KR100830733B1 - The manufacturing method of the herb medicine by distillation - Google Patents

Abstract

The present invention relates to a method for producing a distilled herb and a distilled herb prepared by the present method, the method for producing a distilled herb according to the present invention comprises the steps of extracting the extract by heating and then mixing the herbal raw material and water; Decomposing the extract contained in the extract into fine particles; Heating the extract to generate steam; And condensing the generated steam to form a distillate.

This eliminates the inherent aromas, odors, and flavors of the herbal extracts, and can be taken by anyone regardless of age or gender. The active ingredients of herbal medicines can be sufficiently contained in the distillate to provide a therapeutic effect compared to traditional distilled herbs. It can be improved.

The present invention comprises the steps of transferring the steam generated in the step of generating the steam to the cooling chamber; And cooling the transferred steam in a cooling chamber to form a distillate.

This can shorten the time required to obtain the distillate, and can prevent the distillate from being denatured when the distillate is stored for a long time.

Distillation Herbal Medicine, Ultrasonic, Cavitation, Water-cooled, Vacuum Pump

Description

The manufacturing method of the herb medicine by distillation

The present invention relates to a method for preparing a distilled herb and a distilled herb prepared by the present method, and more particularly, to a method for preparing a distilled herb and a distilled herb prepared thereby, which can significantly increase the active ingredient of the herb. It is about.

According to ancient medical literatures such as Dongbobogam and herbal herb, various efficacy of Korean traditional herbal medicines have been reported since ancient times. Recently, the efficacy of these herbal medicines has been scientifically tested through these herbal medicines. In recent years, more and more patients are taking herbal medicines to treat incurable diseases that cannot be resolved.

As a method of extracting the herbal ingredients that are effective for our human body, traditionally, the brewing method has been used in the past. Traditionally, the brewing method is to put herbal medicines together with water in a pot made of earthenware or porcelain, decoction for a long time, and then swallow the contents. It was a way of squeezing out cloth.

However, to date, large-scale medicinal herbs made of stainless steel for mass production have been mixed with water, heated, and then squeezed by mechanical compression means.

However, when using this type of cooking method, since a large part of the ingredients of the medicine vaporizes and escapes to the outside, a large part of the active ingredient is lost and there is a problem that the surrounding environment is contaminated due to the peculiar smell that occurs during the cooking. In particular, there is a lot of problems to popularize because there is a sense of refusal to drink with the bitter taste, smell, etc. peculiar to herbal and herbal medicine from herbal medicine.

In recent years, distilled herbal medicines have appeared in a clear and transparent form that vaporizes the herbal extracts, vaporizes them, cools them, and extracts them to remove the inherent taste, aroma, and smell.

However, the conventional distilled Chinese herbal medicine is only a distillation of the herbal medicine extract through a distillation process, in fact, no active ingredient is present in the distillate or extremely insignificant, there is a problem that can not be used as a therapeutic agent because it has only a psychological effect at all. there was.

In addition, since the distillate is prepared by heating at a high temperature, the active ingredient of the extract may be decomposed at a high temperature, it takes a long time to condense, there is a problem that the microorganism can be added in the process easily deteriorated.

Therefore, the present invention has been made to solve the above problems, the object of the present invention is to remove the taste, aroma, odor, etc. that the Chinese medicine originally has a convenient and easy to take for any age and sex, no side effects and quick digestion and absorption It is to provide a method of manufacturing a distilled Chinese medicine.

It is another object of the present invention to provide a method for preparing a distilled herb in which the extract contained in the extract can be decomposed into fine particles, heated, and obtained by liquefying the vapor generated therefrom.

Still another object of the present invention is to provide a method for preparing a distilled herb, which can distill the extract at low temperature to prevent destruction of the active ingredient and can be preserved for a long time without deterioration of the distillate component through a rapid cooling process.

In order to achieve the above object, the present invention comprises the steps of making the active ingredient of the extract easy to vaporize by heating the decomposition of the extract contained in the herbal extracts into fine particles and transferring the generated steam to the cooling chamber and cooling It is characterized by.

On the other hand, all technical terms and scientifically related terms that are not separately defined in the present invention represent the conventional meaning commonly used in the technical field to which the present invention belongs. However, the following terms are defined as follows to clarify the scope of the present invention.

