KR20220111053A - Method for manufacturing pearl ionized calcium - Google Patents

Abstract

The present invention relates to a method for producing pearl ionized calcium with improved human body absorption rate by using powdered pearl calcium. Calcium carbonate and pearl protein, which are components of pearls, are difficult to dissolve in water and dissolve only in very small amounts in the stomach, which is a strongly acidic atmosphere, so the calcium carbonate and pearl protein are difficult to be absorbed in the body, and calcium or conchiolin contained in pearls are difficult to be absorbed in the body as they are, so despite the excellent pharmacological action, desired effects are hard to obtain. However, the pearl ionized calcium of the present invention can increase the absorption of active ingredients and amplify the efficacy of pearls by increasing the efficiency of pearl ionization through a differentiated multiplexing aging (water solubility) process using licorice, dandelion, mixed vinegar, and the like. In addition, the pearl ionized calcium is harmless to the human body by performing multiple decontaminations (sterilization/disinfection) through a nano-processing process, a low-temperature plasma decontamination process, and a far-infrared ray decontamination process. The method comprises the steps of: (a) preparing a licorice extract and a dandelion extract; (b) first calcining pearl calcium; (c) performing a primary aging; (d) performing secondary calcining; (e) performing secondary aging; (f) performing primary decontamination using low-temperature plasma; (g) performing secondary decontamination using low-temperature plasma; (h) processing the product of step (g) into ultra-fine powder; and (i) performing tertiary decontamination of the product of step (h) using far-infrared rays.

Description

Method for manufacturing pearl ionized calcium

The present invention relates to a method for producing pearl ionized calcium, and more particularly, to a method for manufacturing pearl calcium in powder form into pearl ionized calcium with improved human body absorption.

Jinju has been widely used in oriental medicine since ancient times, and in China, it is a traditional medicine that has been used for about 2,000 years. It is also described in various literatures as the best beauty products and best nourishing health and health medicines, and historical scholars in Korea, China and Japan have used pearl powder to treat human diseases. Looking at the pharmacological effects of pearl powder described in Bonchogangmok (本草綱目), it acts to reduce fever, analgesia, blood lipids and blood sugar, etc. It is said to remove dead skin cells and regenerate dead cells in the skin. Also, according to the Shinnongbonchojing (新農本草經), when applied to the face, spots and freckles disappear, the skin becomes shiny, and when applied to the hands and feet, the skin becomes soft.

These pearls are solid substances produced inside oyster shells, and have a specific gravity of 2.238 to 2.750, a hardness of 4, and consist of 94% calcium carbonate and 6% organic matter. Most of the organic matter is occupied by conchiolin, known as an albuminoid. The conchiolin is a monomer having a molecular weight of 687.14 and a molecular formula of C 32 H 98 N 2 O 11 . It is a natural binding material that connects calcium carbonate in pearls with each other to form a pearl structure.

Among the components of pearls, those showing pharmacological action can be largely divided into calcium and conchiolin. Calcium is known to strengthen bones, lower blood pressure, and even have anti-cancer properties when ingested. In addition, when applied to the face or body, it can be used as a treatment for burns or as a hair growth promoter. Conchiolin is known to improve blood circulation and prevent skin aging when ingested into the body. In Japan and China, pearl powder (pearl calcium) sintered at high temperature is sold. In this case, only the pharmacological action of calcium is effective, and conchiolin components are all destroyed. none.

Calcium carbonate and pearl protein, which are components of pearls, are difficult to dissolve in water and are difficult to absorb in the body because they dissolve only in very small amounts even in the stomach, which is a strong acidic atmosphere. That is, calcium or conchiolin contained in pearls is difficult to be absorbed into the body in its state, so it is difficult to obtain a desired effect in spite of the excellent pharmacological action described above. In order to maximize this pharmacological action, research on converting useful components in pearls into water-soluble ionized powder form is required.

Laid-Open Patent Publication No. 10-2013-0106802 (2013.09.30.)

The present invention is to solve the problems of the prior art, the object of which is to provide a method for producing pearl calcium with improved human body absorption rate of pearl ionized calcium.

In order to achieve the above object, the method for producing pearl ionized calcium according to an aspect of the present invention comprises the steps of: (a) preparing a licorice extract and a pogongyeong (dandelion) extract; (b) first calcining pearl calcium; (c) mixing the licorice extract of step (a), the pogongyeong extract and water in a certain ratio to make a first mixed diluted extract, and mixing the pearl calcium, the result of step (b), with the first mixed diluted extract first aging; (d) pulverizing the pearl calcium (particles) of the resultant of step (c) and then performing secondary calcination; (e) mixing the pogongyeong extract of step (a) and water in a predetermined ratio to make a second mixed diluted extract, putting the resultant of step (d) into the second mixed diluted extract, and secondary aging; (f) after nano-processing the resultant of step (e), first detoxifying using low-temperature plasma; (g) put the resultant of step (f) in a mixed vinegar containing two or more of malic acid, micronic acid, lactic acid, citric acid, tartaric acid, and persimmon vinegar, aged for the third time, dried, and second decontamination using low-temperature plasma to do; (h) processing the resultant of step (g) into ultra-fine powder; and (i) tertiary detoxification of the result of step (h) using far-infrared rays.

