KR20130083622A - Germination apparatus for raw coffee beans and germination method using apparatus thereof - Google Patents

Abstract

PURPOSE: A device for germinating raw coffee beans and a germination method using the same are provided to improve the sprouting condition of raw coffee beans and to increase γ-aminobutyric acid content. CONSTITUTION: A device for germinating raw coffee beans comprises a water tank (110) equipped with a first heater (120), a magnetized water generating device (130), a circulation pump (170), a conversion valve (194), a sprouting tank (140), a drain valve (196), a filter (180), and a controller (190) for controlling elements. The sprouting tank comprises a partition wall (146) of a mesh structure for dividing an internal space into unit spaces, a sprouting container (148), a magnetized water discharger (150), an ultrasonic wave generator (149), a temperature sensor (192), a controller, a second heater (160), a chitosan supply tank (200), and a mixing pump (172).

Description

Coffee bean germination device and germination method using the same {GERMINATION APPARATUS FOR RAW COFFEE BEANS AND GERMINATION METHOD USING APPARATUS THEREOF}

The present invention relates to a coffee green bean germination device and a coffee green germination method using the same, which dramatically increase the GABA (γ-aminobutyric acid) content by germinating a large amount of green coffee beans in a short time.

It is well known that germinated products are good for health. All seeds have the highest nutritional value at the time of germination and are widely known around the world due to the results of a study published in 1993 by the Max Franck Institute in Germany.

For example, when cooked with brown rice itself, digestion of the good components of brown rice is difficult to digest, but germinating brown rice with germination increases the amount of nutrients and makes it easier for people to consume the nutrients that brown rice has.

Brown germ is germinated (GABA, gamma aminoleic acid) component increases 5 ~ 10 times, which increases the supply of oxygen to the brain, promotes brain metabolic function, and eliminates clogged blood vessels. It prevents hypertension and stabilizes the mind by stabilizing the nervous system as well as relieving stress.

In this way, the seeds increase the amount of nutrients at the time of germination and various microenzymes are produced. Coffee beans are also dried and roasted when they are germinated to produce coffee beans. The GABA component is increased 2-3 times, and caffeine is reduced. In addition, premium beans are produced by washing coffee beans in premium coffee production process in developed countries of the United States (Washed Bean) by removing impurities on the surface of green beans generated during harvesting and drying process. The beans are produced.

According to the prior art, after the coffee beans are washed, the coffee beans are germinated by immersing them in water (20 ° C.) at room temperature supplied in the germination bucket for a predetermined time. In this case, the coffee beans are exposed to a long time in a humid environment, whereby bacteria There is a problem that the rapid growth and odor occurs as well as the germination rate is lowered.

In order to solve such a problem, the present inventor has applied for a coffee bean germination device that significantly increases the Gabba content (published patent 10-2011-0031299), in the case of the published patent using the property of water called magnetized water Although there is an effect of shortening the germination time of the coffee beans, the present inventors have come up with the present invention as a result of devising a technique to make the coffee germination more effective.

Republic of Korea Patent Publication 10-2011-0031299 (published March 25, 2011)

In order to solve the above problems, the present invention is newly generated and increased during the germination process by removing foreign substances by ultrasonic waves, inhibiting bacterial growth by chitosan and using edible acidic water to further improve the germination conditions of coffee beans. The water-soluble amino acids and GABA (gamma aminolactic acid) are not dissolved in acidic water, which significantly improves the quality and nutrition of coffee, and shortens the time for germination of coffee beans. It is an object of the present invention to provide a green bean germination device and a germination method using the same.

