paste is added to increase the strength of the loess balls and dried at a temperature of 40 to 80 ° C to increase the bonding force between the particles, but the binding force of the starch paste is originally limited In particular, when the loess ball absorbs moisture, the loose powder is dissolved in the water and the binding force of the loess particles constituting the loess ball is lowered. Therefore, And ii) a problem that the contact area of air with the inside of the ocher ball is disappeared because the ocher powder particles are closely adhered to each other due to the starch paste, thereby significantly lowering the moisture releasing function, and iii) In case of direct heating, loess is not completely fired and loess powder is released from the surface of loess ball. It has a point.

In addition, iv) If we look at the action of gripping the existing circular pressure gauge in the hand and shaking the hand through it, the existing pressure gauge rotates horizontally in one direction from the hand of the actor, so that the sharp pressure gauge projection Is stimulated by scratching the palm of the hand rather than stimulating the user by pressing the droplet of acupressure distributed in the palm of the hand. Therefore, a user who uses the acupressure pad for the first time as a result of the scratching of the palm skin feels pain, and the unstable rotation of the acupressure pad causes a decrease in the grip strength of the hand holding the acupressure pad, and accordingly, the pressure applied to the acupoint of the palm There is a problem that the far infrared ray emission effect is reduced as the generation of frictional heat is reduced.

The problem as described above is that the user who uses the acupressure pad may concentrate on the pain and cause a feeling of discomfort to the acupressure point. In addition, in the conventional acupressure pad, in order to fasten the upper piece and the lower piece of the pressure piece equally divided into two pieces with the bolts and the nuts, each piece of the pressure piece, the magnet which is an article mounted inside the pressure piece, The number of parts to be assembled increases, so that the time required for the assembling process is increased and the production cost of parts is also increased.

In order to solve the above problems, the inventor of the present invention has found that, in order to solve the problems of the above-mentioned pressurizing sphere, the yellow loose powder and the quartz andesite powder are formed into a spherical walnut shape and sintered, the outer protrusions contacting the skin are not sharpened, So that the user can easily rotate in the palm of the hand even if the user strongly grasps the acupressure pad, and the far infrared ray emissivity is increased by the frictional force generated in the palm of the hand, The present inventors have invented a pressure-applying mechanism and a manufacturing method thereof.

Korean Patent No. 10-319587

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for forming and burning a loess powder and a quartz andesite powder in a spherical walnut shape, The present invention also provides a walnut-shaped pressure-applying mechanism and a method of manufacturing the walnut-shaped pressure-relief mechanism, which allow the blood circulation of the user to be smoothly performed through the amount of far-infrared rays emitted by the frictional heat generated in the palm.

More specifically, it is an object of the present invention to provide a walnut type pressurizing apparatus and method for manufacturing the walnut type pressurizing apparatus by which quartz andesite powder is mixed during the drying and calcination of the loess, thereby preventing the powder from easily breaking.

It is another object of the present invention to provide a walnut type pressure-supporting mechanism that completely removes moisture contained in yellow loess powder during mixing and drying the yellow loess powder and quartz andesite powder, And to provide a manufacturing method thereof.

It is also an object of the present invention to provide a walnut-type pressurizing mechanism which is completely fired even when the yellow loess is heated directly at a temperature of 900 ° C or higher and prevents the yellow loose powder from being detached from the surface, and a manufacturing method thereof.

It is also an object of the present invention to provide a walnut-shaped pantograph that can stimulate the palm of a user evenly through the pawl protrusions formed on the outside and freely rotate in a horizontal or vertical direction to minimize wear on the outside, .

It is also an object of the present invention to provide a walnut-type pressurizing mechanism and a method of manufacturing the same which allow far-infrared rays emitted from clay and quartz andesite to be easily discharged to the outside by frictional heat generated in the palm of a hand.

In order to achieve the above object, in one aspect,

(a) processing raw materials including loess and quartz andesite; (b) mixing the processed raw materials; And (c) sintering the mixed raw materials. The present invention also provides a method of manufacturing a walnut type press apparatus.

Hereinafter, each step will be described in detail.

(a) processing raw materials including loess and quartz andesite (dacite)

In the present invention, the term " raw material " may refer to all kinds of minerals that can be molded into a mold of a walnut type pressure-sensitive mechanism, and may be an anion or a far-infrared ray such as loess and quartz dacite Minerals can be included in this. This is because the loess and quartzite andesite naturally release anion or far-infrared rays at room temperature without any additional external energy, so there is no cost for anion or far-infrared emission and space for installation of anion emission equipment is unnecessary. In addition, the loess and quartz andesite are easily available in the surrounding area, so the supply rate is excellent.

