JP3233187B2 - Extraction-containing water from plant, animal or mineral, and method and apparatus for producing the same - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an extract-containing water for retaining an active ingredient extracted from a plant substance, an animal substance, or a mineral substance in a liquid, and a method and apparatus for producing the same.

[0002]

The drug used in Chinese medicine is a so-called Chinese herbal medicine, which is a crude drug. This crude drug is obtained by subjecting a naturally-occurring drug to a simple treatment, And so-called folk medicine. Chinese herbal medicine is a herbal medicine unique to Chinese medicine, most of which are plants, but some are animal and mineral substances. The ancient literature "Shinnohon Sokyo" or "Shinbonso Bijyo" etc. contains 360-500 kinds of Chinese herbal medicines.
Of the 100 to 300 types, more than 100 are particularly popular. By the way, the Chinese medicine prepared according to the Chinese medicine is called a medicine, and there are a decoction (decoction) called a hot water solution, a powder medicine called a powder, a pill called a pill, etc. There are ointments. Oral medicine of Kampo is mainly the above-mentioned decoction. This decoction is extracted and taken in water by decoction of the active ingredient of the crude drug.
For example, in the case of Kakkon-to, 4 g of kakkon, 3 g of mao, 3 g of Keishi, licorice, and herbal medicine, 3 g of large nails and 3 g of ginger are added in 1
Place in a container for daily use, add 600 ml of water, and heat
Boil for half an hour and boil it in half. The reason why the crude drug is infused in this way is to extract the components of the crude drug into the hot water.

[0003] On the other hand, when there is a possibility that the crude drug which is not suitable for a decoction, that is, the components may be destroyed by high-temperature steaming during the decoction process, the above-mentioned powders and pills are prescribed. However, there are various problems with taking the above-mentioned conventional Chinese medicine. For example, when used as a decoction, as described above, cumbersome processing and a considerably large dose are required, and it may be difficult for some patients to take the drug itself. In addition, it is inconvenient to carry because it is a liquid, and it must be brewed every day from the viewpoint of preservation. On the other hand, powders and pills require taking a necessary amount of crude drug as it is, and thus there is an inconvenience that the powder and pill must be taken not only with the active ingredient of the crude drug but also with the remaining portion.

For this reason, a method of extracting and preparing a crude drug extract has been used. In the extraction of the extract, means such as a method of decoction and elution into a liquid, a distillation method, a solution extraction method and the like are used. However, there is a problem that the components of the target substance cannot be effectively collected by such a conventional extraction method. That is, a crude drug contains a component that is destroyed at high temperatures or a trace amount of an active component that cannot be detected by current analysis techniques. Therefore, for example, when extracting components by decocting ginseng or extracting components by distillation, it is impossible to extract a substance that cannot withstand high temperatures. In addition, since the solution extraction method requires accurate analysis of components, there is a problem that it is impossible to extract a trace amount of an unknown substance contained in ginseng and other substances. In addition, with the development of botany in recent years, there are several hundred unknown substances per cultivar besides conventionally known substances in plants, and it is gradually becoming clear that these play an essential role in physiological action. is there. Since these substances present in plants are in trace amounts, it is difficult to analyze and isolate them.However, these substances are phytochemicals (PHYTO CHEMICA).
LS), and research and development are underway with the expectation that it will play a useful role in human physiology. In such research and development, the obstacle is the extraction technology, and it is difficult to properly extract the components contained in the target plant by the conventional extraction technology. In this way, despite the fact that certain substances are known or supposed to be useful, they cannot be used effectively. The present invention has been made in the background as described above.

[0005]