Definition of Terms

1) In this specification, "cavitation" is defined as a vibration phenomenon occurring at the interface of a medium when a certain sound wave reaches the medium.

2) As used herein, the term "vacuum pump" is defined as referring to a device that maintains an internal pressure close to a vacuum, rather than a vacuum in a precise sense.

3) In the present specification, "legal" is defined as a process of removing toxins and irritation of herbal medicines using water or fire for the purpose of improving the quality of treatment and using them conveniently.

4) In this specification, steaming is defined as steaming with steam, and homemade is defined as washing with water.

Hereinafter, a method for preparing a distillation herb according to the present invention and a distillation herb prepared by the present method will be described in detail.

Method for producing a distilled herbal medicine according to the present invention comprises the steps of extracting the extract by heating and mixing the herbal raw material and water; Decomposing the extract contained in the extract into fine particles; Heating the extract to generate steam; And condensing the generated steam to form a distillate, characterized in that to produce a distilled herb containing a sufficient amount of the active ingredient of the herbal medicine.

Here, in order to prevent destruction of the active ingredient contained in the extract, it is preferable to extract by heating for 4 to 8 hours at a temperature of 60 ~ 80 ℃.

In addition, the step of decomposing the extract into fine particles is preferably made by ultrasonic radiation. When the ultrasonic wave is radiated to the extract, intense cavitation occurs at the interface of the extract, and thus the extract can be formed into fine particles.

On the other hand, in order to ensure the stability of the extract it is preferable to generate the ultrasonic wave through the ultrasonic generator installed on the outside of the container in which the extract is placed.

Here, the frequency range of the ultrasonic wave is 20 ~ 200KHz, the ultrasonic radiation time is preferably 10 seconds to 60 seconds.

In addition, in order to increase the distillation efficiency, it is preferable that the step of decomposing the extract into fine particles and the step of heating the extract liquid to generate steam at the same time.

The step of generating steam may be performed in a closed space to prevent the loss of steam, in particular, it is preferable to heat for 3 to 8 hours at a temperature of 40 ~ 90 ℃ at 460 ~ 660mmHg, the pressure below atmospheric pressure.

In order to remove harmful substances such as heavy metals contained in the herbal raw material, a step of legalizing the herbal raw material may be added before extracting the extract from the herbal raw material. In this case, it is particularly preferable to go through steam steaming process or washing with water.

Here, after forming the distillate, it is preferable to go through the step of filtering the distillate to enhance digestion and absorption, or to sterilize the distillate to prevent the growth of microorganisms.

On the other hand, the distillation herbal medicine according to the present invention is mixed with the herbal medicine raw material and water and then heated to extract the extract, decomposes the extract contained in the extract into fine particles, and heat the extract to generate steam to condense it Consisting of distillate formed.

Here, the herbal raw material may be prepared before extracting the extract. This can remove harmful substances such as heavy metals contained in the herbal raw material. In particular, as a method of legalizing, steaming or making it is preferable.

In addition, after the distillate is formed, the distillate may be filtered to enhance digestion and absorption, or the distillate may be sterilized to prevent the growth of microorganisms.

On the other hand, the method of manufacturing a distilled herbal medicine according to the present invention comprises the steps of extracting the extract by heating and mixing the herbal raw material and water; Decomposing the extract contained in the extract into fine particles; Heating the extract to generate steam; Transferring the generated steam to a cooling chamber; And cooling the transferred steam in a cooling chamber to form a distillate, thereby rapidly distilling the steam containing sufficient active ingredients of the herbal medicine to increase the distillation efficiency and manufacturing a distilled herb that can be stored for a long time. Characterized in that.

Here, in order to prevent destruction of the active ingredient contained in the extract, it is preferable to extract by heating for 4 to 8 hours at a temperature of 60 ~ 80 ℃.

In addition, the step of decomposing the extract into fine particles is preferably made through ultrasonic radiation. When the ultrasonic wave is radiated to the extract, intense cavitation occurs at the interface of the extract, and thus the extract can be formed into fine particles.

On the other hand, in order to ensure the stability of the extract it is preferable to generate the ultrasonic wave through the ultrasonic generator installed on the outside of the container in which the extract is placed.

Here, the frequency range of the ultrasonic sound is 20 ~ 200KHz, the ultrasonic radiation time is preferably 10 seconds ~ 60 seconds.

