KR101170471B1 - manufacturing method of chlorophyll for extracting and concentrating good component from natural plant - Google Patents

Abstract

The present application does not destroy / damage the effective nutrients of chlorophyll from chlorophyll-containing plants, such as mulberry leaves, dandelion leaves, pine needles, thorny stems, countertops, wild thistle, thistle, kelp, persimmon, and gompi, which are chlorophyll-containing plants. The present invention seeks to provide chlorophyll by safely extracting and concentrating under mild conditions in a mild condition, and collecting chlorophyll-containing plants, drying them in airy shades, and grinding them into powder particles having a size of 200 to 300 mesh. Stage 1; Passing purified water through a ceramic ball or an ocher ball filtration layer to obtain active water obtained by converting a ¹⁷ O nuclear magnetic resonance spectral half width value using an NMR Spectrometer to 70 Hz or less; Mix the active water and ethyl alcohol obtained in the second step, but make a mixed solution in the ratio of active water 3 ± 1: ethyl alcohol 7 ± 1 and inject the plant powder obtained in the first step, low-speed / intermittent stirring conditions, 10 ~ Extracting chlorophyll in a 24-hour range; A fourth step of aging the chlorophyll extract obtained in the third step in the range of 1 ± 2 days in the range of 18 ± 2 ° C .; After the aging process of the fourth step is completed, gradually increase the temperature of the concentration tank under vacuum conditions, and first adjust the vacuum degree in the range of 33 ~ 35 ℃ to evaporate ethyl alcohol first, and then gradually increase the temperature of the concentration tank to 38 ~ 40 ℃ range A fifth step of obtaining a chlorophyll concentrate having a concentration of 80 to 90% by removing the residual water by raising the temperature; The technical idea of obtaining chlorophyll is disclosed.

Description

Manufacturing method of chlorophyll for extracting and concentrating good component from natural plant}

The present application efficiently extracts and concentrates chlorophyll, an active ingredient, from chlorophyll-containing plants such as mulberry leaves, dandelion leaves, pine needles, thorny stems, countertops (mountain porridge), mistletoe, thistles, kelp, persimmon, gompi, etc. It relates to a production method obtained.

Chlorophyll, also called chlorophyll, is present along with carotene, lutein, and xanthophyll in the chloroplast substrate of the plant's green leaf cells. Chlorophyll has the effect of promoting recovery of skin diseases, burns, and preventing odors. As it turns out, many attempts have been made to process chlorophyll ingredients into beverages, powders or tablets and provide them as pharmaceuticals or health foods.

However, chlorophyll is contained in the chlorophyll grana, which binds to the proteins that make up the grana, and is insoluble in water and soluble in organic solvents such as alcohol, ether, benzene, and chloroform. In the method, the leaves or stems of the plant containing chlorophyll are washed, and finely cut and shredded using a mechanical shredding means such as a mixer or juicer, if necessary. Squeezed to get the extract, but this method had a problem that can not extract a lot of chlorophyll.

In addition, chlorophyll, which is present in the cell walls and cell membranes of plants, has a property that the chemical structure of chlorophyll (chlorophyll nucleus) itself is easy to bind with various substances, so that chlorophyll becomes unstable when extracted from cell walls and cell membranes. Therefore, chlorophyll is likely to cause molecular denaturation, for example, by oxygen, heat, solvents, etc. in the air, and as a result, it produces derivatives which are very similar in molecular structure, thereby maintaining the freshness and leading the product without damaging the active ingredient of chlorophyll. It has an extremely difficult problem.

In the meantime, many studies have been conducted to apply the chlorophyll active ingredient to human health maintenance, and since the research report that chlorophyll is also involved in the metabolism of cholesterol in the human body, in Japan, "chlorella" Chlorophyll-related dietary supplements have been developed to be effective in gastrointestinal diseases, diabetes mellitus, acne, blemishes, freckles, chronic anemia, hypertension, stroke, hepatitis, cirrhosis, etc. The development of "chlorella" -related health supplements is being researched and attempted in Daesang and Semo Co., Ltd.

Although chlorophyll has various beneficial pharmacological effects as described above, the chlorophyll component is extremely sensitive to light and heat, so the nutrients of chlorophyll are easily destroyed, and the active ingredient of chlorophyll is not easily dissolved in water. The process to extract using has been applied.