In step (b), the first firing process may be performed at 150 to 180° C. for 3 to 5 hours.

In the step (c), the mixture of licorice extract and pogongyeong extract mixed in a weight ratio of 1:4-5 to water is mixed in a weight ratio of 0.1-0.2:0.8-0.9 to make the first mixed diluted extract, and the first mixed dilution The extract and pearl calcium, the result of step (b), may be mixed at a weight ratio of 1:1 and aged at 45 to 55° C. for 4 to 6 days.

The step (d) may be calcined at a low temperature for 1 to 3 days at 100° C. or less after pulverizing the pearl calcium 1,500 mesh.

In step (e), the pogongyeong extract and water are mixed in a weight ratio of 0.1-0.2:0.8-0.9 to make the second mixed diluted extract, and the first mixed diluted extract and the resultant of step (d) are mixed in a weight ratio of 1:1 It can be aged for 3-5 days at 60-70 ° C.

The step (f) can be nano-processed at 500 atmospheres, and detoxified with low-temperature plasma at 30-35° C. for 4 to 6 hours.

The step (g) is a mixture of the resultant of step (f), the vinegar mixture, and water in a weight ratio of 2:1:1, aged for 4 to 6 days, dried for 1 to 2 days (heat), and then dried at 30 to 35° C. It can be detoxified for 3 to 5 hours with low-temperature plasma of

In step (h), the resultant of step (g) may be processed into ultrafine powder using a ball mill.

In step (i), the result of step (h) may be irradiated with far-infrared rays for 8 hours or more.

As described above, according to various aspects of the present invention, it is possible to prepare and provide pearl ionized calcium with a maximized human absorption rate.

In other words, calcium carbonate and pearl protein, which are components of pearls, are difficult to dissolve in water, and because they dissolve only in very small amounts in the stomach, which is a strongly acidic atmosphere, it is difficult to be absorbed in the body. Although it is difficult to absorb and it is difficult to obtain the desired effect in spite of its excellent pharmacological action, the pearl ionized calcium of the present invention improves the pearl ionization efficiency through a differentiated multiplex aging (water solubility) process using licorice, pogongyeong (dandelion), mixed vinegar, etc. By increasing it, it is possible to increase the absorption of the active ingredient and amplify the efficacy of pearls, and it is harmless to the human body and harmless to the human body by performing multiple detoxification (sterilization/sterilization) through the nano-processing process, low-temperature plasma detoxification process, and far-infrared detoxification process. You can supplement the calcium deficiency in the human body by mixing it with a drink and taking it.

In addition, if water-soluble liquid calcium or powdered calcium is used as a fertilizer for agricultural product cultivation to grow agricultural products or fed to livestock animals and farmed fish for breeding and aquaculture, the calcium component is greatly improved. When used as agricultural fertilizer and cultivated, the weight and storability of agricultural products are improved, and the immune function of animals and plants is improved, thereby reducing the use of pesticides or antibiotics.

1 is a flowchart for a method for producing pearl ionized calcium according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail. In addition, when it is determined that a detailed description of a known configuration or function related to the embodiment of the present invention may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a flowchart of a method for producing pearl ionized calcium according to an embodiment of the present invention, which will be described step by step with reference to the same figure.

Step S11: Licorice / Pogongyeong Extraction

First, in step S11, a licorice extract and pogongyeong (dandelion) extract are prepared. Licorice liquid is extracted from the washed natural licorice and pogongyeong liquid is extracted from the washed natural pogongyeong, or the licorice extract and pogongyeong extract previously extracted in liquid form are used. may be In another embodiment, a hwangbaekpi extract may be used instead of a pogongyeong extract, or a pogongyoung extract and a hwangbaekpi extract may be mixed.

Step S12: Pearl calcium primary calcination

In step S12, the pearl calcium in the powder state is first fired (burning; baking). For example, if pearl calcium is placed in a specially manufactured calcination container and heat is applied to the container, calcination can be performed at about 150 to 180° C. for about 3 to 5 hours, and if the calcination temperature and time are out of the above range, the desired degree In particular, when the calcination temperature exceeds 200℃, pearl calcium in powder form burns and becomes ashes. Firing is preferably performed at 160° C. for about 4 hours.