In addition, in order to increase the distillation efficiency, it is preferable that the step of decomposing the extract into fine particles and the step of heating the extract liquid to generate steam at the same time.

The step of generating the steam may be made in a closed space to prevent the loss of steam, it is preferable to heat for 3 to 8 hours at a temperature of 40 ~ 90 ℃ at a pressure below atmospheric pressure, in particular a pressure of 460 ~ 660mmHg. .

Here, the transfer is preferably made through a transfer pipe connecting the closed container and the cooling chamber. This is because the cooling efficiency is impaired if cooled directly inside the container.

The steam inlet of the transfer pipe is preferably installed higher than the steam outlet of the transfer pipe. This is to increase the yield even when the vapor is liquefied during transportation.

In particular, it is preferable that a vacuum pump is installed inside the transfer pipe to suck steam within a short time, and the internal pressure of the vacuum pump should be maintained at 10 to 100 mmHg for efficient suction.

In addition, a gas filter for filtering unsaturated components may be installed inside the transfer pipe.

The cooling chamber may include a cooling tube and a cooling device in communication with the transfer tube. In particular, the cooling device is preferably a water-cooled cooling device in order to increase the cooling efficiency, the cooling rate can be significantly increased by using water of 0 ~ 25 ℃ as the refrigerant material.

Here, in order to remove harmful substances such as heavy metals contained in the herbal raw material, a step of legalizing the herbal raw material may be added before extracting the extract from the herbal raw material. In this case, it is particularly preferable to go through steam steaming process or washing with water.

In particular, after forming the distillate, it is preferable to go through the step of filtering the distillate to enhance digestion and absorption, or to sterilize the distillate to prevent the growth of microorganisms.

On the other hand, the distillation herb according to the present invention is mixed with the herbal raw material and water and heated to extract the extract, decomposes the extract contained in the extract into fine particles, and then heated the extract to generate steam to cool the chamber It may be made of a distillate formed by transferring to the cooling chamber in the cooling chamber.

Here, the herbal raw material may be prepared before extracting the extract. This can remove harmful substances such as heavy metals contained in the herbal raw material. In particular, it is preferable to steam or make it by the method of legalization.

In addition, after the distillate is formed, the distillate may be filtered to enhance digestion and absorption, or the distillate may be sterilized to prevent the growth of microorganisms.

Hereinafter, the configuration according to the present invention will be described in detail for each step.

(Extracting extract)

Extraction is a series of processes in which a solvent is used to extract certain components from a solid. In particular, the extraction of herbal medicine means the process of extracting the active ingredient by heating the herbal medicine.

In the extraction process according to the present invention, it is preferable to use water as a solvent. If water is used, amino acids, sugars, and inorganic salts of herbal medicines can be sufficiently extracted. The amount of water is preferably 10 times the amount of herbal medicines.

The extraction temperature is closely related to the active ingredient of medicinal herb. If the extraction temperature is over 100 ℃, the effective ingredient of the medicinal herb is destroyed, and the effectiveness of herbal medicine is decreased. If the extraction temperature is below 60 ℃, the extraction temperature is long and it is uneconomical and effective. It is not suitable because many of the ingredients cannot be extracted and remain in the herbal medicine. The most preferred extraction temperature is therefore 70 to 80 ° C.

Extraction time should vary depending on the amount, type, extraction temperature, etc. of the herbal medicine, it is preferable to heat until the volume of the added solvent is about 1/2. In the present invention, when the amount of the solvent is 10 times and the extraction temperature is 70 ~ 80 ℃ it is preferable to extract for 4 to 8 hours. However, heating time should be in order of mineral> animal> vegetable medicine within the above range.

Through this extraction process, the solid active ingredients contained in the herbal medicine are decomposed through heat and sufficiently mixed in the solvent, thereby minimizing volume and weight, and being easily absorbed and reacting quickly, so that patients with acute illness or digestive power are weak. It can work for you.

This extraction process is an essential process for the distillation process described later.

(Decomposing the extract into fine particles)

When the extract is decomposed into fine particles, the extract may be easily vaporized with water vapor when heated, thereby forming a distillate sufficiently containing the active ingredient.