Looking at the prior art presented with a means for extracting the active ingredient of chlorophyll, Patent No. 0629927 discloses a raw material mainly composed of silkworms (silk), sonicated and dissolved in volatile ethanol to include chlorophyll An extraction step of extracting the chlorophyll-containing material containing an oil and fat component and a protein, a separation step of separating the residue from the liquid treated by the extraction step, followed by evaporation of ethanol to separate the chlorophyll-containing material, and A method of obtaining a chlorophyll-containing beverage comprising a process of mixing chlorophyll-containing content with clean water and performing an ultrasonic emulsification process is proposed.

However, the process is carried out by the intense ultrasonic treatment in extracting the chlorophyll active ingredient using ethanol, an organic solvent, and the impact of the nutrients of chlorophyll which is extremely sensitive to light or heat is destroyed by the impact, in terms of achieving the economic purpose There was a problem of not being an effective adaptation method.

In addition, in the technique of Patent No. 0811680, a freeze-drying method of mulberry leaves is proposed, by using a freeze-drying method of sublimating ice with gas in a rapidly frozen state of mulberry leaves to prevent the destruction of chlorophyll component of dried mulberry leaves of high quality. As a means for obtaining a chlorophyll raw material, taking the leaves from the mulberry (Morus) and washing with clean water; Natural drying step of removing the moisture by naturally drying the washed mulberry leaves in the shade; Placing the naturally dried mulberry leaves in a flat bottom container; Adding a container containing mulberry leaves to a freezing chamber maintained at a temperature of -35 to -45 ° C to rapidly freeze for 23 to 25 hours; Decompression step of freezing completed mulberry leaf with a container to a freeze drying chamber and put on a cold plate equipped with a multi-stage and reduced pressure for 50 to 70 minutes to maintain 0.3 ~ 0.2 Torr vacuum of the pressure chamber; The heat medium was circulated through the heat dissipation pipe built into the cold plate of the freeze drying chamber, and the hot plate was 9 to 10 hours at 80 ° C, 9 to 10 hours at 70 ° C, 4 to 5 hours at 65 ° C, and 60 ° C. Drying at temperature for 3-4 hours; Stop supply of the heat medium circulating the cold plate of the freeze-drying chamber, and circulate the refrigerant in the cooling pipe built in the cold plate to cool the hot plate 50 ~ 70 minutes while maintaining the temperature of -30 ~ -35 ℃ ; Mulberry leaf freeze-drying method comprising the step of taking out the cooling mulberry leaves from the freeze-drying chamber and packaging.

 However, even if the intermediate process of obtaining the mulberry leaves in the state that the effective nutrients are not destroyed by performing the freeze-drying process by the above method has been achieved, the processing step until obtaining a liquid extract of the water-soluble chlorophyll is not presented for convenient food drinking.

Therefore, the present application relates to a technical field to obtain a high concentration of chlorophyll by extracting / concentrating an effective chlorophyll active ingredient under mild conditions in which the active nutrient of chlorophyll which is extremely sensitive to light or heat is not destroyed.

The present application does not destroy / damage the effective nutrients of chlorophyll from chlorophyll-containing plants such as mulberry leaves, dandelion leaves, pine needles, thorny stems, countertops, wild thistle, thistle, kelp, persimmon, gompi, etc. It is an invention that has been started with the problem of providing chlorophyll with economical utility value by safely extracting and concentrating under mild conditions without a mild condition.

The present application is a means for extracting the chlorophyll active ingredient in a safe condition under mild conditions without destroying the effective nutrients of chlorophyll which are extremely sensitive to light or heat, and in certain conditions using a mixed composition of ethyl alcohol and active water. It is an object of the present invention to provide a method for extracting chlorophyll from a plant containing and concentrating it and then evaporating alcohol and water under vacuum conditions to obtain a high concentration of chlorophyll.

The present application is a method for obtaining chlorophyll by extracting and concentrating the chlorophyll component from chlorophyll-containing plants to an effective concentration as a means for achieving the above object, as a plant containing chlorophyll, mulberry leaves, dandelion leaves, pine needles, thorny stems, kitchen counter (mountain porridge) Chlorophyll-containing plants such as), mistletoe, thistle, kelp, persimmon, gompi, etc. are collected, dried in airy shades and ground to prepare raw materials through the first step of obtaining powder particles of 200 ~ 300 mesh size. do.