SUMMARY OF THE INVENTION The present invention relates to a technique for extracting an active ingredient containing a trace component from various useful substances, which cannot be extracted by the conventional technique, and an extracted component containing the extracted active ingredient. The purpose is to provide contained water. That is, the manufacturing apparatus is connected to the atomizing fine particle tank while holding the raw material layer so that the active ingredient of the raw material adheres to the atomized fine particles when the fine atomized particles pass, and is depressurized in the raw material holding state to reduce the amount of the raw material. An extraction device for leaching known and unknown components contained in the surface, a coagulation device connected to the extraction device for liquefying atomized fine particles that have passed through the raw material layer, and a reservoir in which water liquefied by the coagulation device is dropped. A blower installed between the tank and the storage tank and the atomizing fine particle generation tank for reducing the pressure of the raw material layer in the extraction device;
And a cooling means for cooling the coagulation device and the storage tank, the atomization fine particle generation tank and the extraction device, the extraction device and the coagulation device, the coagulation device and the storage tank, the storage tank and the blower, the blower and the atomization The extraction device is connected to the first outer cylinder attached to one end of the connection pipe with the atomization particle generation tank and the coagulation device by connecting the respective pipes with the particle generation tank by pipes. An outer cylinder comprising a second outer cylinder attached to one end of a pipe, and an inner cylinder mounted in the outer cylinder and containing a raw material such as a plant substance, an animal substance or a mineral substance in a layered manner. Along with
The inner cylinder has a detachable guide plate formed by concentrically arranging a plurality of hollow cylinders at the mesh bottom.

The manufacturing method comprises the following steps. (A) Heating and vibrating water to generate atomized particles of water in an atomizing particle generating tank provided with a heater for heating the stored water to a predetermined temperature and an ultrasonic generator as atomizing means for water. (B) an outer cylinder comprising a first outer cylinder attached to one end of a connecting pipe to the atomizing fine particle generating tank and a second outer cylinder attached to one end of a connecting pipe to the coagulation device; And an inner cylinder that accommodates a raw material composed of a plant substance, an animal substance, a mineral substance, or the like in a layered manner, and the inner cylinder is formed by concentrically forming a plurality of hollow cylinders at the bottom of the net. The raw material layer consisting of crushed pieces of plant material, animal material, mineral material, etc., housed in an extraction device having detachable guide plates arranged side by side is depressurized and the active ingredient in the raw material is sucked to the surface. Leaching step, (c) reduced pressure state (D) supplying the atomized fine particles together with the air flow circulating between the respective devices to the raw material layer in (1) and passing the raw material layer through the raw material layer, thereby retaining the active ingredient sucked and leached on the surface of the raw material by the atomized fine particles. ) A step of sending atomized fine particles holding the active ingredient to a cooled coagulator to liquefy, and (e) a step of dropping water containing active ingredients of various raw materials liquefied by the coagulator to a storage tank to obtain a finished product. (F) The temperature of the atomized fine particles that have not been liquefied by the coagulation device is raised by returning the atomized fine particles to the atomized fine particle generation tank, rotating them by the spiral straightening plate provided in the atomized fine particle generation tank, and retaining them for a predetermined time. On the other hand, a step of mixing the atomized fine particles having increased temperature with newly generated atomized fine particles and sending the mixed fine particles to the extraction device again.

[0007] The water containing the extracted component is heated by: (a) heating the water in an atomized fine particle generation tank equipped with a heater for heating the stored water to a predetermined temperature and an ultrasonic generator as water atomizing means; (B) a first outer cylinder attached to one end of a connection pipe to the atomization particle generation tank and a second outer tube attached to one end of a connection pipe to the coagulation device. A cylindrical outer cylinder, and an inner cylinder mounted in the outer cylinder and containing a raw material such as a plant substance, an animal substance, or a mineral substance in a layered manner. A raw material layer made of crushed pieces of plant material, animal material, mineral material, etc., housed in an extraction device having a detachable guide plate having a plurality of hollow cylinders arranged concentrically side by side at the bottom To show the active ingredients in the raw material (C) feeding the atomized fine particles together with the air flow circulating between the devices to the raw material layer in a reduced pressure state and passing the raw material layer through the raw material layer, thereby effectively sucking and leaching the raw material surface. (D) sending the atomized fine particles holding the active ingredient to a cooled condensing device to liquefy, and (e) liquefying the condensing device and containing the active ingredients of various raw materials. (F) returning the atomized fine particles not liquefied by the coagulation device to the atomized fine particle generation tank, and using a spiral straightening plate provided in the atomized fine particle generation tank; It is manufactured through a process in which the temperature is increased by rotating and retaining for a predetermined time, while the atomized fine particles having the increased temperature are mixed with newly generated atomized fine particles and sent to the extraction device again.・ Improper collection And contain the active ingredient traces were ability available on human health such as various fields.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION An atomized fine particle generating tank provided with a heater for heating stored water to a predetermined temperature and an atomizing means for water,
An extraction device connected to the atomizing particle tank holding the raw material layer to attach the active ingredient of the raw material to the atomized fine particles when passing through the raw material layer through which the atomized fine particles pass, and connected to the extracting device A coagulation device for liquefying the atomized fine particles that have passed through the raw material layer, a storage tank into which water liquefied by the coagulation device is dropped, and a storage tank and an atomization particle generation tank that are installed between the paths of the extraction device and Blower for depressurizing the raw material layer
And a cooling means for cooling the condensing device and the storage tank via a pipe to allow air to circulate. An ultrasonic vibrator is used as a means for atomizing water. The heating temperature of the heater varies depending on the material to be extracted, but is preferably about 60 to 70 degrees Celsius, and does not exceed 80 degrees Celsius. In the extraction device, crude drugs and the like, which are the raw materials to be extracted, are stored as they are or in a crushed state. The raw material space in the extraction device in which the blower operates is depressurized, and the atomized fine particles from the atomized fine particle generation tank reach the extraction device, and capture the components leached on the surface of the raw material when passing through the extraction device. Go to The coagulation device cools the atomized fine particles by an appropriate means. Thus, the liquefied atomized fine particles are sent to the storage tank. This liquefied product is the water containing the extraction component,
The components of the raw material will be extracted and captured. Details will be described in the following examples.