The method of decomposing the extract into fine particles is to put the extract into a micro separator and filter, and to radiate ultrasonic bonds to the extract to weaken the bonds between the molecules of the extract to decompose the fine particles. Since a fine separator is required, economical efficiency is not preferable. Therefore, the use of ultrasound is preferable when considering economics and efficiency.

 Decomposing the extract into microparticles using ultrasonic waves is a process of radiating a constant frequency over an audible frequency range to an object, and using cavitation to weaken the binding force between molecules of the extract to decompose it into small particles.

The extract is composed of extract and water extracted from the herbal raw material, the extract contains the active ingredient of the herbal raw material. Such extracts are characterized by a large intermolecular bond that cannot be easily vaporized upon heating. Therefore, when the ultrasonic wave is decomposed into fine particles, the amount of the vaporized extract may be much increased.

Hereinafter, the step of decomposing the extract according to the present invention in detail with reference to the decomposition principle of the material using ultrasonic waves will be described.

When the ultrasonic wave is emitted to the material, the ultrasonic wave that hits the material repeatedly vibrates and repeats the vibrations of tens of thousands of times. As a result, tens of thousands of fine bubbles are generated as the cohesive force of water molecules is destroyed. This phenomenon is called cavitation.

This cavitation is a phenomenon in which a fine bubble group is generated and disappeared by a large pressure change of the ultrasonic wave when the ultrasonic wave propagates into a solution, and is characterized by a considerable pressure and high temperature. This pressure and high temperature occur for short periods of time from hundredths to thousands of seconds.

By this powerful force, ultrasonic waves weaken the binding force of molecules of a substance and decompose into fine particles, so that the active ingredient can be easily vaporized when heated.

In particular, since ultrasonic waves have a strong force for vibrating a substance, when ultrasonic waves are radiated in a solution mixed with a solute and a solvent, the medium on the ultrasonic path is partially heated, a large pressure is applied, and bubbles are generated in a solvent surrounding the substance. .

The bubbles thus generated are destroyed when they come into contact with the material, at which time considerable pressure is applied to the material, causing the material to undergo mechanical action or to cause chemical changes. In particular, the change may destroy bacteria or harmful components contained in the material, and in the case of the polymer, may break the bond between molecules. That is, the material can be decomposed into fine particles. In addition, emulsification is difficult to finely pulverized when subjected to ultrasonic waves can create a stable emulsion.

Decomposing the extract according to the present invention into fine particles may use an ultrasonic generator, the ultrasonic generator can be installed on the inside or outside of the container into which the herbal extract is injected, and then the ultrasonic wave can be decomposed into fine particles. have.

However, in order to secure the stability of the active ingredient contained in the extract, it is preferable to indirectly weaken the molecular bond of the extract by installing the outside of the container into which the extract is injected and radiating ultrasonic waves to the container.

In general, the ultrasonic wave means all frequencies of 16 KHz or more, but the frequency used in the present invention is preferably used within the range of 16 to 40 KHz. If the ultrasonic wave having a frequency range of 40KHz or more is used, the intermolecular bonds are easily broken by the high frequency, so that the active ingredient of the herbal medicine is destroyed.

The radiation time of the ultrasonic wave is preferably 10 to 60 seconds. The longer the spinning time, the more severe the cavitation, and the greater the pressure and temperature transmitted to the extract, resulting in chemical changes. Therefore, the spinning time is suitable to weaken the intermolecular binding force and easily vaporize without destroying the active ingredient.

Ultrasonic radiation is made through an ultrasonic generator, by installing a plurality of ultrasonic generators inside or outside the container can perform ultrasonic radiation from multiple angles. In particular, when the ultrasonic generator is installed radially, there is an effect that can minimize the disappearance interference that can be generated between the ultrasonic waves.

After the ultrasonic radiation step as described above, the extract becomes a particle size of about 1nm ~ 100nm and becomes dispersed state without aggregation or sedimentation in the liquid.When in this state, the active ingredient of the extract is easily vaporized by being included in water vapor during heating. It can be made to distillate that can contain the active ingredient as much as possible.

(Heating the extract to generate steam)

This step is a step of generating a steam which is the previous step of the distillate which is the object of the present invention by heating the extract. The steam generated by heating the extract liquid contains a large amount of the extract decomposed into fine particles by ultrasonic radiation.