In addition, in order to extract the chlorophyll active ingredient under mild conditions from the chlorophyll-containing powder particles made in the first step, ethyl alcohol and active water are used, but the active water has a half width of ¹⁷ O nuclear magnetic resonance spectrum at 70 Hz or less. can be obtained a desired effect only by using the number of conversion activity, in the second step by a means for obtaining the number of the active, pure integer (淨水) passes through the ceramic balls or ball ocher filtration layer ¹⁷ O using a NMR Spectrometer A second step is needed to obtain active water with a nuclear magnetic resonance spectral half-width converted to 70 Hz or less.

The water molecule H ₂ O cannot exist as a single molecule and is bound to each other by an electrical force acting between the water molecules to maintain a hydrogen bond state, and is formed in several groups, which are usually clusters or clusters of water. It is called Cluster, and it is decided that water is delicious or tasteless depending on the size of the cluster. When the size of the cluster is small, the water feels better than when the size of the cluster is large. It is provided as active water with various characteristics.

The cluster of water is not kept constant by hydrogen bonds, but it is usually 1x10 ^-12 (one peak second) or one trillion seconds, depending on the degree of energy absorption or relaxation. It is known that the reconstruction and disassembly of the cluster structure continues, and the fact that the cluster of water has a large cluster structure or a small cluster structure on an average, is an important factor.

In other words, when the energy is sensitized to water, the nucleus of the water in a stable state absorbs energy and is excited at a high energy level. The phenomenon of absorbing energy is called resonance, and in the resonance phenomenon, the nucleus has a low energy level. While the energy absorbs energy from the state and rises to a high energy level, the water molecules undergo vibration, rotation, stretching or micro brown movement, and the energy from the vibration, rotation, stretching or micro brown movement of these water molecules. The energy absorbed by the nucleus is extremely weak, so the water nucleus in the resonance state is transferred to the vibration, rotation, stretching, or micro-brown movement of water molecules, which is called relaxation of energy. Mitigation is always happening.

The relaxation of energy in water can be visually confirmed by measuring changes in line width using nuclear magnetic resonance or nuclear magnetic resonance spectroscopy (NMR), which is the absorption time of nuclear magnetic resonance spectroscopy (NMR). As a signal to receive energy, a narrow half-width measurement in the NMR spectrum indicates a long relaxation time, a wide half-width measurement indicates a short relaxation time, and a long relaxation time indicates that the movement of water molecules Fast means wider half-width measurements mean slower motion of water molecules.

In general, there may be some deviations depending on the sampling position and the object of water, but for example, the half-width measurement of the ¹⁷ 0 nuclear magnetic resonance spectrum of rainwater is about 119 Hz, the tap water is about 117 Hz, and the minerals of Japan's world's longest village The hot spring water is known to be 79 Hz, and human serum has been reported to represent about 140 Hz. As the hot spring water in the world's longest village, which has a narrow half-width measurement, has a short half-width, the relaxation time is long and the movement of water molecules is actively performed. On the other hand, the hot spring water, which has a small cluster structure and contains a large amount of minerals, can be expected to contribute to long life because the micro-ions, calcium, and magnesium contained in the water molecules are metal ionized to activate the living body. The wide range of tap water, rainwater, and human serum have short half-times, so the relaxation time is short. It is predicted that the movement of water molecules is not active and thus has a large cluster structure, and the trace metals contained in water molecules are not ionized and thus do not give activity to the living body.

In the present application, as a means for dissolving chlorophyll insoluble in pure water, an attempt was made to dissolve chlorophyll by itself by making an active water having a small half-width measurement of the nuclear magnetic resonance spectrum as described above, but not dissolved, but a mixed solution of ethyl alcohol and active water. In the invention is confirmed to be dissolved in mild (mild) conditions.

Therefore, the mixture of the active water and ethyl alcohol obtained in the second step, but the mixture of active water 3 ± 1: ethyl alcohol 7 ± 1 ratio and the plant powder obtained in the first step by injecting low-speed / intermittent stirring conditions, 10 The third step of extracting chlorophyll in the range of ~ 24 hours is carried out, the mixing ratio of ethyl alcohol and active water is the ratio of ethyl alcohol: active water in the volume ratio of 9: 1 to 1: 9 can be used. However, as a result of experiments through numerous trial and error methods, the volume ratio of ethyl alcohol and active water was obtained at the highest ratio of 7: 3, and the volume ratio of ethyl alcohol and active water was 6: 4 but the volume ratio of ethyl alcohol and active water was A close extraction was obtained even at a mixing ratio of 8: 2.