Here, loess is mainly composed of silica, alumina and iron oxide having a large porosity, and is loosely cured by calcium carbonate and can be easily obtained all over the country. Such loess has no harmful effect on living organisms, has high far infrared ray emissivity, has high physical properties such as dioxin adsorption and water purification ability.

However, when yellow loess is collected directly from the land and used without any pretreatment process, not only the bacteria and fungi contained in the loess but also the impurities cause the chemical reaction to generate toxic gas. Furthermore, the yellow loess itself has low far-infrared emissivity, low anion generation, and low strength after firing.

Therefore, it should not be used only as the loess itself, but quartz andesite should be mixed and calcined.

Preferably, the step (a) includes the steps of beneficiating yellow clay and quartz andesite; Crushing the beneficiated loess and quartz andesite; Sorting the yellow loess powder and the quartz insole rock powder of a predetermined size or less from the loess powder and the quartz insole rock powder produced in the crushing step; And drying the selected yellow loess powder.

Here, it is preferable that the loess loess and the quartz andesite are pulverized so that the powder diameter is 500 mesh or less, more preferably the powder diameter is 276 mesh. The reason for this is that the loess and quartz andesite are different in composition, so that when they are fired at high temperature, the binding force of each component is increased to increase the strength of the walnut type pressure device.

Further, it is preferable to dry the loess material in the range of 100 to 110 degrees for 5 to 6 hours. This is because, in order to mix the yellow loess powder and the quartz andesite powder into the walnut shape, the moisture contained in the yellow loess powder must be removed.

At this time, when the drying temperature is less than 100 to 110 degrees or when the drying time is less than 5 to 6 hours, the moisture contained in the yellow loess powder is not properly removed, the walnut shape is not properly formed and the strength of the walnut- .

(b) mixing the processed raw materials

In the present invention, in the mixing process of the yellow loess powder and the quartz andeside powder, the weight mixing ratio of the loess powder and the quartz andeside powder is adjusted to 1: 2 to 1: 4 w / w%, more preferably the weight mixing ratio is 1: 3 w / w%. The reason for this is to increase the impact strength of the walnut type pressure device to 50 kgf * cm / cm ² or more.

c) sintering the blended raw materials sintering ) Step

In the present invention, it is preferable to add a small amount of water to the mixture of the loess powder and the quartz anthocyanin powder to form a walnut shape having a diameter of 15 to 40 mm, more preferably a diameter of 30 mm. This is because the density of the walnut shape becomes 0.4 to 0.8 g / ml when the diameter is 30 mm.

It is preferred that the walnut shaped mixture is sintered for 12 to 24 hours at a temperature in the range of 1100 to 1300 degrees, more preferably for 20 hours at a sintering temperature of 1250 degrees. The reason for this is to increase the impact strength of the walnut type pressure-applying mechanism to 50 kgf * cm / cm ² or more

In another aspect, the present invention relates to a walnut type pressurizing apparatus manufactured by the above-described method of manufacturing a walnut type pressurizing apparatus.

In the present invention, the walnut-type pressure-applying device can have a diameter of 15 to 40 mm and a density of 0.4 to 0.8 g / ml by the above-described manufacturing method. In addition, in the present invention, the walnut type pressure-applying mechanism can have an impact strength of 50 kgf * cm / cm ² or more by the above-described manufacturing method.

Further, in the present invention, it is preferable that the walnut-type pressure-applying mechanism is repeatedly formed with a bend having a concave-convex structure along the outer surface. The reason for this is to allow the user holding the walnut type pressure device to apply pressure to the hand or body through the non-smooth outer surface.

Meanwhile, it should be noted that the outline of the walnut pressurizing mechanism in the present invention may correspond to the walnut shape, but it can be modified into any other shape at the stage of molding the yellow loose powder and the quartz anthrax anionic powder.

According to the present invention, 70% of water molecules constituting the human body can be activated by using a walnut-type pliable device to shave hands or whole body, thereby preventing adult diseases and increasing skin elasticity.

In addition, according to the present invention, since the waste matter is discharged outside the body by the far-infrared rays and anions emitted from the yellow loess and the quartz andesite, the blood circulation and the metabolism are promoted and the cells constituting the human body can be activated As well as muscle pain, other pain can be alleviated to have a health recovery effect.

In addition, according to the present invention, since the outwardly projected pressure lip is not sharp, there is no pain felt even if the user grips the palm of the hand and applies grip force, thereby preventing the user from having a sense of rejection of the pressure device.