In order to achieve the above object,

The present invention is a water tank having a first heater for heating the water in accordance with the control signal of the controller when the temperature of the water after measuring the temperature of the water through a temperature sensor, the reference signal is set as a reference;

A magnetization water generator connected to the water tank to magnetize the water supplied from the water tank;

A circulation pump for circulating the magnetized water supplied from the magnetized water generator,

A switching valve for changing a path to directly supply the magnetized water supplied from the circulation pump into the germination tank or to the magnetized water discharger installed in the germination tank;

A germination tank which receives magnetization water from the switching valve and fills the magnetized water so that the coffee beans are completely submerged to germinate the coffee beans;

A drain valve which opens and closes as necessary and discharges or circulates the magnetized water discharged from the germination tank to the outside;

A filter which receives magnetized water circulated through the drain valve and removes foreign substances contained in the magnetized water and supplies magnetized water to the water tank again;

And a controller for controlling the operation of the first heater, the circulation pump, the switching valve, the second heater, the mixing pump, the drain valve, and the ultrasonic generator provided in the gauging tank provided in the water tank As such,

The germination tank may include a barrier rib having a mesh structure for dividing an inner space into a plurality of unit spaces;

A germicidal container provided on the upper surface of the partition and having a mesh structure for containing coffee beans,

A magnetization water discharger formed above the germination tank to inject magnetization water into the green coffee beans contained in the germination container;

An ultrasonic generator formed on the side wall of the germination tank to ultrasonically stimulate the green coffee beans contained in the germination container;

A second heater installed at the lower part of the germination tank in order to heat the water according to the control signal of the controller when the temperature of the water is measured through the temperature sensor and lower than the water temperature determined as a reference;

Chitosan supply tank connected to the inlet formed on the side wall of the germination tank to supply chitosan from the outside,

And a mixing pump for circulating the magnetized water filled in the germination tank,

As a coffee green bean germination method using the coffee green bean germination device,

Filling the green coffee beans in a mesh germination container installed inside the germination tank,

Heating the water by the first heater after supplying water to the water tank;

Passing water supplied from the water tank through a magnetization water generator to generate magnetization water;

An immersion step of injecting the magnetized water into the germination tank to completely lock the germination container;

Ultrasonic waves of 40 kHz to 60 kHz are treated for 5 to 30 minutes at a temperature of 40.1 to 85 ° C, and chitosan is added to maintain chitosan concentration of 0.05 to 0.1% mixed with the magnetized water charged in the germination tank. Germination stage for germination for time,

By including the magnetization water discharge step, by germinating with weakly acidic magnetization water, the water-soluble amino acid component GABA (gamma amino lactic acid) component generated in the germination process is not dissolved in the magnetization water, preventing the discharge with the magnetization water in the magnetization water discharge step As a main technical configuration, the method of germinating coffee beans, characterized in that it is possible to promote germination of coffee beans.

Coffee bean germination device according to the present invention in addition to shortening the germination time by the magnetized water, to remove foreign substances remaining on the surface of the coffee beans by the generation of ultrasonic waves, the germination conditions of coffee green beans by bacterial propagation according to the use of chitosan By improving the germination condition of coffee green beans by the combination action of magnetized water, ultrasonic wave and chitosan, and by using weakly acidic water, useful water-soluble amino acid and GABA (gamma aminolactic acid) components By not dissolving in weakly acidic water to prevent the discharge from the germination tank, shortening the time of coffee bean germination and more effective coffee bean germination leads to a significant increase in GABA (γ-aminobutyric acid) content. .

1 is a schematic view showing a coffee bean germination device according to an embodiment of the present invention.
Figure 2 is a perspective view showing the internal structure of the magnetized water generator of the coffee bean germination device according to an embodiment of the present invention.
3 is a cross-sectional view showing the inside of the germination tank of the coffee bean germination device according to an embodiment of the present invention.
4 is a cross-sectional view showing a state in which water is filled in the germination tank of the coffee bean germination device according to an embodiment of the present invention.
5 is a cross-sectional view showing a state in which water is supplied by the magnetized water discharger of the coffee bean germination device according to an embodiment of the present invention.

Hereinafter, specific technical contents of the technical configuration will be described with reference to the accompanying drawings.