The chlorophyll extract obtained in the third step process is carried out to stabilize the chlorophyll active ingredient under mild conditions in a range of 1 ~ 2 days in 18 ± 2 ℃ range to perform a fourth step of aging.

After the aging process of the fourth step is completed, gradually increase the temperature of the concentration tank under vacuum conditions, and first adjust the vacuum degree in the range of 33 ~ 35 ℃ to evaporate ethyl alcohol first, and then gradually increase the temperature of the concentration tank to 38 ~ 40 ℃ range A fifth step is performed to remove the residual water by raising the temperature to obtain chlorophyll concentrates with chlorophyll concentrations of 80-90%, safely under mild conditions where the effective nutrients of chlorophyll are not destroyed / damaged. It is an invention of the technical idea to extract and concentrate chlorophyll to obtain high concentration of chlorophyll having economical utility value.

The technical idea is to extract chlorophyll with a mixed solution of the active water and ethyl alcohol obtained in the second step, and then adjust the vacuum degree in the extraction reaction tank to first evaporate the ethyl alcohol component and to apply the method in which the fourth step process is performed. This may be more preferable, the active water used in the third step is preferably used in the pH 7.5 to pH 8.5, that is, the active water provided in the pH range of 8 ± 0.5, and the low-speed stirring conditions in the third step It is in the range of 50-200 rpm, and the intermittent agitation condition includes the technical idea of obtaining the desired chlorophyll in the present application when the stirring stop is provided after the 30-60 minute stirring stop is repeated.

Therefore, the present application is to obtain a chlorophyll concentrate obtained from natural plants, the preparation process 1 to obtain powder particles of 200 ~ 300 mesh size by collecting the chlorophyll-containing plants, drying and pulverizing, and the ceramic ball or ocher ball Passing through the filtration layer to prepare an active water obtained by converting the ¹⁷ O nuclear magnetic resonance spectrum half-width value of 70Hz or less using an NMR Spectrometer, and mixing the active water and ethyl alcohol, active water 3 ± 1: ethyl alcohol 7 After preparing the mixed solution at the rate of ± 1 and injecting the powder particles obtained in Preparation Step 1, extracting the chlorophyll and aging in the range of 18 ± 2 ℃ for 1 ~ 2 days, and adjusting the vacuum degree in the concentration tank, it is 33 ~ 35 ℃ Ethyl alcohol is evaporated at, and the remaining alcohol and water to control the degree of vacuum to remove the chlorophyll concentration with a concentration of 80 to 90% by removing the range from 38 to 40 ℃ characterized by technical features.

The present invention provides effective nutrition of chlorophyll under mild conditions from chlorophyll-containing plants such as mulberry leaves, dandelion leaves, pine needles, thorny stems, countertops, thistles, kelp, persimmons, gompi, etc., which are chlorophyll-containing plants. The chlorophyll is safely extracted and concentrated in a state where the components are not destroyed / damaged, thereby providing a manufacturing method for obtaining chlorophyll having economical utility value.

In addition, chlorophyll has been developed as a dietary supplement or medicine for gastrointestinal diseases, diabetes, acne, blemishes, freckles, chronic anemia, high blood pressure, stroke, hepatitis, cirrhosis, etc. It has the effect of providing it cheaply so that it can be used.

1: A manufacturing process chart from the chlorophyll containing plant to obtaining the target chlorophyll.
2 is a schematic diagram of a unit activated water device for obtaining active water used to extract chlorophyll in the present application.
FIG. 3 is a schematic view of an active water group having a configuration in which a plurality of unit active water groups of FIG. 2 are connected. FIG.
Figure 4: Overview of the device is a vacuum concentration in the concentration tank of the present application.

Prior to presenting the embodiments of the invention for realizing the technical idea of the present application, the terms or words used in the specification or claims of the present application should not be construed as being limited to the ordinary or dictionary meanings, The scope of protection should be construed as meanings and concepts corresponding to the technical spirit of the present invention, the use examples presented in this specification or drawings are merely a description of a preferred embodiment of the present invention and represent all the technical ideas of the present application. It is to be understood that there may be various equivalents and variations in place of them at the time of the present application.