Further, according to the present invention, since yellow clay and quartz andesite can be easily obtained from the surroundings and the cost of raw materials is low, it is possible to mass-produce the walnut type pressure device, thereby having an advantage in the price competitiveness.

Fig. 1 is a flow chart showing the flow of a method of manufacturing a walnut-type pressurizing mechanism according to the present invention.
Fig. 2 is a view showing a walnut-like pressing mechanism manufactured by a method of manufacturing a walnut-like pressing apparatus according to the present invention.
Fig. 3 is an analytical chart of the composition of the loess, which is a raw material.
Fig. 4 is an analysis table of the composition of the quartz andesite as a raw material.
Fig. 5 is a characteristic analysis result table of the walnut-type pressure-relief device according to the present invention.
FIG. 6 is a far infrared ray emissivity and a radiation amount result table of the walnut type pressure device according to the present invention.
FIG. 7 is a table of pH measurement results for changes in water quality of a walnut type pressure device according to the present invention. FIG.
Fig. 8 is a table showing results of the antifungal test of the walnut-type pressure-relief device according to the present invention.
FIG. 9 is a table showing the anion measurement at room temperature of the walnut type pressure device (mixture ratio of loess and silica andesite, 50: 50%) according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in order to facilitate understanding of the present invention. However, the following examples are provided only for the purpose of easier understanding of the present invention, and the present invention is not limited by the examples.

< Manufacturing example >

Fig. 1 is a flow chart showing the flow of a method of manufacturing a walnut-type pressurizing mechanism according to the present invention.

Referring to FIG. 1, a method of manufacturing a walnut type pressure-sensitive device according to the present invention comprises concentrating clay and quartz andesite; Grinding the beneficiated loess and quartz andesite; Sorting the yellow loess powder and the quartz insole rock powder of a predetermined size or less from the loess powder and the quartz insole rock powder produced in the crushing step; Drying the selected loess powder; Mixing the dried yellow loess powder and the quartz andeside powder; And sintering the mixture.

First, the raw materials were harvested and crushed to a diameter of 276 mesh.

The term "raw material" means a mineral which is easy to process, has no deterioration during pulverization, drying and sintering, and emits anions and far-infrared rays, and specifically includes yellow earth, quartz andesite, , Zeolite, tourmaline, germanium and selenium, but preferably yellow earth and quartz andesite are prepared as raw materials.

Thereafter, only the powder having a diameter of 500 mesh or less was selected from the yellow loess powder and the quartz andesite powder, and then the yellow loess powder was dried for 5 hours and 30 minutes at a temperature of 100 to 110 degrees.

Thereafter, the dried yellow loess powder and the quartz andesite powder were mixed through a stirrer, and a small amount of water was added to facilitate mixing.

Here, the weight ratio of the loess powder and the quartz andesite powder was adjusted to 1: 3 w / w% so that the impact strength of the walnut type pressure device was 50 kgf * cm / cm ² .

Thereafter, a mixture of the loess powder and the quartz andesite powder was molded into a walnut shape having a diameter of 15 to 40 mm. At this time, the density was adjusted to 0.4 to 0.8 g / ml.

Thereafter, the walnut molded product was put into an oven and sintered at a sintering temperature of 1,250 ° C. for 20 hours to produce a walnut type pressure device, in which the impact strength was maintained at 50 kgf * cm / cm ² .

As a result, the walnut type pressurizing apparatus manufactured by this manufacturing example can be freely processed not only in the form of walnut but also in other forms, and is excellent in strength and is not easily broken. It is left in water through mixing and firing with quartz andesite The loess is not loosened, and since the material is a mineral, the lifespan is semi-permanent and can have the effect of emitting far infrared rays and negative ions.

Fig. 2 is a view showing a walnut type pressurizing apparatus manufactured by the method of manufacturing a walnut type pressurizing apparatus according to the present invention. Fig. 3 is an analysis table of ingredients of the loess, which is a raw material, and Fig. 6 is a far infrared ray emissivity and emittance result table of the walnut type pressure device according to the present invention. FIG. 7 is a graph showing the far infrared emissivity and the radiation amount result table of the walnut type pressure device according to the present invention, FIG. 8 is a table showing the results of the antifungal test of the walnut type pressure-sensitive instrument according to the present invention. Finally, FIG. 9 is a graph showing the results of the pH- %) At room temperature.

< Experimental Example  1>

The constituents of the loess yellow loam were analyzed in the production example. In accordance with these experiments, an analysis of the composition of the beneficiated yellow clay is shown in FIG.