As shown in Figure 1, the coffee bean germination device 1 according to the present invention,

After measuring the temperature of the water through the temperature sensor 192, the water tank having a first heater 120 for heating the water in accordance with the control signal of the controller 190 is lower than the temperature of the water determined as a reference ( 110);

Is connected to the water tank 110, the magnetization water generator 130 to magnetize the water supplied from the water tank 110,

A circulation pump 170 for circulating the magnetized water supplied from the magnetized water generator 130,

Switch valve 194 for changing the path to directly supply the magnetized water supplied from the circulation pump 170 to the germination tank 140 or to the magnetized water discharger 150 installed on the germination tank 140. )Wow,

A germination tank 140 for supplying magnetized water from the switching valve 194 to fill the magnetized water so that the coffee beans are completely locked and germinating the coffee beans;

A drain valve 196 that opens and closes as necessary and discharges or circulates the magnetized water discharged from the germination tank 140 to the outside;

Filter 180 for supplying the magnetized water to the water tank 110 after removing the foreign matter contained in the magnetized water by receiving the magnetized water circulated through the drain valve 196, and

The first heater 120 installed in the water tank 110, the circulation pump 170, the switching valve 194, the second heater 160 installed in the germination tank 140, the mixing pump 172, the drain valve 196, and a controller 190 for controlling the operation of the ultrasonic generator 149,

The germination tank 140 includes a partition wall 146 having a mesh structure for dividing an internal space into a plurality of unit spaces,

A germination container 148 having a mesh structure installed on an upper surface of the partition 146 to receive green coffee beans;

In order to inject the magnetized water into the green coffee beans contained in the germination container 148, the magnetization water discharger 150 formed on the germination tank 140, and

An ultrasonic generator 149 formed on a side wall of the germination tank 140 for ultrasonic stimulation of the coffee beans contained in the germicidal container 148,

A second heater provided at a lower portion of the germination tank 140 for heating the water according to a control signal of the controller 190 when the temperature of the water is lower than the temperature of the water determined as a reference after the temperature of the water is measured through the temperature sensor 192, (160)

Chitosan supply tank 200 for supplying chitosan from the outside is connected to the inlet formed on the side wall of the germination tank 140,

It comprises a mixing pump 172 for circulating the magnetized water is filled in the germination tank 140.

The present invention, in addition to the magnetized water, by using chitosan and ultrasonic waves can improve the coffee green bean germination effect by mutual synergy, as compared to the case of using the magnetized water alone, the effect of chitosan and ultrasonic waves on the green coffee germination first Let's look at it.

Chitosan is a biodegradable natural polymer material that is harmless to the human body and has antimicrobial activity itself. When used in plants, chitosan is known to improve the self-protection function of plants, such as the induction of chitinase production.

Chitosan is also used in medical materials such as food, cosmetics, wastewater treatment, wound healing and tissue repair, and is used in various industries such as gene delivery.

These functions depend on the molecular structure as well as the chemical structure of chitosan. In addition, reports on the antimicrobial activity of chitosan under various conditions have been reported, including reports that the antimicrobial activity increases as the concentration of chitosan increases.

In the present invention, chitosan is a chitosan having a molecular weight (Mw) of 4.571 × 10 ⁴ and a deacetylation degree (%) of 84.94%, a chitosan having a molecular weight (Mw) of 1.062 × 10 ⁵ and a deacetylation degree (%) of 82.10%, and a molecular weight (Mw). ) 1.541 × 10 ⁵ , chitosan mixed with chitosan with deacetylation degree (%) of 86.29% at a ratio of 0.5-1: 0.5-1: 0.5-1, mixed with magnetized water charged in germination tank 140 It can be expected that the addition of 0.05 to 0.1% can be maintained to promote the germination of coffee beans and inhibit the bacterial growth of coffee beans.

Next, the ultrasonic wave is a pressure wave in a high frequency region of 20 kHz or more, which cannot be detected by human hearing as a vibration through an intermediate material, like a sound wave, and is a mechanical vibration wave and can propagate through a medium. Its speed is faster than 340 m / s in air, 1,500 m / s in seawater, and 5,000 m / s through hardware. After generating an electrical signal through the ultrasonic oscillator, it is sent to the vibrator and generates waves according to the elasticity and inertia through the vibrator.

When the ultrasonic wave is irradiated into the liquid medium, it grows into a fine cavitation bubble due to cavitation, and undergoes a process in which the sufficiently grown bubbles explode explosively. However, during the growth of the bubbles, the vapor of the aqueous solution flows into the bubbles, and energy is accumulated in the bubbles, thereby increasing the temperature and pressure inside the bubbles.