In addition, embodiments of the drawings presented below in the technical concept of the present invention shows a manufacturing process from the chlorophyll-containing plant in Figure 1 to obtain the target chlorophyll in Figure 1, Figure 2 shows the active water used to extract chlorophyll in the present application Figure 3 shows an overview of a unit activated water device for obtaining, and Figure 3 shows a schematic view of an active water group obtained by connecting a plurality of unit active water groups of Figure 2 to obtain the active water used in the present application, Figure 4 is a vacuum concentration in the concentration tank of the present application Device outline is shown but this is merely presented to easily explain one application example for implementing the technical idea of the present application, and it is understood that the technical idea of the present application is not dependent on the drawings presented herein. In addition to the proposed composition, existing food processing processes Is added to the facility and the control system used in the process or apparatus is natural that will be applied to satisfy the safety standards of the food.

Figure 1 shows a manufacturing process from the chlorophyll-containing plant to the final target to obtain a high concentration of chlorophyll, summarized the manufacturing process according to an embodiment of the present application, chlorophyll-containing plant mulberry leaves, dandelion leaves, Raw materials selected from chlorophyll-containing plants, such as pine needles, thorny ginseng, countertops, mistletoe, thistle, kelp, persimmon, gompi, etc. are collected and dried in airy shades and pulverized into powder particles of 200 ~ 300 mesh size. And stored in the raw material storage tank 10, the ethyl alcohol storage tank 20 and the active water storage tank (30 ') in the extractor having an agitator in the extraction reaction tank (40) ethyl alcohol 7 ± 1: 3 ± 1 ratio of active water. Make a mixed solution and slowly dissolve it in a clockwise direction at a speed of 100 to 120 rpm. A solvent amount of the bar, can be activated with ethanol is a solvent can be used in an amount of 5 to 10 times the weight of the solute is water chlorophyll-containing plant pulverized.

The active water used in the extraction process of the present invention uses weakly alkaline water provided with a half-width measurement of the nuclear magnetic resonance spectrum of less than 70 Hz and a pH of 7.5 to 8.5, and it did not dissolve chlorophyll by itself. In the mixed solution of alcohol and active water 5: 5, it was confirmed that chlorophyll was dissolved even under mild conditions. Preferably, the active water and ethyl alcohol were mixed, but the active water 3 ± 1: ethyl alcohol 7 ± 1 ratio. The invention was completed by making a mixed solution and injecting the plant powder obtained in the first step to extract chlorophyll in a low / intermittent stirring condition, in the range of 10 to 24 hours, as the most desirable means.

At this time, depending on the use of chlorophyll, for example, for the purpose of preventing and treating diabetes and solid pressure, chlorophyll-containing plant raw material mulberry leaf powder 49%, pine needle powder 10%, mountain bamboo powder 10%, mistletoe 15%, thistle powder 15 It is also possible to obtain the extract by dissolving in the order of% jujube root 1%.

In addition, after the extraction process is completed, the temperature is gradually increased by using an extraction reaction tank provided as a vacuum evaporator, and the vacuum degree is controlled in the range below 40 ° C. to evaporate about 70 to 80% of the amount of ethyl alcohol first, thereby reducing the contents to about 1/2. After reducing, the contents are sent to a centrifugal injector (50) to separate and remove the residue. The filtrate is sent to a maturation tank (60) to mature in a range of about 1 to 2 days in a range of about 18 ± 2 ℃ and stabilize the chlorophyll. Is performed.

The chlorophyll provided herein has a temperature of 45 ° C. or higher, so deterioration is likely to occur and deformed into an unstable structure. Distillation conditions should be distilled under vacuum so that the temperature does not reach 45 ° C. or higher. In the classification process, the chlorophyll component in most chlorophyll-containing plant raw materials is considered to be dissolved and extracted in a mixed solvent of ethyl alcohol and active water, but residues other than chlorophyll remain depending on the characteristics of the plant raw materials used. It is a process for.

After completion of the aging process is sent to the concentration tank 70 in a vacuum condition to gradually increase the temperature first to adjust the degree of vacuum in the 33 ~ 35 ℃ range to evaporate the ethyl alcohol first, then gradually increase the temperature of the concentration tank 38 ~ 40 ℃ range By raising the temperature to remove the residual water to obtain a chlorophyll concentrate having a concentration of chlorophyll 80 ~ 90%.