< Experimental Example  2>

The composition of the quartz andesite in the production example was analyzed by the analytical instruments KSL3316 and KSL3128. In accordance with these experiments, an analysis table of the composition of the beneficiated quartz andesite is shown in FIG.

< Experimental Example  3>

The characteristics of the walnut type pressure device manufactured in the manufacturing example were analyzed through analyzing device KRL3114. FIG. 5 shows the results of the analysis of the characteristics of the walnut type pressure device according to these experiments.

< Experimental Example  4>

Far-infrared emission characteristics of the walnut type pressure device manufactured in the manufacturing example were analyzed by the test method ICM-FIR-1005. In addition, according to these experiments, a far infrared ray emission characteristic table of the walnut type pressure instrument is shown in Fig.

< Experimental Example  5>

The pH for the water purification ability of the walnut type pressure device manufactured in the manufacturing example was measured by an HM-149 pH meter of TOA Electronic Co., and the pH measurement result of the walnut type pressure device was shown in FIG.

< Experimental Example  6>

The fungus culturing test of the walnut type press apparatus manufactured in the production example was conducted through the test method ASTM G-21. More specifically, the anti-fungal effect of the walnut-type pressure device was tested by culturing the mold against the walnut type pressure device for 4 weeks. In accordance with these experiments, the test results of the anti-fungal test of the walnut-type pressure instrument are shown in FIG.

< Experimental Example  7>

The number of occurrences of anion generation at room temperature of the walnut type pressure device manufactured in the production example was measured. An anion measurement result table of the walnut type pressure device was shown in Fig.

<Specific Review>

As shown in Experimental Example 1, the content of silicon dioxide (SiO2) was the highest at 58.31%, followed by aluminum oxide (Al2O3) at 26.21%. In addition, the clay was composed of titanium dioxide (TiO2), magnesium oxide (MgO), phosphorus pentoxide (P2O5), calcium oxide (CaO), sulfur trioxide (SO3), sodium oxide (Na2O), zirconia (ZrO2) and manganese oxide (MnO).

Here, silicon dioxide (SiO2) belongs to silicon clay minerals, has a honeycomb-shaped multilayer structure, and the inner sponge shape has a structure capable of absorbing and emitting far infrared rays and anions.

Therefore, since yellow loess contains such a large amount of silicon dioxide (SiO2), it can absorb and emit far-infrared rays and anions.

Here, the far infrared ray may mean an infrared ray having a wavelength of 4 탆 or more, and the infrared ray is a kind of electromagnetic wave and has a longer wavelength than the red region of the visible ray. Therefore, such infrared rays are not visibly recognized by the human eye, are well absorbed by the material, and are characterized by strong resonance and resonance action on the organic compound molecules.

Also, light generally has a good reflection when its wavelength is short, and it has a property of being absorbed well when it reaches a long body, so it has a strong penetrating power, so that a human body is also warmed by this infrared ray. For example, in a water of 30 ° C, it hardly feels a warm aura. However, when you sit at the same temperature, you can feel warmth because the far infrared rays contained in the sun penetrate deep into the skin to generate heat. Helps to eliminate the germs that cause it, and it helps to expand blood capillary blood circulation and cell tissue formation. In addition, when it comes into contact with moisture and protein molecules that make up the cells, the cells are shaken 2,000 times per minute to activate cell tissue, which is effective in preventing aging, promoting metabolism and preventing chronic diseases such as chronic fatigue. It has excellent effects on facilitating action, relieving pain and eliminating heavy metals, preventing sleeping and deodorization, preventing the growth of antibacterial and fungi, and dehumidifying and air purification, so that it can be used for various purposes such as housing and building materials, kitchen utensils, textile, clothes, bedding, It is used in the field.

Here, the negative ion may mean a material in which a neutral particle becomes a negative charge, in which electrons are generated. These anions are known to have various beneficial effects on the human body and the like. For example, it cleanses the blood in the human body, regulates the autonomic nervous system, activates cells, and promotes resistance. It helps mental stability and recovery of health, helps to overcome stress, and improves brain function. have.

In addition, it was found that when the anion environment is provided to animals, the development is promoted, and in case of chicken egg scattering, the egg size is increased and the population is increased. On the other hand, in the case of plants such as crops, it is known that when grown in an anion environment, development is promoted and the number of fruits to be harvested is increased. In addition, it is advantageous for antibacterial action to remove air pollution and bad smell, and also shows effects on water pollution, and recently, products using anion are getting popular spotlight.

On the other hand, when the loess is directly used without being subjected to the pretreatment process, the bacteria, fungi and impurities in the loess can be chemically reacted and generate toxic gas.