When explosively ruptured bubbles are sufficiently grown, the high-temperature high-pressure gas in the bubbles is momentarily released and generates shock waves. By using this action, it is possible to clean the foreign material on the surface of the coffee bean and to stimulate the germination promotion. In the present invention, the coffee bean germination is promoted by sonicating the ultrasonic wave of 40 kHz to 60 kHz for 5 to 30 minutes under the condition that the water temperature of the magnetized water filled in the germination tank 140 is 40.1 to 85 ° C.

The ultrasonic generator is a general-purpose ultrasonic generator including a vibrator having two vibrators, and the ultrasonic generator is not limited to its use as long as the ultrasonic generator is capable of generating ultrasonic waves of 40 kHz to 60 kHz.

As shown in Figure 1,

The coffee bean germicidal apparatus 100 according to the present invention supplies the coffee beans 10 with the magnetized water generated by magnetizing water by the magnetized water generator 130 and supplies the magnetized water to the first heater 120 and the second heater 160 The germination temperature of the coffee beans 10 can be controlled and a large amount of coffee beans 10 produced by ultrasonic treatment and chitosan injection can be effectively germinated in a short time.

In addition, by removing the impurities contained in the water circulated by the filter 180, it is possible to effectively remove the contaminants and caffeine on the surface of the coffee beans 10 by ultrasonication, etc. Further, in the coffee beans 10 As well as effectively prevent bacterial growth, the filter 180 is a nano CaCO ₃ of 0.05 ~ 2㎛ 20 ~ 80wt% and ocher 20 ~ 80wt% is mixed in the electric furnace for 1 hour to 3 hours at 900 ~ 1,500 ℃ pulverized to 300 ~ 800mesh and then using a high-pressure press machine manufactured in a plate shape of 5 ~ 7mm .

Hereinafter, each configuration of the green coffee germination device 100 according to the present embodiment will be described in more detail with reference to FIGS. 1 to 5.

As shown in FIG. 1, the water tank 110 is provided with a first heater 120 for heating water in the water tank 110. The heated water heated by the first heater 120 is supplied to the germination tank 140 via the magnetized water generator 130.

In addition, the temperature sensor 192 may be installed in the water tank 110 to adjust the temperature of the water, as shown in FIG. 1. As such, by mounting the temperature sensor 192 together with the first heater 120 in the water tank 110, the temperature of the water may be suitably maintained for the germination of the green coffee beans 10.

In addition, by circulating the magnetized water in the water tank 110 by the air discharged by the mixing pump 170 provided on the bottom surface of the water tank 110, the temperature of the magnetized water in the water tank 110 is kept constant. I can make it.

As shown in FIG. 1, the magnetization water generator 130 may be connected to the water tank 110 to magnetize the water supplied from the water tank 110. More specifically, as shown in FIG. 2, the magnetization water generator 130 includes a housing 132 through which water passes, a plurality of permanent magnets 134 disposed in a circumferential direction along an inner circumferential surface of the housing 132, and the like. It may be configured as.

For example, a permanent magnet 134 having a magnetic strength of 6,000 to 10,000 gauss may be used. For example, a neodymium magnet may be used as the permanent magnet 134. In addition, the permanent magnet 134 may be formed in a column shape and may be mounted in the groove of the inner wall of the housing 132. In this case, the N pole of the permanent magnet 134 may be disposed to face the central axis of the housing 132. .

As such, a magnetic field may be formed in the housing 132 by the permanent magnet 134 disposed in the housing 132. When water passes to be perpendicular to the magnetic field, the water may be magnetized, and the particles may be finely decomposed. As a result, the water may have a changed molecular structure, for example, a hexagonal water structure.

In the case of the magnetized water generated by the magnetized water generator 130, it has abundant dissolved oxygen, it can further activate the mineral ions in the water, has a beneficial alkalinity to life, remove heavy metals and sterilize, the structure of the water molecules Dense and uniform hexagonal water can be formed.