Figure 2 shows an example of the application of the device for obtaining the active water used to extract chlorophyll in the present application, the active water production apparatus shown in Figure 2 is invented by Professor Baek Woo-hyun, one of the inventors of the present invention separately from the present application As an invention, the mixture of ocher powder 70 ± 15w%, oyster shell small powder 20 ± 10w%, sawdust 10 ± 5w% while adding a suitable amount of water and mixing the dough to the degree of slight viscosity is felt about 3-20 mm in diameter It is naturally dried by molding into a ball shape, and the molded ball is first dried / fired at 450 ° C.-550 ° C. for 10-12 hours, and the first calcined ocher ball is secondarily baked at 1000 ° C.-1300 ° C. as a technique using loess ball obtained, far-infrared radiation characteristic in the characteristic evaluation of the loess ball was able to obtain the results shown in Table 1, Table 2 was obtained by pH measurements, ¹⁷ O property test results using NMR Spectrometer Table 3 were obtained.

Name of sample Emissivity
(5-20 μm) Radiant energy
(w / ㎡㎛) Test Methods Remarks
Ocher ball
0.918 3.70 x 10 ² KICM
-FIR-1005 Center wavelength
9.3 μm

sample pH value measuring equipment tap water 7.02 TOA Electronic
HM-149 pH meter  Ocher ball pass 8.01

time
sample 19 minutes 50 seconds 39 minutes 4 seconds measuring equipment tap water 105.4490 Hz 105.3360 Hz Varian's Unit Plus
300NMR Spectrometer  Ocher ball pass 52.1261 Hz 53.9217 Hz

The present application is a technique for dissolving chlorophyll by using a mixed solvent in which the half-width measurement of the ¹⁷ 0 nuclear magnetic resonance spectrum is provided below 70 Hz using the ocher ball having the above physical properties and mixed with ethyl alcohol. As a matter of fact, one application example of an apparatus for producing activated water, which can preferably embody the technical idea of the present invention, will be described with reference to FIG. 2. FIG. 2 shows a unit activated water group, and FIG. 3 shows a unit activated water group. A plurality of groups are connected in parallel to obtain an active water of a desired concentration.

Figure 2 is intended to show an embodiment in which the active water group (30) available herein can be provided in an upflow flow structure in a simple configuration having two ocher ball media layers in the upper housing and a filter in the lower housing. It may be provided in a simple configuration having the ocher ball filter layer 1 (31) and the ocher ball filter layer 2 (32) at the top and the filter unit 33 at the bottom, and the purified water as the active water inlet 34 (淨) Water is introduced and foreign matter or suspended matter is first filtered through the filter unit 33, and then the water passing through the ocher ball filter layer 2 (32) is guided to flow through the ocher ball filter layer 1 (31) again and the inflow water is yellow soil. Staying in the ball bed for a predetermined time or more may be provided as a system that is converted into active water and discharged through the upper outlet 35, the filter unit 33 provided at the bottom to function to block the inflow of suspended matter, the central portion Furnace blockage structure (33a), It is dispersed to the side and does not flow to the side to form a structure that is filtered through the filter medium (33b), and in order to increase the durability of the filter medium (23b) has a porous stainless steel plate wick (33c) in the center of the filter medium and the upper and lower outer surfaces of the wick portion The filter material 33b may be provided in a structure wrapped, and the inflow water passing through the filter part 33 passes through the ocher ball filter layer 2 (32), and the ocher ball filter layer 2 (32) is the filter support portion 32a. Water flows into the central part of the inlet is guided to flow through the plurality of partitions (32b) filled with ocher balls, the plurality of partitions (32b) is one of the upper passageway (32c), the other side of the lower passageway It is provided to have (32d) alternately and the ocher ball is filled between the partition walls so that the introduced water does not flow through only one ocher ball, but the ocher ball media layer 1 (31) through the ocher balls filled between the entire partition walls. Will be sent to In order to induce the flow in the zigzag form, the first layer 31 may be blocked by the center of the media support part 31a, and the inflow water may enter the outside of the outer partition 32b to pass the zigzag flow through the plurality of partition walls 31b filled with ocher balls. achieve the partition wall (31b) of this part, in part, is provided so as to have a lower cylindrical sewer (31d) of the inlet water to the upper barrel sewer (31c), the other side to one side is sufficiently in contact with the loess ball ¹⁷ 0 nuclear magnetic half-width of the resonance spectrum value Converted into active water provided in the range of less than 70 Hz can be provided as a unit active water to be discharged through the upper outlet 35 through the central discharge hole (31e), the ocher ball media layer 1 constituting the upper housing (31) ) Or ocher ball media layer 2 (32) and the lower housing enclosing the filter 33 is a watertight structure of the O-ring (36) or other sealing material while the bolting (37) is fastened or a male and female coupling structure between the upper and lower housings. It is preferably provided to have a configuration to have the upper housing and the lower housing if necessary to be separated to replace the media or to clean, the drain housing for discharging tailings that do not pass through the filter layer to one side of the lower housing ( 36 shows an application in which the unit active water group can be provided in the configuration having.