[0009]

An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of one embodiment of a manufacturing apparatus. In FIG.
2 is an extraction device for extracting an active ingredient from crude drugs and other raw materials by atomizing fine particles of water sent from the atomizing fine particle generation tank 1, and 3 is an atomization holding an active ingredient in the raw material transferred from the extraction device 2. A condensing device for liquefying the fine particles, 4 is a storage tank for dropping the active ingredient-containing water liquefied in the condensing device 3 and containing the active ingredient of the raw material from the condensing device 3,
Reference numeral 5 denotes a blower provided between the storage tank 4 and the atomized fine particle generation tank 1. 6 is a second tank connected to the storage tank 4.
The storage tanks 7 are cooling means for cooling the coagulation device 3, the storage tank 4, and the second storage tank 6. As shown in the figure, each device such as the atomized fine particle generation tank 1 and the extraction device 2 is connected by a connecting pipe, and a circulation path is formed around the atomized fine particle generation tank 1. The atomized fine particles circulate in the inside together with the air flow by the action of the blower 5.

FIG. 2 is an external perspective view of the manufacturing apparatus having the above configuration. In the figure, 1 is 35c each in vertical and horizontal directions
This is an atomizing fine particle generating tank composed of a stainless steel water tank having a depth of 60 cm and a depth of 60 cm. During operation, about 30 to 40 liters of water is constantly stored in this water tank. 1a is an ultrasonic generator, which has 8
A set of transducers is installed at the bottom of the aquarium 1 and each transducer has the ability to atomize about 0.5 liters of water per hour. 1b is a heater for setting the water temperature in the water tank 1 to a predetermined temperature.

Reference numeral 2 denotes an extraction device to be described later, which is installed on the side wall of the refrigerator 7 as a cooling means and has a diameter of 38 m.
m and a length of about 1.3 m, and is connected to the atomizing fine particle generating tank 1 by a flexible plastic pipe P1. In addition, d is a drainage tank for receiving the water discharged from the extraction device 2. P2 is a pipe connecting the extraction device 2 and a coagulation device 3 described later, and has a diameter of 40 mm.
Using metal tubes.

FIG. 3A is a perspective view showing the inside of the above-mentioned refrigerating room 7. In the drawing, reference numeral 3 denotes a coagulating device comprising a plurality (six in this embodiment) of coagulating cylinders 3a. As described above, is connected to the extraction device 2 outside the refrigerator compartment 7 by a pipe P2. In this embodiment, each condensation tube 3a
Is composed of a metal tube having a diameter of 85 mm and a length of about 550 mm. As shown in FIG. 3B, a cooling plate 3b is provided inside each condensing cylinder 3a. The upper end of each condensation tube 3a is connected to the connection pipe P2 by a branch pipe, and the lower end is connected to the connection pipe P3 by the same branch pipe.