Therefore, by using the magnetized water, it is possible to supply smooth moisture to the coffee beans 10 to induce rapid germination of the coffee beans 10, and at the same time to effectively wash and disinfect the coffee beans 10, the coffee beans 10 Can effectively inhibit the growth of bacteria in

Moreover, it has the effect of suppressing bacterial growth of coffee beans by the use of chitosan and removing foreign matters on coffee beans by ultrasonic treatment. As a result, it is possible to prevent rancidity of the coffee beans 10.

In addition, the nutritional value of the green coffee beans is changed according to the components dissolved in the water discharged through the outlet 144 after germination, and many useful components such as amino acid and GABA (gamma aminolactic acid) are dissolved in the discharged water. If so, the nutritional value of the coffee beans will be reduced.

In this regard, when alkaline hot water is used to germinate green coffee, analysis of the water content through the outlet after germination results in the release of a large amount of water-soluble amino acids, GABA (gamma aminolactic acid) and caffeine, but slightly acidic water (pH 4.5). ~ 6.0), the color of the water coming out of the outlet (nearly black for alkaline hot water, or clear water for weakly acidic water) and its concentration are significantly higher than for alkaline hot water. The decrease can also be seen visually.

As shown in FIG. 1, the germination tank 140 has an inlet 142 located at an upper portion thereof connected to the magnetized water generator 130, and water supplied from the magnetized water generator 130 through an outlet 144 located at a lower portion thereof. May be discharged toward the water tank 110.

3 is a cross-sectional view showing the inside of the germination tank 140 of the coffee bean germination device 100 according to an embodiment of the present invention.

As shown in FIG. 3, the interior space of the germination tank 140 may be partitioned into a plurality of unit spaces by the partition wall 146 along the up and down direction, and each of the unit spaces has coffee beans 10 therein. Germination containers 148 may be disposed to accommodate each. In addition, the partition wall 146 and the germination container 148 may have a mesh structure so that water supplied to the germination tank 140 may easily pass therethrough.

3, the second heater 160 may be installed inside the germination tank 140 to heat the internal space of the germination tank 140, and may include a temperature sensor 192 installed in the germination tank 140 The operation of the second heater 160 can be controlled according to the temperature sensed by the second heater 160. [

In addition, an ultrasonic generator 149 is installed on the side wall of the germination tank 140 to give ultrasonic stimulation to the coffee beans, thereby removing impurities and germination stimulation on the surface of the coffee beans.

In addition, it gives an antibacterial action and germination promoting stimulation by chitosan supplied from the chitosan supply tank 200 formed outside the germination tank 140.

As such, the germination tank 140 is filled with magnetized water, and the ultrasonic waves generated from the ultrasonic generator 149 installed on the side wall stimulate the coffee beans with the magnetized water as a medium, and chitosan is supplied. As the antibacterial action and germination promoting action is synergistically occurs.

The germination condition of the coffee beans in the germination tank 140 is chitosan having a molecular weight (Mw) of 4.571 × 10 ⁴ and a degree of deacetylation (%) of 84.94% in a state in which the coffee beans are completely submerged in the germination tank 140. , Chitosan having a molecular weight (Mw) of 1.062 × 10 ⁵ and a deacetylation degree (%) of 82.10%, and a chitosan having a molecular weight (Mw) of 1.541 × 10 ⁵ and a deacetylation degree (%) of 86.29% from 0.5 to 1: 0.5 to 1: The mixed chitosan mixed at a ratio of 0.5 to 1 is mixed with the magnetized water filled in the germination tank 140 to supply the mixed chitosan into the germination tank 140 so that the chitosan concentration is 0.05 to 0.1%, and then the water temperature is 40.1 to 85. By maintaining the temperature at ℃ ℃ 40 ~ 60 kHz ultrasonic treatment for 5 to 30 minutes to keep the coffee germination stimulated for 2 to 8 hours, coffee beans can be germinated in a short time than coffee green germination by magnetized water treatment alone .

At this time, during the germination of the coffee beans 10, the germination rate increases as the temperature of the germination environment increases, and there may be a problem of rapid bacterial growth, but in the present invention, it is possible to suppress the growth of bacteria due to the use of chitosan. Can be.