Figure 3 shows an example in which the unit active water of Figure 2 can be installed in a plurality of parallel structure, the half width of the spectrum presented as a standard of conversion to the active water in the present application is the size capacity and water supply flow rate of the manufacturing apparatus For example, when the half width value of the ¹⁷ 0 nuclear magnetic resonance spectrum is designed to obtain 200 L of active water per day in the 70 Hz range using the Jijangsoo manufacturing apparatus of the present application, FIG. The purpose of the present application can be achieved by making a plurality of unit active water groups having the same size as the unit active water group having an inner diameter of 30 cm and the ocher ball having a filling height of 60 cm and connecting them in parallel to each other. The half-width of the spectrum of the water which passed through the 1st manufacturing apparatus 30a was 88 Hz, The half-width of the spectrum of the water which passed through the 2nd manufacturing apparatus 30b was 78 Hz, The half-width of the spectrum of water which passed the 3rd manufacturing apparatus 30c was 72 Hz, 4th Device half width of the spectrum of water passed through the (30d) value shows the experimental example, which may be provided to 68 Hz.

In FIG. 4, an exemplary embodiment of the thickening tank 70 used to obtain a high concentration of chlorophyll after extraction / maturation of chlorophyll in the present application is intended. The thickening tank 70 has an elliptical structure with a lower bottom surface. A lower stirring blade (72a) and an intermediate stirring blade (72b) provided with a motor (73) attached with a reducer and stirring blades to stir the contents of the thickening tank and the stirring blades to have a curved structure along the bottom surface. It has a double jacket portion 74 to form a heating unit wrapped around the lower body 71 of the thickening tank and the double jacket is provided to heat the thickening tank is built-in hot water coil or built-in hot plate and gradually increase the temperature of the thickening tank 33 ~ 35 ℃ Ethyl alcohol is first evaporated by adjusting the degree of vacuum in the range, and the temperature of the concentration tank is gradually increased again to raise the temperature to the range of 38-40 ° C. to remove residual water to remove chlorophyll. 4, the vacuum distillation process is carried out through FIG. 4. The vacuum pump 81 is used to lower the pressure in the concentration tank 70 to a low vacuum state and to reduce the temperature of the contents of the concentration tank. When gradually raised, first, the degree of vacuum is controlled at 35 ° C. to evaporate the ethyl alcohol first, and the evaporated alcohol component is cooled and liquefied by the condenser 82, and the ethyl alcohol distillate is stored in the first tank 83, and primarily the alcohol component. When the temperature of the evaporated contents is gradually increased to increase the temperature to a range of 40 ° C. to adjust the degree of vacuum, a mixture of the remaining alcohol component and water may be cooled and liquefied by the condenser 82 to be stored in the second tank 84. Dispensing to the first tank (83) and the second tank (84) is initially opened through the valve of the pipe connected to the condenser 82 at the top of each tank, the upper valve of the first tank (83) is opened and the second Top valve of tank 84 Closed and the alcohol liquid is stored only in the first tank 83, and when the initial alcohol liquid distillation is finished, the upper valve of the first tank 83 is closed and the valve of the upper end of the second tank 84 is opened to It is shown that the mixture of water can be applied to the system stored in the second tank 84, the alcohol of the first tank is reused, the alcohol and water of the second tank is the first purification filter 85 and the second purification filter Application example shows that it can be used or discarded for other purposes through (86).