Reference numeral 4 denotes a storage tank connected to the coagulating device 3 by a connecting pipe P3 having a diameter of 40 mm. The storage tank 4 is provided for dropping water in which the atomized fine particles are liquefied by the coagulating device 3. The upper portion of the storage tank 4 and the blower 5 installed outside the cooling chamber are connected by a connecting pipe 4 having a diameter of 40 mm. Reference numeral 6 denotes a second storage tank, which is connected to the storage tank 4 by a drain pipe 6a. Although the cooling device for the refrigerator compartment 7 is provided on the ceiling portion, a window type air conditioner may be attached to the side wall portion to increase the cooling power.

FIG. 4 is an external perspective view of an outer cylinder, which is a component of the extraction device 2, which is composed of a first outer cylinder 2a and a second outer cylinder 2b, which are joined and clamped by a clamp device Cl. Each of them is detachably supported, has a cylindrical shape with a diameter of about 200 mm and a depth of about 150 mm, and is a member made of stainless steel. Note that a temperature sensor for detecting the temperature during the extraction operation is attached to the lower second outer cylinder 2b. FIG. 5 is an explanatory diagram of the inner cylinder that is a component of the extraction device 2, and is a perspective view of the inner cylinder 2c in FIG. The inner cylinder 2c has a size and a shape that allows the inner cylinder 2c to fit into the outer cylinder, and a net portion for holding the crushed raw material in small pieces is provided at the bottom. FIG. 5B shows a guide plate for fitting into the inner cylinder 2c.
As shown in (c), crushed pieces S of desired raw materials such as crude drugs, soybeans, malt, and ginseng are partitioned inside the inner cylinder 2c. The presence of the guide plate 2d has an effect of facilitating the passage of the atomized fine particles as described later. The guide plate 2d may be formed in a spiral shape. As described above, the extraction device 2 includes the pair of outer cylinders and the inner cylinder fitted therein.

The operation of the manufacturing apparatus will be described based on the above configuration, and an embodiment of the manufacturing method will be described. The raw material used in this example is ginseng, which is famous as a crude drug. First, ginseng crushed to the size of rice grains is shown in Fig. 5.
The inner cylinder 2c shown in FIG. The weight of the carrot at this time is about 1800 grams. For filling, a guide plate 2d shown in FIG. 5B is installed in the inner cylinder 2c. After filling, the ginseng can be stably held in the inner cylinder by putting a net on the ginseng.

Next, the inner cylinder 2c is fitted into the outer cylinder 2 shown in FIG. On the other hand, about 30 to 50 liters of water are stored in the atomized fine particle generating tank 1 shown in FIG. The above-mentioned amount of water is automatically maintained in the atomized fine particle generating tank 1 at all times. When the preparation of the water in the atomized particle generating tank 1 and the soybean as the raw material in the extraction device 2 is completed, the water temperature in the water tank 1 is set by the heater 1b of the atomized particle generating tank 1. When using ginseng as a raw material,
It has been empirically found that the set temperature is optimally 85 ° C. This temperature of 85 ° C. is an optimum temperature for maintaining the temperature in the extraction device 2 at 60 to 70 ° C. as described later.

When the water temperature in the water tank 1 reaches the set temperature of 85 ° C., the switch of the ultrasonic generator 1a is turned on, and the switch of the blower 5 is also turned on. This blower
By the operation of 5, the air flow circulates through the circulation path formed by the atomization generating tank 1, the extracting device 2, the coagulating device 3, the storage tank 4, the blower 5 and the connecting pipe connecting these devices. For this reason, the atomized fine particles of water generated in the atomization generating tank 1 pass through the plastic pipe P1 together with the air flow, and the extraction device 2
To reach. The temperature of the atomized fine particles in the extraction device 2 is preferably in the range of 60 to 70 ° C. as described above. For this reason, the temperature inside the extraction device is constantly detected by a temperature sensor attached to the extraction device 2, and the water temperature in the atomization generating tank 1 is controlled in accordance with the detection result of the sensor to obtain a desired temperature.

As described above, the air flow circulates between the respective devices by the operation of the blower 5, but since the extraction device 2 is filled with soybean as a raw material, the air flow passing through P1 is here. The flow is obstructed by the resistance. On the other hand, there is nothing in the circulation path below the connection pipe P2 that prevents the passage of the air flow. For this reason, the space in the extraction device 2 is in a reduced pressure state.