On the contrary, when the water temperature in the germination tank is low, although bacterial growth is reduced, there may be a problem in that the germination time is long, so that the water temperature in the germination tank is preferably maintained in the range of 40.1 to 85 ° C.

The water temperature in the germination tank can be adjusted to maintain the temperature of the germination environment suitable for germination using the first heater 120 and the second heater 160 described above, so that the germination time of the coffee beans can be shortened as much as possible. Temperature control is possible to minimize bacterial growth and odor generation within the range.

4 is a cross-sectional view showing a state in which water is filled in the germination tank 140 of the coffee bean germination device 100 according to an embodiment of the present invention.

In order to primarily absorb water into the coffee beans 10, as shown in FIG. 4, the interior space of the germination tank 140 may be immersed by water supplied from the magnetization water generator 130, in which case, The outlet 144 is kept closed by the cover.

Since the mixing pump 172 may be installed at the bottom of the germination tank 140, the water filled in the germination tank 140 for the initial absorption of water may be provided by the mixing pump 172. It can be mixed up and down smoothly.

As shown in FIG. 1, the magnetization water discharger 150 is installed inside the germination tank 140 and connected to the magnetization water generator 130 to spray water supplied from the magnetization water generator 130 into the germination tank 140. Can be.

As shown in FIG. 1, an inlet pipe is installed on the top of the germination tank 140 separately from the transfer pipe connected to the inlet 142 for the filling of the germination tank 140, and the magnetization water discharger 150 is disposed on the inlet pipe 140. ) Can be installed in a plurality, the magnetized water supplied from the magnetized water generator 130 may be injected into the germination tank 140 by such a magnetized water discharger (150).

5 is a cross-sectional view showing a state in which water is supplied by the magnetized water discharger 150 of the coffee bean germination device 100 according to an embodiment of the present invention.

As shown in FIG. 5, the magnetization water discharger 150 installed in the inlet pipe above the germination tank 140 sprays the supplied magnetization water onto the coffee beans 10 in the germination tank 140, thereby germinating the tank as described above. By filling the water in the 140, the moisture in the germination tank 140 may be kept constant while simultaneously washing the green coffee beans 10 in which moisture is absorbed.

In this case, since the germination container 148 and the partition wall 146 may have a mesh structure as described above, as shown in FIG. 5, the water sprayed by the magnetization water discharger 150 is in the germination container 148. After being injected into the coffee green beans 10, the coffee beans may be discharged through the outlet 144 under the germination tank 140.

1, the switching valve 194 is disposed between the magnetizing water generator 130 and the germination tank 140 so that the flow path of the water discharged from the magnetized water generator 130 is connected to the germination tank 140 or the magnetized water discharger 150).

As described above, by receiving the magnetized water through the inlet 142 to fill the germination tank 140 with water, the initial absorption of the water to the coffee beans 10 is made, and the magnetized water is germinated through the magnetized water discharger 150 ( By spraying the inside 140, the humidity in the germination tank 140 is maintained.

The switching valve 194 represents a connection relationship between the magnetization water generator 130, the inlet 142 of the germination tank 140, and the magnetization water discharger 150 so as to correspond to the above-described germination step. Interchange from "inlet 142 of 140" to "magnetized water generator 130 to magnetized water outlet 150" can be made.

The filter 180 is configured to remove impurities contained in water. As described above, nano CaCO _{3 having} a diameter of 0.05 to 2 μm. 20 ~ 80wt% and ocher 20 ~ 80wt% is mixed in the electric furnace for 1 hour to 3 hours at 900 ~ 1,500 ℃ pulverized to 300 ~ 800mesh and then using a high-pressure press machine manufactured in a plate shape of 5 ~ 7mm .

As shown in FIG. 1, water discharged from the germination tank 140 may be installed at a point before returning to the water tank 110.

Since the filter 180 is provided downstream of the germination tank 140 as described above, contaminants separated from the coffee beans 10 and caffeine can be effectively filtered through immersion and water spraying with high temperature magnetized water, Germinated coffee can be produced, and the reduction of the performance of magnetized water due to impurities contained in water can also be prevented.