 The extract is preferably heated in a closed space. This is because the closed container serves to prevent the active ingredient of the extract from being lost after vaporization and to maintain pressure during decompression when heated.

The closed space preferably maintains a pressure below atmospheric pressure. This is because the extract is unstable at high temperature, so if the atmospheric distillation, the active ingredient is decomposed and heat denaturation may occur. In addition, when maintaining a reduced pressure, the boiling point of the extract is lowered, so it can be heated even at low temperatures has the advantage of saving energy due to heating.

In particular, the internal pressure of the sealed container is preferably 460 ~ 660mmHg. When the pressure is lowered, such as vacuum, vaporization may occur immediately without applying heat, but only the active ingredient of the herbal medicine may be vaporized with water vapor.

The heating temperature in the step of generating the steam is preferably 60 ~ 80 ℃. As described above, when heated to a high temperature, the active ingredient of the extract may be destroyed and thermal denaturation may occur. In addition, since the heating is reduced under reduced pressure, the boiling point of the solvent is lowered, there is an advantage that vaporization can easily occur even at the above temperature.

The heating time in the step of generating the steam is preferably 3 to 8 hours. In the process of heating for 3 hours or more, most pesticide components are removed, and especially preservatives, heavy metals, etc. are removed from the distillate. However, since the heat-modified active ingredient may evaporate when heated for a long time, heating within 8 hours is preferable.

Decomposing the extract contained in the extract into fine particles and heating the extract may be made at the same time. That is, when simultaneously radiating ultrasonic waves to the extract through an ultrasonic generator, the extract decomposed into fine particles can be vaporized immediately, thereby increasing the vaporization efficiency of the active ingredient and shortening the heating time.

As described above, the step of generating the steam by heating the extract liquid is to decompress the inside of the vessel and to heat it at a low temperature, which not only prevents the active ingredient from being destroyed, but also makes it easier to vaporize the extract decomposed into fine particles together with the water vapor component. Can be.

(Condensing steam to form distillate)

Condensing the steam to form a distillate is a step of obtaining a distillate of the object according to the present invention, the generated steam is a steam containing a sufficient amount of the active ingredient of the herbal extract condensed at room temperature, the herbal distillate is formed.

Condensation can be carried out in two ways, the first of which is to stop heating in the extract and to condense the generated steam inside the vessel, and the second is to continue the process without stopping the heating. This is a method of moving steam to a condenser outside the vessel and condensing in the condenser.

When condensing the steam in the above manner, a distillate is formed, which is a distillate containing sufficient active ingredients of herbal medicine by ultrasonic radiation treatment. Has excellent efficacy.

( Generated  Separately installed steam With cooling chamber  Transfer step)

This step is a preliminary step for cooling the heated steam to obtain a distillate, and collecting and delivering the vaporized vapor to transfer the vaporized vapor to the cooling chamber by heating.

Vapors containing the active ingredient evaporated by heating are lowered in density to rise to the top of the vessel. This steam increases with increasing heating time, which needs to be collected and transferred to the cooling chamber as soon as possible.

If the vaporized vapor is directly condensed inside the vessel, the yield is not only lowered, but the vapor may be liquefied again and returned to the extract during vaporization. Therefore, it is preferable to transfer the collected vapor and cool it in a cooling chamber. Do.

It is preferable that the transfer uses a transfer tube provided separately. This serves as a passage connecting the vessel and the cooling chamber, it is suitable to install a separate transfer pipe in order to smoothly flow the steam into the cooling chamber.

The steam inlet of the transfer pipe is preferably installed higher than the steam outlet of the transfer pipe. Since steam is liable to liquefy while passing through the transfer pipe, it is to facilitate the flow into the cooling chamber through the transfer pipe when the vapor is liquefied.

It is preferable that the material of the said conveyance pipe consists of glass. In order to prevent the components contained in the conveying pipe from entering the steam due to heat, a relatively heat resistant glass is suitable. In addition, there is an advantage that can keep the distillate in a clean state during the transfer of steam.

A vacuum pump may be formed inside the transfer pipe. The vacuum pump is a device for sucking vaporized vapor in a short time, and can be installed inside the transfer pipe to generate a pressure difference to effectively move the convective vapor from the container to the cooling chamber.