When the space in the extraction device 2 is decompressed,
Known and unknown components contained in ginseng leach onto the surface of crushed pieces of ginseng, which is the raw material. The various components leached on the surface of the ginseng pieces are captured by the atomized fine particles passing therethrough. As described above, the temperature in the extraction device, specifically, the temperature in the inner cylinder 2c is maintained at about 65 ° C., so that the components contained in the ginseng are extracted into the atomized fine particles without being destroyed by heat. Will be.

The atomized fine particles containing the active ingredient of ginseng reach the respective condensation tubes 3a of the condensation device 3 via the connecting pipe P22 together with the air flow. Condensation tube 3a and internal cooling plate 3
Since b is in the refrigerator compartment 7 and is cooled, the atomized fine particles that come into contact with them are liquefied and changed to water containing the active ingredient of ginseng. The water containing the extract of ginseng drops into the storage tank 4 and finally passes through the drain pipe 6a.
Collected in the storage tank 6. The ginseng extract component-containing water collected in the second storage tank 6 is filtered to remove impurities, and then shipped as an extract component-containing water mainly composed of ginseng active components as a final product. You.

On the other hand, the atomized fine particles which have not been liquefied by the coagulating device 3 are blown through the connecting pipe P4 and blower 5 together with the air flow.
And is returned to the atomizing fine particle generating tank 1 and then sent to the extracting device 2 again via the plastic pipe P1.

As described above, the active ingredient of ginseng, which is a raw material, is captured in the atomized fine particles by circulating the atomized fine particles in the circulation path, and the active ingredient of ginseng is liquefied by the atomized fine particles. Is obtained, but one operation time of the production apparatus is one hour. That is, in the above-described example, the extraction was performed for 1 hour using about 1800 g of carrot crushed pieces, and finally about 3 to 4 liters of water containing the extraction component could be produced.

By the way, in the above-mentioned embodiment, the crushed pieces of ginseng used were of the size of rice grains, but the size of the crushed pieces was variously changed to adjust the concentration of the active ingredient contained in the final product. Can be. That is, the finer the crushed pieces of ginseng, the higher the concentration of the product. However, in that case, the production amount per hour decreases.
Conversely, larger crushed pieces increase yield per hour and lower component concentrations.

In the above embodiment, the inner cylinder 2c of the extraction device 2
The guide plate 2d was used in this method, but when this guide plate is used, the yield of the water containing the extracted component per hour increases by about 20% as compared with the case where it is not used, but the concentration decreases.

In the embodiment according to the above-mentioned manufacturing apparatus, as shown in FIGS. 1, 2 and 3, the atomized fine particles which have not been liquefied are supplied to the atomized fine particle generating tank 1 via the connecting pipe P4 and the blower 5. The temperature of the atomized fine particles is lowered to about 15 ° C. because they are cooled in the refrigerator 7. Then, when the cooled atomized fine particles are mixed with the newly generated atomized fine particles in the water tank 1 in this state and sent to the plastic pipe P1, the temperature of the newly generated atomized fine particles decreases and condenses to form water droplets. And the pipe P1
Transfer of the atomized fine particles at the time may be hindered. As a countermeasure against this problem, the portion of the connecting pipe P4 outside the refrigerator compartment is heated, or the atomized fine particles sent from the blower 5 into the atomization generating tank 1 are rotated by a spiral straightening plate. During that time, the temperature of the atomized fine particles may be raised and then sent again to the plastic pipe P1.

The extraction component-containing water obtained by the above-described production apparatus and production method is a clear, colorless, transparent liquid. Until now, ginseng has been used as a decoction in Chinese medicine, but the destruction of components due to high-temperature steaming was unavoidable.However, in the present technology, extraction is performed at low temperatures, so the effective components contained in ginseng are efficiently captured in water. it can. The ginseng extract component-containing water can be used as it is, or can be used in accordance with the Chinese herbal prescription together with the component-containing water extracted from other crude drugs in the same manner as described above. That is, by mixing the water containing the extractive components from each crude drug, it can be used in the same manner as a conventional decoction.