As illustrated in FIG. 1, the drain valve 196 may be interposed between the germination tank 140 and the water tank 110 to discharge water discharged from the germination tank 140 to the outside. Thus, by installing the drain valve 196 downstream of the germination tank 140 and opening and closing as necessary, clean water can be newly circulated in the coffee bean germination device 100.

1, the circulation pump 170 may be installed in a water transfer line and may include the water tank 110, the magnetized water generator 130, the germination tank 140, the magnetized water discharger 150, And may provide a driving force for circulating water between the filters 180.

As shown in FIG. 1, the controller 190 includes a first heater 120, a second heater 160, a temperature sensor 192, a magnetized water discharger 150, a mixing pump 172, and a circulation pump 170. In addition, the switching valve 194 and the drain valve 196 can be electrically connected to control their operation, respectively, by having such a controller 190, automated coffee green germination device 100 can be implemented. have.

Hereinafter, a method of germinating coffee beans using the coffee bean germination apparatus according to the present invention will be described.

The cupper green germination method is the step of filling the green coffee beans in the germination container 148 of the mesh (mesh) structure installed inside the germination tank 140,

Supplying water to the water tank 110 and heating the water by the first heater 120;

Passing water supplied from the water tank 110 through the magnetization water generator 130 to generate magnetization water;

An immersion step in which the magnetized water is injected into the germicidal tank 140 so that the germicidal container 148 is fully immersed;

It comprises a germination step of germinating for 3 to 9 hours at a temperature of 40.1 ~ 85 ℃, in the condition of generating ultrasound and chitosan,

Alternatively, the germination step may be treated with ultrasonic waves of 40 kHz to 60 kHz at a temperature of 40.1 to 85 ° C. for 5 to 30 minutes, and the chitosan concentration mixed with the magnetized water charged in the germination tank 140 may be maintained at 0.05 to 0.1%. The germination step is made by adding chitosan so as to germinate for 2 to 8 hours.

In the germination step, the magnetization water in the germination tank 140 is circulated by the air generated by the circulation pump to maintain the temperature of the magnetization water in the germination tank 140 uniformly. The circulation of magnetized water by the circulation pump is continued until the germination process is completed.

The germinating step maintains the water temperature of the magnetized water in the germination tank 140 at 40.1 ~ 85 ° C. If the germination temperature is out of the temperature range, the germination time may be delayed.

In addition, the ultrasonic wave is treated with ultrasonic waves of 40 kHz to 60 kHz for 5 to 30 minutes to wash foreign substances on the surface of the coffee beans and to stimulate the germination.

In addition, the chitosan has the effect of inhibiting bacterial growth of coffee beans, which is excellent when the chitosan concentration mixed with the magnetized water filled in the germination tank 140 is maintained at 0.05 ~ 0.1%.

As described above, the coffee bean germination device according to the present invention significantly increases the Gaba (GABA, γ-aminobutyric acid) content by shortening the germination time of coffee beans by synergistic interaction of magnetized water, ultrasound, and chitosan. The industrial applicability is very large.

10: green coffee beans
100: coffee green bean germination device
110: water tank
120: first heater
130: magnetization water generator
132: Housing
134: permanent magnet
140: germination tank
142: inlet
144: outlet
146: bulkhead
148: germination container
150: magnetized water ejector
160: second heater
170: circulation pump
172: mixing pump
180: filter
190: controller
192: temperature sensor
194: switching valve
196: drain valve

Claims (6)