Step S13: S11+S12 mixed primary aging

In step S13, the result of step S11 and the result of step S12 are mixed to form a thin dough like Sujebi dough and first aged. 1 to prepare a mixed diluted extract, and to perform the aging process by mixing pearl calcium, the result of step S12, with the first mixed diluted extract.

For example, to make a mixed extract of licorice extract and pogongyeong extract mixed in a weight ratio of 1:4-5, mix this mixed extract and water in a weight ratio of 0.1-0.2:0.8-0.9 to make the first mixed dilution extract described above , This first mixed diluted extract and calcined pearl calcium, which is the result of step S12, are mixed in a weight ratio of 1:1 and aged at about 45 to 55° C. for about 4 to 6 days. Preferably, it is aged at 50° C. for 5 days. The result of the process of step S13 is a thin dough state like Sujebi dough.

As another example of this step, make and use a mixed extract of licorice extract and Hwangbaekpi extract mixed at a weight ratio of 1:4 to 5, or make a mixture of Pogongyeong extract and Hwangbaekpi extract mixed at a weight ratio of 1:1 and with this mixture A mixed extract made by mixing the licorice extract in a weight ratio of 4 to 5:1 can be used.

Step S14: Grinding and secondary firing of the S13 result

Step S14 is a step of putting the result of step S13 in a thin dough state, such as Sujebi dough, into a ball mill, crushing pearl calcium particles, and then placing it in a specially prepared firing container and applying heat to the container to perform secondary firing.

For example, in step S14, pearl calcium in a thin dough state is put into a calcination container that is pulverized with about 1,500 mesh through a ball mill, and then at about 100 ° C. Below, the low-temperature heat treatment can be fired for about 1 to 3 days. Preferably, it bakes at 90 degreeC for 2 days. The result of the process of step S14 is a dried lump state.

Step S15: Secondary ripening of S11 (pogongyeong extract) + S14 result mixed

In step S15, the result of step S14 in a lump state is immersed in the dilution of the pogongyeong extract among the results of step S11, and the result of step S14 is secondarily aged. , and put the resultant mass of step S14 into this second mixed diluted extract and perform the aging process.

For example, in step S15, the pogongyeong extract of step S11 and water are mixed in a weight ratio of 0.1-0.2:0.8-0.9 to make a second mixed diluted extract, and the second mixed diluted extract and the resultant of step S14 are mixed in a weight ratio of 1:1 It can be aged for about 3 to 5 days at about 50 to 70 ° C. Preferably, it is aged at 60° C. for 4 days. The result of the process of step S15 is a thin dough state.

Step S16: S15 Result 1st Admiral

In step S16, the result of S15 is nano-processed and first detoxified using low-temperature plasma. For example, nano-processed at about 400 to 600 atmospheres and detoxified with low-temperature plasma at about 20 to 40 ° C. for 4 to 6 hours. can do. Preferably, it is nano-processed at 500 atmospheres and detoxified with low-temperature plasma at 30° C. for 5 hours. The result of the process of step S16 is slightly less thin than that of step S15.

Step S17: S16 Result + Mixed Vinegar Mix 3rd Aging/Drying/Second Admiration

Step S17 is to make a mixed vinegar in which at least two of malic acid, micronic acid, lactic acid, citric acid, tartaric acid, and persimmon vinegar are mixed, add the result of step S16 to the mixed vinegar, mix and ripen for the third time, and after drying for a certain time , as a process of secondary detoxification using low-temperature plasma, for example, a mixture of malic acid, micronic acid, lactic acid, citric acid, tartaric acid, and persimmon vinegar, water in a weight ratio of 1:1:1:1:1:1 , and the resultant of step S16 is mixed at a weight ratio of 1:1:2, aged for about 4-6 days, heat-dried for about 1-2 days, and then for about 3-5 hours with low-temperature plasma at about 20-40°C can be read Preferably, it is aged for 5 days, dried by heat for 1 day, and then detoxified with low-temperature plasma at 50° C. for 4 hours. The result of the process of step S17 is a dried lump state.

Step S18: Processing the resultant S17 into ultra-fine powder

Step S18 is a step for processing the lump product of step S17 into ultra-fine powder, for example, processing the lump product of step S17 into ultra-fine powder using a ball mill. The result of the step S18 is pearl ionized calcium in an ultra-fine powder state.

Step S19: 3rd Admiral of S18 Results

Step S19 is a step of tertiary detoxification of the result of step S18 using far-infrared rays. The result of step S18, ultra-fine powder of pearl ionized calcium, is irradiated with far-infrared rays for more than 8 hours to finally detoxify.