Further, since yellow loess can not emit a large amount of anions and far-infrared rays by itself, and loose strength after firing, yellow loess is preferably mixed with quartz andesite, which will be described later.

As shown in Experimental Example 2, the content of silicon dioxide (SiO2) was the highest at 63.42%, followed by aluminum oxide (Al2O3) at 17.39% and calcium oxide (CaO) at 3.84 Respectively. In addition, it was found that the amount of iron oxide (Fe2O3) was 3.73%, that of sodium oxide (Na2O) was 3.36%, that of phosphorus pentoxide (P2O5) was 2.13%, that of calcium oxide (K2O) was 2.38%, that of magnesium oxide (MgO) TiO2), zirconium dioxide (ZrO2), and manganese oxide (MnO) accounted for 2.20% and 0.02%, respectively.

Here, since quartz andesite also contains silicon dioxide (SiO2) in the same way as yellow clay, it can absorb and emit far-infrared rays and anions.

Since the quartz andesite has a slightly different composition from that of the loess as described above, when it is mixed with the loess and fired in the temperature range of 1,100 ° C to 1,300 ° C, the bonding strength between the loess and the quartz andesite increases, .

As shown in Experimental Example 3, it can be seen that the specific surface area (m ² / g) of the walnut type pressure instrument is 47.51, the volume specific gravity is 3.73, the apparent specific gravity is 3.81, the water absorption rate (%) is 16.52 and the porosity (%) is 13.12 .

As can be seen from these results, since the porosity of the walnut type pressurizing mechanism occupies 13.12%, a large amount of far infrared rays and negative ions can be absorbed and released.

As shown in Experimental Example 4, the far infrared ray emission characteristics of the walnut type pressure device are more specifically as follows. The far infrared ray emissivity (5-20 μm) and the radiant energy (W / m ² μm) ² and the center wavelength is 9.0 [mu] m.

As in Experimental Example 5, when the pH value of general tap water was measured using an HM-149 pH meter measuring instrument manufactured by TOA Electronic Co., Ltd. in Japan, the pH value was 7.02, and the wastewater pressure instrument was immersed in water for 10 hours When the pH value was measured, the pH value was 7.64.

As can be seen from these results, when the walnut type pressure device is immersed in water, the acidity of the tap water is weakened by the alkaline wiping device. This means that the walnut type pneumatic device has the ability to purify the water, and the self - purification of the loess is not deteriorated even after the firing and the walnut type pressure device is still present.

As in Experimental Example 6, a test for culturing the fungus on the walnut type pressure instrument was conducted over a period of 4 weeks using the ASTM G-21 test method.

As can be seen from FIG. 8, the fungus cultivation rate of the first week was 0, and the fungus cultivation rate of the fourth week was 0. Therefore, these test results indicate that the walnut type pressure device has an antifungal effect and the sterilization action of the loess is not deteriorated even after the burning, and the walnut type pressure device is intact.

As in Experimental Example 7, 139 wastewater / cc anion was generated at room temperature by a walnut type pressure apparatus (mixture ratio of loess and quartz andesite, 50: 50%).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

Claims (9)

(a) processing raw materials including loess and quartz andesite;
(b) mixing the processed loess and quartz andesite with a weight ratio of 1: 3; And
(c) sintering the mixed raw materials at a temperature of 1250 degrees for 20 hours.
A method for manufacturing a walnut type pressure device.
The method according to claim 1,
The step (a)
(a1) concentrating the loess and quartz andesite;
(a2) grinding the beneficiated loess and quartz andesite;
(a3) sorting the yellow loess powder and the quartz insole rock powder of a predetermined size or less from the loess powder and the quartz insole rock powder produced in the step (a2); And
(a4) drying the selected loess powder.
A method for manufacturing a walnut type pressure device.
3. The method of claim 2,
The step (a2)
Characterized in that the mortar is pulverized so that the powder diameter of the loess and quartz andesite is 500 mesh or less.
A method for manufacturing a walnut type pressure device.
3. The method of claim 2,
The step (a4)
Lt; RTI ID = 0.0 &gt; 100-110 &lt; / RTI &gt;
A method for manufacturing a walnut type pressure device.
delete delete 5. Process according to any one of claims 1 to 4,
Walnut type pressure device.
8. The method of claim 7,
Characterized in that it has a diameter of 15 to 40 mm and a density of 0.4 to 0.8 g / ml.
Walnut type pressure device.
8. The method of claim 7,
Wherein a bending having a concave-convex structure along the outer surface is repeatedly formed.
Walnut type pressure device.

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