A first heater 120 for heating the water according to a control signal of the controller 190 when the temperature of the water is lower than a temperature of the water determined as a reference after the temperature of the water is measured through the temperature sensor 192, 110,
Is connected to the water tank 110, the magnetization water generator 130 to magnetize the water supplied from the water tank 110,
A circulation pump 170 for circulating the magnetized water supplied from the magnetized water generator 130,
Switch valve 194 for changing the path to directly supply the magnetized water supplied from the circulation pump 170 to the germination tank 140 or to the magnetized water discharger 150 installed on the germination tank 140. )Wow,
A germination tank 140 for supplying magnetized water from the switching valve 194 to fill the magnetized water so that the coffee beans are completely locked and germinating the coffee beans;
A drain valve 196 that opens and closes as necessary and discharges or circulates the magnetized water discharged from the germination tank 140 to the outside;
Filter 180 for supplying the magnetized water to the water tank 110 after removing the foreign matter contained in the magnetized water by receiving the magnetized water circulated through the drain valve 196, and
The first heater 120 installed in the water tank 110, the circulation pump 170, the switching valve 194, the second heater 160 installed in the germination tank 140, the mixing pump 172, the drain valve 196, and a controller 190 for controlling the operation of the ultrasonic generator 149,
The germination tank 140 includes a partition wall 146 having a mesh structure for dividing an internal space into a plurality of unit spaces,
A germination container 148 having a mesh structure installed on an upper surface of the partition 146 to receive green coffee beans;
In order to inject the magnetized water into the green coffee beans contained in the germination container 148, the magnetization water discharger 150 formed on the germination tank 140, and
Ultrasonic generator 149 formed on the side wall of the germination tank 140, in order to ultrasonically stimulate the green coffee beans contained in the germination container 148,
After measuring the temperature of the water through the temperature sensor 192, the second heater is installed in the lower part of the germination tank 140, in order to heat the water in accordance with the control signal of the controller 190 when the temperature of the water is lower than the reference 160,
A chitosan supply tank 200 connected to an injection port formed on a side wall of the germination tank 140 to supply chitosan from the outside,
Coffee bean germination device, characterized in that it comprises a mixing pump 172 for circulating the magnetized water is filled in the germination tank (140).

The method according to claim 1,
Magnetized water generator is characterized in that the permanent magnet 134 of 6,000 ~ 10,000 gauss is mounted in the groove of the inner wall of the housing 132, the N pole of the permanent magnet 134 is arranged to face the central axis of the housing 132 Coffee bean sprouts.
The method according to claim 1,
The filter is Nano CaCO ₃ with 0.05 ~ 2㎛ After mixing 20 ~ 80wt% and 20 ~ 80wt% ocher, after firing for 1 to 3 hours at 900 ~ 1,500 ℃ in an electric furnace, it is pulverized to 300 ~ 800mesh and then manufactured in a plate shape of 5 ~ 7mm using a high pressure press Coffee bean sprouts.
Filling the green coffee beans in the germination container 148 having a mesh structure installed inside the germination tank 140;
Supplying water to the water tank 110 and heating the water by the first heater 120;
Passing water supplied from the water tank 110 through the magnetization water generator 130 to generate magnetization water;
An immersion step of injecting the magnetized water into the germination tank 140 so that the germination container 148 is completely locked;
Germination for 3-9 hours at a temperature of 40.1 ~ 85 ℃,
By including the magnetization water discharge step, by germinating with weakly acidic magnetization water, the water-soluble amino acid component GABA (gamma amino lactic acid) component generated in the germination process is not dissolved in the magnetization water, preventing the discharge with the magnetization water in the magnetization water discharge step A method for germinating green coffee beans, characterized in that the sprouting of coffee beans is possible.
The method of claim 4,
Germination step is treated for 5 to 30 minutes at 40 kHz ~ 60 kHz ultrasonic waves at a temperature of 40.1 ~ 85 ℃, chitosan concentration of 0.05 ~ 0.1% to maintain the chitosan concentration mixed with the magnetized water charged in the germination tank 140 The sprouting method of green coffee bean, characterized in that to germinate for 2 to 8 hours by adding.
The method according to claim 5,
Chitosan is a chitosan having a molecular weight (Mw) of 4.571 × 10 ⁴ , a deacetylation degree (%) of 84.94%, a chitosan having a molecular weight (Mw) of 1.062 × 10 ⁵ , and a deacetylation degree (%) of 82.10%, and a molecular weight of 1.541 × 10, ^5, 0.5 to 1 the degree of deacetylation (%) 86.29% of the chitosan: 0.5 to 1: coffee green beans germinated characterized in that the chitosan is mixed in a ratio of 0.5 to 1.

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