In the above-described process of the present invention, the primary aging process of step S13, the secondary aging process of step S15, and the tertiary aging process of step S17 are processes for improving the water solubility of pearl calcium by increasing the ionization efficiency of pearl calcium ( Inorganic) is a process to dissolve well in water through the ionization process by the aforementioned 1st to 3rd multiple aging, etc., and by going through these multiple ionization (water solubility) processes, the absorption power of the active ingredient is increased and the loss is minimized. do. That is, by going through the multi-ionization (water solubility) process of pearl powder, the absorption power of active ingredients such as calcium and minerals contained in pearls is increased and loss is minimized.

In addition, in the above-described process of the present invention, the sterilization/sterilization efficiency is maximized by performing multiple decontamination processes through the nano-processing and low-temperature plasma detoxification process of step S16, the low-temperature plasma decontamination process of step S17, and the far-infrared decontamination process of step S19. did.

When the pearl ionized calcium of the present invention is ingested in the form of water-soluble liquid calcium or powder, the absorption rate of the human body is high, so it can help osteoporosis by supplementing the insufficient calcium. When fed and reared, the calcium component is greatly improved, and especially in the case of eggs, the egg shell is strengthened to ensure stability. The use of antibiotics can be reduced.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

S11: licorice/pogongyeong extraction step
S12: Pearl calcium primary firing step
S13: S11+S12 mixed primary aging stage
S14: S13 Result Grinding and Second Firing Step
S15: S11 (pogongyeong extract) + S14 result mixed secondary ripening step
S16: S15 Result 1st Admiral Stage
S17: S16 result + mixed vinegar mixed 3rd ripening/drying/2nd decontamination step
S18: Ultra-fine powder processing step of S17 result
S19: 3rd Admiral Stage of S18 Output

Claims (7)

(a) preparing a licorice extract and pogongyeong (dandelion) extract;
(b) first calcining pearl calcium;
(c) mixing the licorice extract of step (a), the pogongyeong extract and water in a certain ratio to make a first mixed diluted extract, and mixing the pearl calcium, the result of step (b), with the first mixed diluted extract first aging;
(d) pulverizing the pearl calcium (particles) of the resultant of step (c) and then performing secondary calcination;
(e) mixing the pogongyeong extract of step (a) and water in a predetermined ratio to make a second mixed diluted extract, and putting the resultant of step (d) into the second mixed diluted extract, followed by secondary aging;
(f) after nano-processing the resultant of step (e), first detoxifying using low-temperature plasma;
(g) put the resultant of step (f) in a mixed vinegar containing two or more of malic acid, micronic acid, lactic acid, citric acid, tartaric acid, and persimmon vinegar, aged for the third time, dried, and second decontamination using low-temperature plasma to do;
(h) processing the resultant of step (g) into ultrafine powder; and
(i) tertiary detoxification of the result of step (h) using far-infrared rays;
A method for producing pearl ionized calcium comprising a rule. The method of claim 1,
The step (b) is a method of producing pearl ionized calcium, characterized in that performing the first calcination process at 150 ~ 180 ℃ for 3 ~ 5 hours. According to claim 1,
In step (c), a mixture of licorice extract and pogongyeong extract mixed at a weight ratio of 1:4-5 to water is mixed at a weight ratio of 0.1-0.2:0.8-0.9 to make the first mixed diluted extract, and the first mixed dilution A method for producing pearl ionized calcium, characterized in that the extract and pearl calcium resulting from step (b) are mixed at a weight ratio of 1:1 and aged at 45 to 55° C. for 4 to 6 days. According to claim 1,
The step (d) is a method for producing pearl ionized calcium, characterized in that the pearl calcium is pulverized with 1,500 mesh and then calcined at a low temperature at 100° C. or less for 1 to 3 days. According to claim 1,
In step (e), the pogongyeong extract and water are mixed in a weight ratio of 0.1-0.2:0.8-0.9 to make the second mixed diluted extract, and the first mixed diluted extract and the resultant of step (d) are mixed in a weight ratio of 1:1 A method of producing pearl ionized calcium, characterized in that it is mixed with a mixture and aged at 60-70° C. for 3-5 days. According to claim 1,
The step (f) is a manufacturing method of pearl ionized calcium, characterized in that nano-processing at 500 atmospheres, and detoxifying with low-temperature plasma at 30-35° C. for 4 to 6 hours. According to claim 1,
The step (g) is a mixture of the resultant of step (f), the vinegar mixture, and water in a weight ratio of 2:1:1, aged for 4 to 6 days, dried for 1 to 2 days (heat), and then dried at 30 to 35° C. 3 to 5 hours of detoxification with low-temperature plasma of A method for producing calcium.

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