The present invention has the technical idea of obtaining the desired chlorophyll concentrate by using the apparatus shown in Figures 2 to 4 according to the manufacturing process diagram of the above bar, when one embodiment is described, the vacuum concentration function at 200 L scale In a reactor having a double jacket structure, first, a mixed solvent was prepared in which 50 L of active water and 80 L of ethyl alcohol having a half width value of ¹⁷ 0 nuclear magnetic resonance spectrum were 68 Hz and stirred at a low speed of about 100 rpm. , 2 kg of pine needle powder, 2 kg of wild bamboo powder, 2 kg of mistletoe, 2 kg of thistle powder, and 400 g of thistle powder in the order of% and stirred for about 6 hours to extract / dissolve, and then stirred for about 6 hours for 30 minutes 30 After the minute stop was performed alternately to proceed with the extraction process, using a pseudo distillation system illustrated in Figure 4 to raise the temperature of the reactor to 40 ℃ to adjust the vacuum to distill the alcohol component The chlorophyll extract was isolated and aged at 24 ° C. for 24 hours in a cool and dark place. The chlorophyll extract, which had been fully matured, was gradually heated at 50 to 100 rpm in a concentration tank equipped with vacuum distillation conditions to increase the vacuum degree at 35 ° C. Evaporate the remaining amount of ethyl alcohol first, and then gradually increase the temperature of the concentration tank to increase the temperature in the range of 40 ° C, and adjust the vacuum degree to remove the remaining water to obtain chlorophyll concentrate having a concentration of 80-90%. It is a technical idea.

10: chlorophyll-containing plant raw material 20: ethyl alcohol storage tank
30: active water phase 31: ocher ball filter layer 1
32: ocher ball filter layer 2 33: filter portion 34: inlet 35: upper outlet 36: drain 40: extractor
50: centrifuge 60: aging tank
70: thickening tank 71: thickening tank inner tank
72: stirring blade 73: motor
74: double jacket portion 80: enrichment facilities
81: vacuum pump 82: condenser
83: first tank 84: second tank
85: first purification filter 86: second purification filter
100: concentrated chlorophyll

Claims (6)

In the production method of extracting and concentrating chlorophyll components from natural plants to an effective concentration to obtain chlorophyll,
A first step of collecting chlorophyll-containing plants, drying and pulverizing in airy shades to obtain powder particles having a size of 200 to 300 mesh;
Passing purified water through a ceramic ball or an ocher ball filtration layer to obtain active water obtained by converting a ¹⁷ O nuclear magnetic resonance spectral half width value using an NMR Spectrometer to 70 Hz or less;
Mix the active water and ethyl alcohol obtained in the second step, but make a mixed solution in a volume ratio of active water 3 ± 1: ethyl alcohol 7 ± 1 and inject the plant powder obtained in the first step, low-speed / intermittent stirring conditions, 10 Extracting chlorophyll in a range of ˜24 hours;
A fourth step of aging the chlorophyll extract obtained in the third step in the range of 1 ± 2 days in the range of 18 ± 2 ° C .;
After the aging process of the fourth step is completed, increase the temperature of the concentration tank under vacuum conditions, first adjust the vacuum degree in the range of 33 ~ 35 ℃ to evaporate ethyl alcohol first, and then increase the temperature of the concentration tank to increase the temperature to 38 ~ 40 ℃ range A fifth step of removing the remaining water to obtain a chlorophyll concentrate having a concentration of chlorophyll 80 to 90%;
Method for producing chlorophyll, characterized in that comprises a. The method of claim 1,
The natural plant used in the first step is a method of producing chlorophyll, characterized in that the plant is selected from mulberry leaves, dandelion leaves, pine needles, thorny opi, countertops (mountain porridge), mistletoe, thistle, kelp, persimmon, gompi. The method of claim 1,
Chlorophyll is characterized by extracting chlorophyll with a mixed solution of the active water and ethyl alcohol obtained in the second step, and then adjusting the vacuum degree in the extraction reaction tank (40) to evaporate the ethyl alcohol component first, followed by a fourth step process. Manufacturing method. The method of claim 1,
The active water used in the third step is a method for producing chlorophyll, characterized in that the active water provided in the pH range of 8 ± 0.5 is used. The method of claim 1,
The low-speed stirring condition in the third step is in the range of 50 ~ 200rpm, the intermittent stirring condition is a method for producing chlorophyll, characterized in that it is provided as a means to repeat the stirring stop 30 to 60 minutes after 30 to 60 minutes stirring. delete

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