The internal pressure of the vacuum pump is preferably 1 ~ 100mmHg. The lower the pressure, the faster the amount and speed of the vapor being sucked, so it is desirable to keep the pressure as low as possible.

It is preferable that a gas filter for filtering unsaturated components is installed inside the transfer pipe. The gas filter should be formed in a structure including a filter as a device capable of filtering harmful components that may be included in the vapor.

(Conveyed steam In the cooling chamber  Cooling step)

This step is a step of forming a distillation herb that is the object of the present invention by cooling the conveyed steam to form a distillate.

Here, the cooling chamber preferably includes a cooling tube and a cooling device. The cooling pipe is a passage through which the steam transported along the transfer pipe passes and is connected to the transfer pipe. The cooling device is a device for cooling the cooling pipe, and if the cooling pipe and the cooling device are separately installed, the cooling efficiency can be increased. .

The cooling device is preferably a water-cooled cooling device. This method uses water as the coolant, which requires a separate coolant and has difficulty in managing the coolant. However, since the cooling efficiency is excellent according to the thermal conductivity, a water-cooled chiller is suitable.

Moreover, it is preferable that the temperature of the water which is a coolant used for the said water-cooled chiller is 0-25 degreeC. If the temperature of the water is high, the steam can not be cooled efficiently, the cooling water itself may be contaminated.

In addition, the cooling device is preferably installed outside the cooling tube. This is because when the cooling device is provided inside the cooling tube, the distillate condenses on the cooling device as the steam cools, which may lower the cooling efficiency.

 In addition, the cooling device is preferably a spiral cooling device. This is the way that the steam flowing out through the transfer pipe to the cooling tube when it is introduced into the spiral enclosing from the outside, the cooling rate compared to the amount of water supplied thereby has an advantage.

(Medicinal ingredients Legal  step)

The legislation is a process of removing impurities such as heavy metals and pesticides contained in the herbal medicine raw materials as described above, and processing the herbal raw materials using water or fire before extracting the herbal raw materials. In particular, in order to remove heavy metals, etc. contained in the herbal medicine it is preferable to go through the steaming (烝 mature) process of steaming the raw material of herbal medicine with water or to go through the homemade process of washing with water.

(Filtering the distillate)

As a step of filtering the condensed distillate, it is filtered through a micro filter. This step allows the removal of mucous components and fibers that are difficult to digest and absorb from distilled herbs.

(Step of Sterilizing Distillate)

Sterilizing the condensed distillate, the filtered distillate, or the mature distillate, it is carried out to prevent the growth of microorganisms, thereby enabling long-term storage of distilled herbs.

Hereinafter, the configuration of the present invention will be described in more detail through examples. However, the scope of the present invention is not limited by the embodiment.

As a container used in the practice of the present invention, a boiling chamber having a length of 280 cm and a radius of 25 cm was used, and the material of the container was made of PVC and stainless steel to increase the compression effect. In addition, a magnetic pump was used to reduce the pressure inside the vessel, and a separate condenser was used to condense the steam.

The instrument is equipped with a temperature digital indicator, and the gauge is equipped with a low pressure pressure gauge, a pressure gauge and a vacuum gauge. The range is 0 to 15 kg / cm 2, and the pressure range of the pressure gauge for high pressure is 0 to 35 kg / cm 2. The vacuum gauge ranges from 0 to 760mmHg and the ammeter is AC single phase two wire 220V, 60Hz, 500rev / kwh.

Example  One

According to the agreement, 400g of water is added to 5g each of the raw materials of Ssamji-tang, Baekjak, Cheongung, and Angelica, which are the raw materials of Samul-tang, and then mixed into a container and heated at a temperature of 60 ° C. for 8 hours to extract the extract. Thereafter, ultrasonic waves of 20 KHz are radiated to the extract for 10 seconds to decompose the extract into fine particles.

Then, the extract was put into a sealed container and heated at 60 ° C. for 5 hours while maintaining the pressure at 460 mmHg to generate steam and condensing the generated steam, causing nervous breakdown, particularly anemia, anemia and diabetes. Prepare distilled Chinese medicine with efficacy in high blood pressure, pulmonary tuberculosis, etc.

This embodiment is a manufacturing process of a distillation herbal medicine comprising the step of decomposing the extract into fine particles by ultrasound.