In the above, an example of application to a crude drug in Chinese medicine has been described. However, it is a matter of course that the raw material to be used for component extraction is not limited to these. In the experiments so far, components were extracted from Chinese herbs such as ginseng, soybeans, coffee beans, other beans, malt, koji, and the like, and trials were repeated for their use. In herbal medicine applications in Chinese medicine,
The tedious task of brewing each patient individually every day has been eliminated. In addition, the extraction efficiency was good, so that it could be used for many patients despite the same amount of raw materials as before. Furthermore, since the active ingredient can be extracted at low temperatures, it is possible to use crude drugs that could only be prescribed as powders and pills in the form of small liquids. Have been obtained. Furthermore, soybeans, malts, koji, and the like, whose components have been considered to be good for the human body since ancient times, have now been able to directly and efficiently ingest the active components they have.

[0028]

According to the present invention, components which could not be extracted conventionally from various substances can be efficiently extracted at a low temperature by the above-described constitution and operation. further,
Extraction component-containing water produced from various substances can be used in various fields depending on applications.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a manufacturing apparatus and a manufacturing method.

FIG. 2 is an external perspective view of a manufacturing apparatus.

FIG. 3 is an external perspective view illustrating a refrigerator compartment of the manufacturing apparatus.

FIG. 4 is an external perspective view of an outer cylinder in the extraction device.

FIG. 5 is an external perspective view showing a configuration of an inner cylinder in the extraction device.

[Explanation of symbols]

1 Atomized particle generation tank, 2 Extraction device 3
Coagulation device 4 Storage tank 5 Blower 6
Second storage tank 7 Cooling means

──────────────────────────────────────────────────続 き Continuation of the front page (73) Patentee 597069154 96 Litchfield Drive, Carlisle, Massac housets, 01741 U.S.A. S. A. (56) References JP-A-63-274402 (JP, A) JP-A-61-118132 (JP, A) JP-B-38-2977 (JP, B1) JP-B-14-7455 (JP, Y1) Japanese Translation of PCT Application No. 5-501379 (JP, A) US Patent 5,219,758 (US, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) B01D 11/02 101 B01D 5/00 B01J 8/02

Claims (10)