Therefore, it is possible to prepare a distilled herb with an increase of 8 times of sucrose sulfur component, 5 times of Baekjak ingredients, and 2 times of Cheongung and Angelica components, compared to conventional distillation herbs using the same herbal medicine.

Example 2

According to Dongbogam, 400g of water is added to 5g of Ginseng, Baekchul, Baekbokyeong, and Jagam, each of the raw materials of Sagunjatang, mixed, and then put into a container and heated for 8 hours at a temperature of 60 ° C to extract the extract. Thereafter, ultrasonic waves of 20 KHz are radiated to the extract for 10 seconds to decompose the extract into fine particles.

Then, the extract was put into a sealed container and heated at 60 ° C. for 5 hours while maintaining the pressure at 460 mmHg to generate steam, followed by cooling to form a distillate, which was filtered through a 150 μm filter. Sterilization for 10 seconds at 100 ℃, to prepare a distilled Chinese medicine that is effective in eminence, chronic gastritis, gastrointestinal disability.

This embodiment is a process for preparing a distillation herb comprising the step of decomposing the extract into fine particles with ultrasonic waves and filtering and sterilizing the distillate.

Therefore, it is possible to produce a distilled herb with a ginseng component 2 times, an extract component 5 times, a Baekbokryeong component 2 times, and a sensory component 5 times increased compared to a conventional distillation herbal medicine using the same herbal medicine raw material.

Example 3

According to Dongbogam, 400g of water is added to 5g of Ginseng, Baekchul, Baekbokryeong, Jagamcho, Sukjihwang, Baekjak, Cheonggung, and Angelica, which are the raw materials of Palmultang, mixed and put into a container and heated at 60 ℃ for 8 hours to extract the extract. . Thereafter, ultrasonic waves of 100 KHz are radiated to the extract for 20 seconds to decompose the extract into fine particles.

Thereafter, the extract was put into a sealed container and heated at 80 ° C. for 3 hours while maintaining the pressure at 560 mmHg to generate steam. The generated vapor was transferred to a cooling chamber through a transfer tube and then 20 ° C. Cooled with water to prepare a distilled herbal medicine that is effective in weak constitution, anemia, irregular menstruation.

This embodiment is a process of manufacturing a distilled herb comprising the step of decomposing the extract into fine particles by ultrasonic wave and transferring the generated steam to a cooling chamber through a transfer tube.

For this reason, ginseng, Baekchul and Baekbokryeong ingredients are 4 times, Jakchocho components are 8 times, Sukji sulfur is 5 times, Baekjak ingredients are 2 times, Cheonggung and Angelica components are 3 times as compared to the conventional distilled herbs using the same herbal medicine. A fold increased distillation herb can be prepared.

Example 4

According to Dongbogam, add 10g of Baekjak, raw materials of Ssanghwatang, 4g each of Hwanggi, Donkey, Sukjihwang and Cheongung, 3g of cinnamon and licorice, 3g each of ginger, and 400g of 3 controls and put them in a container. Heat for time to extract the extract. Thereafter, ultrasonic waves of 100 KHz are radiated to the extract for 20 seconds to decompose the extract into fine particles.

Thereafter, the extract was introduced into a sealed container and heated at 80 ° C. for 3 hours while maintaining the pressure at 560 mmHg to generate steam, and the generated steam was transferred to a cooling chamber through a transfer tube at 5 ° C. After cooling with water, it is filtered through a 150 μm filter and sterilized at 100 ° C. for 10 seconds to prepare a distilled herb which is effective in preventing cold, tonic blood, and wasting disease.

This embodiment is a process for producing a distilled herb comprising the step of decomposing the extract into fine particles with ultrasonic waves, transferring the generated steam through a transfer tube, cooling it, and filtering and sterilizing the distillate.

Therefore, compared to the conventional distillation herb using the same raw material of herbal medicine, it is possible to produce a distillation herb with two times the amount of Baekjak, Astragalus, Angelica, Sukji, and Cheonghwang, respectively four times, cinnamon and licorice five times.

As described above, the method for producing a distilled herbal medicine according to the present invention and the distilled herbal medicine prepared by it can remove the inherent aroma, smell, and taste of the herbal medicine can be taken by anyone regardless of gender, age, distillate It is composed of fast absorption when taking advantage of no side effects.

In addition, by decomposing the extract into fine particles by ultrasonic radiation, the active ingredient of the herbal medicine can be easily vaporized with water vapor during heating. Because of this, there is an advantage that can be obtained through the distilled Chinese medicine herbal medicine effects such as growth promotion, immune system enhancement, constitution improvement.

In addition, since the distillation is carried out under reduced pressure, the boiling point can be lowered, and energy saving effects can be expected, and a vacuum pump is installed inside the transfer pipe to increase the suction amount and speed of the steam, thereby increasing the distillation efficiency.

In addition, by rapidly cooling the steam generated by heating to form a distillate to form a distillate to prevent the denaturation of the distillate, it can save the time taken to obtain the distillate, and by cooling with water from the outside cooling efficiency There is an advantage to increase.

Claims (42)

Mixing the herbal raw material and water and extracting the extract by heating at a temperature of 60-80 ° C. for 4-8 hours; Decomposing the extract contained in the extract into 20 to 200 KHz frequency range of ultrasonic waves for 10 seconds to 60 seconds into fine particles; Heating the extract at 460-660 mmHg pressure and 60-90 ° C. for 4-8 hours to generate steam; And Condensing the generated steam to form a distillation herbal comprising the step of forming a distillate. delete delete delete delete delete The method of claim 1, Decomposing the extract into fine particles and the step of heating the extract to generate a steam is a method of producing a distillation herbal, characterized in that at the same time. delete delete delete delete delete The method of claim 1, A method of producing a distilled herb, characterized in that the step of removing the toxin and irritating the raw material of the herbal medicine before the step of preparing the extract. The method of claim 13, The step of removing the toxins and irritation of the raw material of herbal medicine is a method of producing a distilled herb, characterized in that the raw material of the herbal medicine is steamed or washed with water. The method of claim 1, The method of manufacturing a distillation herb characterized in that the step of filtering the distillate is added. The method of claim 1, Sterilizing the distillate is a method of manufacturing a distillation herbal, characterized in that the addition. delete Mixing the herbal raw material and water and extracting the extract by heating at a temperature of 60-80 ° C. for 4-8 hours; Decomposing the extract contained in the extract into 20 to 200 KHz frequency range of ultrasonic waves for 10 seconds to 60 seconds into fine particles; Heating the extract at a pressure of 460-660 mmHg and a temperature of 60-90 ° C. for 4-8 hours to generate steam; Transferring the generated steam to a cooling chamber; And Cooling the transferred steam in a cooling chamber to form a distillate. delete delete delete delete delete The method of claim 18, Decomposing the extract into fine particles and the step of heating the extract to generate a steam is a method of producing a distilled herbal, characterized in that at the same time. delete delete delete delete delete The method of claim 18, The transfer is a method of producing a distilled herb, characterized in that through the transfer pipe connecting the closed container and the cooling chamber. The method of claim 30, The steam suction port of the transfer pipe is a distillation herbal medicine manufacturing method characterized in that it is installed higher than the steam outlet of the transfer pipe. The method of claim 30, Distillation herbal medicine manufacturing method characterized in that a vacuum pump for sucking the steam is installed inside the transfer pipe. 33. The method of claim 32, The internal pressure of the vacuum pump is a method for producing a distillation herb, characterized in that 1 ~ 100mmHg. delete The method of claim 30, The cooling chamber is a distillation herbal medicine manufacturing method comprising a cooling tube and a cooling device in communication with the transfer tube. 36. The method of claim 35 wherein The cooling device is a method of manufacturing a distillation herbal medicine, characterized in that the water-cooled cooling device. The method of claim 36, The temperature of the water used in the water-cooled chiller is a method of producing a distilled herb, characterized in that 0 ~ 25 ℃. The method of claim 18, A method of producing a distilled herb, characterized in that the step of removing the toxin and irritating the raw material of the herbal medicine before the step of preparing the extract. The method of claim 38, The step of removing the toxins and irritation of the raw material of herbal medicine is a method of producing a distilled herb, characterized in that the raw material of the herbal medicine is steamed or washed with water. The method of claim 18, The method of manufacturing a distillation herb characterized in that the step of filtering the distillate is added. The method of claim 18, Sterilizing the distillate is a method of manufacturing a distillation herbal, characterized in that the addition. delete