(57) [Claims] An apparatus for producing extracted component-containing water containing components extracted from raw materials such as plants, animals or minerals, comprising a heater for heating stored water to a predetermined temperature and a water atomizing means. An atomizing particle generating tank equipped with an ultrasonic generator, and a raw material layer which is connected to the atomizing particle tank while holding the raw material layer so that the effective component of the raw material adheres to the atomizing particles when the atomizing particles pass through An extraction device for decompressing the known and unknown components contained on the surface of the raw material under reduced pressure in the raw material holding state; a condensing device connected to the extracting device for liquefying the atomized fine particles passing through the raw material layer; A storage tank into which water liquefied by the process is dropped, a blower installed between the storage tank and the atomized fine particle generation tank to reduce the pressure of the raw material layer in the extraction device, and cooling the condensing device and the storage tank To do A cooling means, wherein the atomized particle generating tank and the extracting device, the extracting device and the coagulating device, the coagulating device and the storage tank, the storage tank and the blower, and the blower and the atomized fine particle generating tank are connected by pipes respectively. An air flow circulation path is formed, and the extraction device comprises: a first outer cylinder attached to one end of a connection pipe to the atomizing fine particle generation tank; and a second outer cylinder attached to one end of a connection pipe to the coagulation device. And an inner cylinder mounted in the outer cylinder and containing a raw material such as a vegetable substance, an animal substance, or a mineral substance in a layered manner. A detachable guide plate formed by concentrically arranging hollow cylindrical bodies of the above, and the uncondensed atomized fine particles sucked from the storage tank to the atomized particle generation tank by the blower are atomized particle generation tanks Stay for a predetermined time A spiral flow straightening plate for raising the temperature is provided in the atomizing fine particle generating tank, and the raw material divided and stored by the guide plate in the extraction device resists the air flow passing through the air flow circulation path. The manufacturing apparatus characterized in that the pressure inside the extraction device is reduced by generating pressure. 2. The manufacturing apparatus according to claim 1, wherein the diameter of the connecting pipe is smaller than the diameter of the outer cylinder to promote the decompression efficiency of the space in the extraction device. 3. The manufacturing apparatus according to claim 2, wherein the coagulation device comprises a plurality of coagulation cylinders. 4. The manufacturing apparatus according to claim 3, wherein the condensation tube has a current plate inside. 5. A method for producing extracted component-containing water containing components extracted from plants, animals or minerals, comprising: (a) a heater for heating stored water to a predetermined temperature and a means for atomizing water. A step of heating and vibrating water to generate atomized particles of water in an atomizing particle generating tank provided with an ultrasonic generator; (b) a first outer attached to one end of a connecting pipe to the atomizing particle generating tank An outer cylinder comprising a cylinder and a second outer cylinder attached to one end of a connecting pipe with a coagulation device, and a raw material comprising a plant substance, an animal substance, a mineral substance, or the like, mounted in the outer cylinder. And a botanical substance stored in an extraction device having a detachable guide plate formed by concentrically arranging a plurality of hollow cylinders at the bottom of the net, Animal or mineral substances Depressurizing the raw material layer consisting of crushed pieces such as to cause the active ingredient in the raw material to be suctioned and leached onto the surface; The active ingredient sucked and leached on the surface of the raw material is retained in the atomized fine particles by passing through the raw material layer, and (d) the step of sending the atomized fine particles holding the active ingredient to a cooled coagulation device and liquefying the same. (E) a step of dropping water containing active ingredients of various raw materials liquefied by the condensing device into a storage tank to obtain a finished product; (f) a tank for generating atomized fine particles not liquefied by the condensing device. The temperature of the atomized fine particles is increased by rotating them with a spiral straightening plate provided in the atomized fine particle generation tank and keeping them for a predetermined time to increase the temperature. To the extraction device again That step, the manufacturing method of extracting components containing water having the above steps. 6. The method according to claim 5, wherein the plant substance, the animal substance, and the mineral substance are crude drugs. 7. The extraction method according to claim 6, wherein the temperature of the water in the atomization generating tank is about 80 ° C. or less, and the temperature of the raw material layer and the atomized fine particles in the extraction device is about 60 to 70 ° C. A method for producing component-containing water. 8. An extract-containing water produced mainly by a component extracted from a plant, an animal or a mineral and produced by the following steps. (A) Heating and vibrating water to generate atomized particles of water in an atomizing particle generating tank provided with a heater for heating the stored water to a predetermined temperature and an ultrasonic generator as atomizing means for water. (B) an outer cylinder comprising a first outer cylinder attached to one end of a connecting pipe to the atomizing fine particle generating tank and a second outer cylinder attached to one end of a connecting pipe to the coagulation device; And an inner cylinder that accommodates a raw material composed of a plant substance, an animal substance, a mineral substance, or the like in a layered manner, and the inner cylinder is formed by concentrically forming a plurality of hollow cylinders at the bottom of the net. The raw material layer consisting of crushed pieces of plant material, animal material, mineral material, etc., housed in an extraction device having detachable guide plates arranged side by side is decompressed and the active ingredient in the raw material is suctioned and leached on the surface. (C) reducing the pressure (D) a step of feeding the atomized fine particles together with an air flow circulating between the respective devices to a certain raw material layer and passing the fine particles through the raw material layer, thereby retaining the active ingredient sucked and leached on the surface of the raw material by the atomized fine particles; (E) a step of sending the atomized fine particles holding the active ingredient to a cooled coagulation apparatus to liquefy, and (e) dropping water containing the active ingredients of various raw materials liquefied by the coagulation apparatus into a storage tank to obtain a finished product; (F) While the temperature of the atomized fine particles not liquefied by the coagulation device is raised by returning to the atomized fine particle generation tank, rotating by a spiral straightening plate provided in the atomized fine particle generation tank and retaining for a predetermined time, Mixing the atomized fine particles with the increased temperature with newly generated atomized fine particles and sending the mixed fine particles to the extraction device again. 9. The extract-containing water according to claim 8, wherein the plant substance, the animal substance, and the mineral substance are crude drugs. 10. The method according to claim 9, wherein the temperature of the water in the atomization generating tank is about 80 ° C. or less, and the temperature of the raw material layer and the atomized fine particles in the extraction device is about 60 to 70 ° C.
Extract-containing water, which is characterized in that it comes out.